The Design and Development of CollaborAT: A Groupware Solution for IEP Teams Supporting School-Age Students Who Use Assistive Technology

ERIC Educational Resources Information Center

Geist, Lori A.

2010-01-01

Team collaboration is necessary to fully support school-age students who use assistive technology (AT). Teams should include the student, his or her family, and school professionals. Unfortunately, team collaboration is often not realized due to constraints that range from scheduling conflicts and language barriers to lack of defined roles and…

Ground Rules in Team Projects: Findings from a Prototype System to Support Students

ERIC Educational Resources Information Center

Whatley, Janice

2009-01-01

Student team project work in higher education is one of the best ways to develop team working skills at the same time as learning about the subject matter. As today's students require the freedom to learn at times and places that better match their lifestyles, there is a need for any support for team project work to be also available online. Team…

'TeamUP': An approach to developing teamwork skills in undergraduate midwifery students.

PubMed

Hastie, Carolyn Ruth

2018-03-01

to develop an effective model to enable educators to teach, develop and assess the development of midwifery students' teamwork skills DESIGN: an action research project involving participant interviews and academic feedback. a regional university PARTICIPANTS: midwifery students (n = 21) and new graduate midwives (n = 20) INTERVENTIONS: a whole of course program using a rubric, with five teamwork domains and behavioural descriptors, to provide a framework for teaching and assessment. Students self and peer assess. Lectures, tutorials and eight different groupwork assignments of increasing difficulty, spread over the three years of the undergraduate degree are incorporated into the TeamUP model. the assignments provide students with the opportunity to practice and develop their teamwork skills in a safe, supported environment. the social, emotional and practical behaviours required for effective teamwork can be taught and developed in undergraduate health students. students require a clear overview of the TeamUP model at the beginning of the degree. They need to be informed of the skills and behaviours that the TeamUP model is designed to help develop and why they are important. The success of the model depends upon the educator's commitment to supporting students to learn teamwork skills. Crown Copyright © 2018. Published by Elsevier Ltd. All rights reserved.

Turning Points during the Life of Student Project Teams: A Qualitative Study

ERIC Educational Resources Information Center

Raes, Elisabeth; Kyndt, Eva; Dochy, Filip

2015-01-01

In this qualitative study a more flexible alternative of conceptualising changes over time in teams is tested within student project teams. The conceptualisation uses turning points during the lifespan of a team to outline team development, based on work by Erbert, Mearns, & Dena (2005). Turning points are moments that made a significant…

Mentoring Interdisciplinary Undergraduate Students via a Team Effort

PubMed Central

Karsai, Istvan; Knisley, Jeff; Knisley, Debra; Yampolsky, Lev; Godbole, Anant

2011-01-01

We describe how a team approach that we developed as a mentoring strategy can be used to recruit, advance, and guide students to be more interested in the interdisciplinary field of mathematical biology, and lead to success in undergraduate research in this field. Students are introduced to research in their first semester via lab rotations. Their participation in the research of four faculty members—two from biology and two from mathematics—gives them a first-hand overview of research in quantitative biology and also some initial experience in research itself. However, one of the primary goals of the lab rotation experience is that of developing teams of students and faculty that combine mathematics and statistics with biology and the life sciences, teams that subsequently mentor undergraduate research in genuine interdisciplinary environments. Thus, the team concept serves not only as a means of establishing interdisciplinary research, but also as a means of incorporating new students into existing research efforts that will then track those students into meaningful research of their own. We report how the team concept is used to support undergraduate research in mathematical biology and what types of team-building strategies have worked for us. PMID:21885821

Growing our own: building a native research team.

PubMed

Gray, Jacqueline S; Carter, Paula M

2012-01-01

In 2006, American Indian/Alaska Natives (AI/AN) made up less than 1% of the science, engineering and health doctorates in the U.S. Early introduction of AI/AN students to research and continued opportunities are necessary to develop successful AI/AN researchers who can better serve their communities. This team was developed to form a cohort of American Indian students, staff and faculty interested in research and becoming researchers. Since implementation, the program grew from one student to over 20 AI students ranging from freshmen just entering college to doctoral students working to complete their dissertations. This article highlights the team growth, increasing structure, student needs and the faculty and staff involved. It further addresses the support and educational aspects of growing an ongoing, multidisciplinary research team committed to ethical research in Native communities. The team addresses substance use prevalence, the relationship of substance abuse to other mental health diagnoses, and treatment issues. The team includes weekly team meetings, a Blackboard site on the Internet that is populated with resources and focused on sharing materials and information, a weekly journal club discussion of research articles, and collaborative discussions on each project and the barriers and challenges that need to be addressed to move forward.

Working Together To Become Proficient Readers. Early Impact of the Talent Development Middle School's Student Team Literature Program. Report No. 15.

ERIC Educational Resources Information Center

Mac Iver, Douglas J.; Plank, Stephen B.; Balfanz, Robert

The Talent Development Model of Middle School Reform includes a "Student Team Literature" (STL) program that relies on: (1) curricular materials designed to assist students to study great literature; (2) recommended instructional practices, peer assistance processes, and assessments; and (3) staff development, mentoring, and advising to…

An Empirical Study of Hospitality Management Student Attitudes toward Group Projects: Instructional Factors and Team Problems

ERIC Educational Resources Information Center

Choi, Youngsoo; Ro, Heejung

2012-01-01

The development of positive attitudes in team-based work is important in management education. This study investigates hospitality students' attitudes toward group projects by examining instructional factors and team problems. Specifically, we examine how the students' perceptions of project appropriateness, instructors' support, and evaluation…

The Student Experience in Speed Teaming: A New Approach to Team Formation

ERIC Educational Resources Information Center

Hansen, Randall S.; Hansen, Katharine

2007-01-01

Many benefits accrue for students when they work in teams. Researchers have shown that the learning-by-doing approach of group projects results in active learning and far greater comprehension and retention, higher levels of student achievement, accomplishment of sophisticated learning objectives, the development of critical reasoning skills, and…

The delta cooperative model: a dynamic and innovative team-work activity to develop research skills in microbiology.

PubMed

Rios-Velazquez, Carlos; Robles-Suarez, Reynaldo; Gonzalez-Negron, Alberto J; Baez-Santos, Ivan

2006-05-01

The Delta Cooperative Model (DCM) is a dynamic and innovative teamwork design created to develop fundamentals in research skills. High school students in the DCM belong to the Upward Bound Science and Math (UBSM) program at the Inter American University, Ponce Campus. After workshops on using the scientific method, students were organized into groups of three students with similar research interests. Each student had to take on a role within the group as either a researcher, data analyst, or research editor. Initially, each research team developed hypothesis-driven ideas on their proposed project. In intrateam research meetings, they emphasized team-specific tasks. Next, interteam meetings were held to present ideas and receive critical input. Finally, oral and poster research presentations were conducted at the UBSM science fair. Several team research projects covered topics in medical, environmental, and general microbiology. The three major assessment areas for the workshop and DCM included: (i) student's perception of the workshops' effectiveness in developing skills, content, and values; (ii) research team self- and group participation evaluation, and (iii) oral and poster presentation during the science fair. More than 91% of the students considered the workshops effective in the presentation of scientific method fundamentals. The combination of the workshop and the DCM increased student's knowledge by 55% from pre- to posttests. Two rubrics were designed to assess the oral presentation and poster set-up. The poster and oral presentation scores averaged 83% and 75% respectively. Finally, we present a team assessment instrument that allows the self- and group evaluation of each research team. While the DCM has educational plasticity and versatility, here we document how the this model has been successfully incorporated in training and engaging students in scientific research in microbiology.

Interprofessional Curbside Consults to Develop Team Communication and Improve Student Achievement of Learning Outcomes.

PubMed

Kirwin, Jennifer; Greenwood, Kristin Curry; Rico, Janet; Nalliah, Romesh; DiVall, Margarita

2017-02-25

Objective. To design and implement a series of activities focused on developing interprofessional communication skills and to assess the impact of the activities on students' attitudes and achievement of educational goals. Design. Prior to the first pharmacy practice skills laboratory session, pharmacy students listened to a classroom lecture about team communication and viewed short videos describing the roles, responsibilities, and usual work environments of four types of health care professionals. In each of four subsequent laboratory sessions, students interacted with a different standardized health care professional role-played by a pharmacy faculty member who asked them a medication-related question. Students responded in verbal and written formats. Assessment. Student performance was assessed with a three-part rubric. The impact of the exercise was assessed by conducting pre- and post-intervention surveys and analyzing students' performance on relevant Center for the Advancement of Pharmacy Education (CAPE) outcomes. Survey results showed improvement in student attitudes related to team-delivered care. Students' performance on the problem solver and collaborator CAPE outcomes improved, while performance on the educator outcome worsened. Conclusions. The addition of an interprofessional communication activity with standardized health care professionals provided the opportunity for students to develop skills related to team communication. Students felt the activity was valuable and realistic; however, analysis of outcome achievement from the exercise revealed a need for more exposure to team communication skills.

Clinical Immersion: An Approach for Fostering Cross-disciplinary Communication and Innovation in Nursing and Engineering Students.

PubMed

Geist, Melissa J; Sanders, Robby; Harris, Kevin; Arce-Trigatti, Andrea; Hitchcock-Cass, Cary

2018-05-24

A faculty team from nursing and chemical engineering developed a course that brought together students from each discipline for cross-disciplinary, team-based clinical immersion and collaboration. Health care processes and devices are rapidly changing, and nurses are uniquely positioned to be bedside innovators to improve patient care delivery. During each clinical immersion, the student teams rotated through various hospital units where they identified problems and worked together in the university's makerspace (iMaker Space) to design and build prototypes to improve health outcomes. Data from the Critical thinking Assessment Test provided evidence of gains in critical-thinking and problem-solving skills, while the problems identified in the clinical setting and prototypes developed demonstrated the impact of bringing nursing and engineering students together to design innovations. When challenged to identify authentic problems during their clinical immersion, the teams of nursing and engineering students proposed creative solutions and developed commercially viable prototypes.

A systematic approach for introducing innovative product design in courses with engineering and nonengineering students.

PubMed

Patterson, P E

2007-01-01

In our new global economy, biomedical product development teams need to be even more innovative in an environment constrained by fewer resources with less time from concept to market. Teams are often comprised of individuals spread around the world. To simulate this setting, we revised an existing course to incorporate teams of on-campus and distance students, with each team including both engineers and other specialties. Through interactive lectures and projects, we presented a systematic approach to innovation that should be useful to engineers and non-engineers alike. Students found the course challenging and exciting, displaying an improved ability to work in distributed teams and in developing innovative design solutions.

Team-Based Development of Medical Devices: An Engineering–Business Collaborative

PubMed Central

Eberhardt, Alan W.; Johnson, Ophelia L.; Kirkland, William B.; Dobbs, Joel H.; Moradi, Lee G.

2016-01-01

There is a global shift in the teaching methodology of science and engineering toward multidisciplinary, team-based processes. To meet the demands of an evolving technical industry and lead the way in engineering education, innovative curricula are essential. This paper describes the development of multidisciplinary, team-based learning environments in undergraduate and graduate engineering curricula focused on medical device design. In these programs, students actively collaborate with clinicians, professional engineers, business professionals, and their peers to develop innovative solutions to real-world problems. In the undergraduate senior capstone courses, teams of biomedical engineering (BME) and business students have produced and delivered numerous functional prototypes to satisfied clients. Pursuit of commercialization of devices has led to intellectual property (IP) disclosures and patents. Assessments have indicated high levels of success in attainment of student learning outcomes and student satisfaction with their undergraduate design experience. To advance these projects toward commercialization and further promote innovative team-based learning, a Master of Engineering (MEng) in Design and Commercialization was recently launched. The MEng facilitates teams of graduate students in engineering, life sciences, and business who engage in innovation-commercialization (IC) projects and coursework that take innovative ideas through research and development (R&D) to create marketable devices. The activities are structured with students working together as a “virtual company,” with targeted outcomes of commercialization (license agreements and new start-ups), competitive job placement, and/or career advancement. PMID:26902869

Team-Based Development of Medical Devices: An Engineering-Business Collaborative.

PubMed

Eberhardt, Alan W; Johnson, Ophelia L; Kirkland, William B; Dobbs, Joel H; Moradi, Lee G

2016-07-01

There is a global shift in the teaching methodology of science and engineering toward multidisciplinary, team-based processes. To meet the demands of an evolving technical industry and lead the way in engineering education, innovative curricula are essential. This paper describes the development of multidisciplinary, team-based learning environments in undergraduate and graduate engineering curricula focused on medical device design. In these programs, students actively collaborate with clinicians, professional engineers, business professionals, and their peers to develop innovative solutions to real-world problems. In the undergraduate senior capstone courses, teams of biomedical engineering (BME) and business students have produced and delivered numerous functional prototypes to satisfied clients. Pursuit of commercialization of devices has led to intellectual property (IP) disclosures and patents. Assessments have indicated high levels of success in attainment of student learning outcomes and student satisfaction with their undergraduate design experience. To advance these projects toward commercialization and further promote innovative team-based learning, a Master of Engineering (MEng) in Design and Commercialization was recently launched. The MEng facilitates teams of graduate students in engineering, life sciences, and business who engage in innovation-commercialization (IC) projects and coursework that take innovative ideas through research and development (R&D) to create marketable devices. The activities are structured with students working together as a "virtual company," with targeted outcomes of commercialization (license agreements and new start-ups), competitive job placement, and/or career advancement.

Improving Bioengineering Student Leadership Identity Via Training and Practice within the Core-Course.

PubMed

Rosch, David M; Imoukhuede, P I

2016-12-01

The development of a leadership identity has become significant in bioengineering education as a result of an increasing emphasis on teamwork within the profession and corresponding shifts in accreditation criteria. Unsurprisingly, placing bioengineering students in teams to complete classroom-based projects has become a dominant pedagogical tool. However, recent research indicates that engineering students may not develop a leadership identity, much less increased leadership capacity, as a result of such efforts. Within this study, we assessed two similar sections of an introductory course in bioengineering; each placed students in teams, while one also included leadership training and leadership practice. Results suggest that students in the leadership intervention section developed a strong self-image of themselves as leaders compared to students in the control section. These data suggest that creating mechanisms for bioengineering students to be trained in leadership and to practice leadership behaviors within a classroom team may be keys for unlocking leadership development.

Forecasting Periodic Trends: A Semester-Long Team Exercise for Nonscience Majors

ERIC Educational Resources Information Center

Tierney, John

2008-01-01

Team learning is an effective means of teaching that can contribute toward increased student interest. This article describes a team learning exercise developed for a course for nonscience majors. Students are randomly assigned numbers (atomic numbers) the first day of class. Each student builds a portfolio of information for their element. In the…

Cross-Cultural Team Effectiveness for MBA Students Studying in an Immersion Program

ERIC Educational Resources Information Center

Ogden-Barnes, Stephen; Menzies, Jane L.

2016-01-01

We focus on cross-cultural team effectiveness for MBA students involved in an immersion program, examining the development of knowledge about cultural traits, the challenges associated with teamwork, and factors that promote or hinder team performance, based on qualitative results of a survey of 20 students who participated in the program. Key…

Self and Others in Team-Based Learning: Acquiring Teamwork Skills for Business

ERIC Educational Resources Information Center

Betta, Michela

2016-01-01

Team-based learning (TBL) was applied within a third-year unit of study about ethics and management with the aim of enhancing students' teamwork skills. A survey used to collect students' opinions about their experience with TBL provided insights about how TBL helped students to develop an appreciation for teamwork and team collaboration. The team…

Industry-Supported Team Students' Projects.

ERIC Educational Resources Information Center

Glozman, Vladimir

The industry-supported team students' project enhances professional, intellectual, and personal development of students while addressing the needs of local industry. In addition to achieving academic excellence, the students are exposed to industry requirements, and excel in effective oral communication and cooperative teamwork. The teamwork…

Teaching Engineering Students Team Work

NASA Technical Reports Server (NTRS)

Levi, Daniel

1998-01-01

The purpose of this manual is to provide professor's in engineering classes which the background necessary to use student team projects effectively. This manual describes some of the characteristics of student teams and how to use them in class. It provides a set of class activities and films which can be used to introduce and support student teams. Finally, a set of teaching modules used in freshmen, sophomore, and senior aeronautical engineering classes are presented. This manual was developed as part of a NASA sponsored project to improve the undergraduate education of aeronautical engineers. The project has helped to purchase a set of team work films which can be checked out from Cal Poly's Learning Resources Center in the Kennedy Library. Research for this project has included literature reviews on team work and cooperative learning; interviews, observations, and surveys of Cal Poly students from Industrial and Manufacturing Engineering, Aeronautical Engineering and Psychology; participation in the Aeronautical Engineering senior design lab; and interviews with engineering faculty. In addition to this faculty manual, there is a student team work manual which has been designed to help engineering students work better in teams.

Developing Collaboration Skills in Team Undergraduate Research Experiences

ERIC Educational Resources Information Center

Sturner, Kelly K.; Bishop, Pamela; Lenhart, Suzanne M.

2017-01-01

Interdisciplinary undergraduate research experiences often require students to work in teams with other students and researchers from different disciplines, creating a need for development of new skills in interdisciplinary collaboration. In this paper, we describe our unique efforts to mentor participants in developing these skills during our…

An Introductory Interprofessional Exercise for Healthcare Students

PubMed Central

Rege, Saumitra V.; Misto, Kara; Dollase, Richard; George, Paul

2012-01-01

Objective. To evaluate healthcare students’ perceptions of an introductory interprofessional exercise and their team dynamics. Design. A workshop was developed, combining second-year medical students, fourth-year nursing students, and third-year pharmacy students to work as an interdisciplinary team. The teams alternated between working together on patient cases focusing on chronic obstructive pulmonary disease and asthma, and on the evaluation of standardized pneumonia patients. Teams were given the patients' health information and no other instructions. A faculty member and the standardized patient evaluated the students using a teamwork global rating scale. Assessment. Student survey results showed a positive response to interprofessional teamwork. The faculty members and standardized patients reported that the students worked as a cohesive unit and demonstrated good team communication. Conclusions. This introductory interprofessional experience had a positive impact on the students’ understanding of collaboration and teamwork. This type of experience will help students foster future collaborations as healthcare providers. PMID:23129853

Enhancing Students' Speaking Skills through Peer Team Teaching: A Student Centered Approach

ERIC Educational Resources Information Center

Vani, V. Vijaya

2016-01-01

The present paper attempts to establish that peer team teaching of a prescribed English lesson of 1st year B.Tech course by the students will provide more opportunities to enhance their public speaking skills. This kind of classroom activity will also help them to develop their vocabulary, reading skills, team working skills, etc. It is assumed…

DEVELOP students give presentation at Headquarters

NASA Image and Video Library

2008-08-07

DEVELOP students from Stennis Space Center traveled to NASA's Headquarters in Washington, D.C., to make a presentation on Gulf Coast disaster management. The team included Madeline Brozen (left) and Lauren Childs. They were joined by team member Matthew Batina (not pictured).

A collaborative approach to team building between staff and students in long-term care.

PubMed

Freiburger, O A

1996-01-01

Nursing staff and student interactions were not facilitating a system of care that reflected a team effort. Nursing staff and students were involved in efforts to resolve issues that influenced their professional relationships through use of a problem-solving approach. Team-building strategies were implemented, relationships improved, and collaboration increased between nursing staff members and students. Results of this project have implications for the socialization of nursing students and the development of professional relationships in clinical settings.

National Science Bowl | NREL

Science.gov Websites

and high school student teams on science and math topics. The National Science Bowl provides an opportunity for students to develop science, technology, engineering, and math (STEM) skills in a non tournament challenges students' knowledge of science. Student teams are questioned on life science, math

"The era of single disease cowboys is out": evaluating the experiences of students, faculty, and collaborators in an interdisciplinary global health training program.

PubMed

Kalbarczyk, Anna; Martin, Nina A; Combs, Emily; Ward, Marie; Winch, Peter J

2018-03-01

Global Health is an inherently interdisciplinary field but overseas training in global health, particularly among health science institutions, has been an 'individual' or 'individual discipline' experience. Team-based training is an approach to global health education which is increasing in popularity; research on team-training demonstrates that teams are more productive than individuals. In 2015, the Johns Hopkins Center for Global Health (CGH) developed the Global Established Multidisciplinary Sites (GEMS) program, an interdisciplinary training program which was designed to establish a new norm in global health training by bringing interdisciplinary teams of faculty and students together to identify and solve complex global health challenges. This research aims to evaluate the program's first year and contribute to the literature on interdisciplinary team training. We conducted 22 in-depth interviews with students, faculty, and local collaborators from 3 GEMS project sites. Findings were analyzed for themes through a framework approach. The program exposed students, faculty, and collaborators to a wide range of disciplines in global health. Students' desire to learn how other disciplines contribute to global health solutions was an important motivator for joining GEMS; many participants including faculty and collaborators valued exposure to multiple disciplines. Mentorship and communication were a challenge across all teams in part due to members having distinct "disciplinary languages". Balancing disciplinary representation on teams and establishing work plans were also key challenges. Based on the data the CGH provides four recommendations for institutions developing global health interdisciplinary teams to optimize team functioning and address challenges in mentorship, language, and roles: 1) address interdisciplinary communication early, 2) develop work plans during group formation, 3) meet as a team prior to travel, and 4) establish regular check ins. This article provides first-hand reflections on interdisciplinary team experiences in a global context and provides a pathway for the development of innovative strategies in global health training.

Teaching Psychometrics in South Korea through a Reunification Attitude Scale Class Project.

ERIC Educational Resources Information Center

Webster, Sandra K.

The introduction of a team term project into a Korean psychometrics class is described. Students developed an item pool of attitude statements regarding the reunification of South Korea and North Korea. Then teams of students used the item pool to develop attitude questionnaires, survey other students, analyze the results, and recommend which…

Observing Engineering Student Teams from the Organization Behavior Perspective Using Linguistic Analysis of Student Reflections and Focus Group Interviews

ERIC Educational Resources Information Center

Kearney, Kerri S.; Damron, Rebecca; Sohoni, Sohum

2015-01-01

This paper investigates group/team development in computer engineering courses at a University in the Central USA from the perspective of organization behavior theory, specifically Tuckman's model of the stages of group development. The investigation, conducted through linguistic analysis of student reflection essays, and through focus group…

Team Building Patterns of Academic Groups.

ERIC Educational Resources Information Center

Kormanski, Chuck

1990-01-01

Used group development stage theory to investigate team development patterns in an academic setting. Twenty-nine teams of undergraduate college students enrolled in a study skills improvement course met weekly for five weeks and completed the Team Development Rating Scale at the conclusion of the meeting. Found some support for three patterns of…

Development of an Interdisciplinary Dysphagia Team in the Public Schools.

ERIC Educational Resources Information Center

Homer, Emily M.; Bickerton, Cheryl; Hill, Sherry; Parham, Lisa; Taylor, Darlene

2000-01-01

This article describes the development of a school-based dysphagia team (swallowing action team (SWAT)) in Louisiana. It addresses how the team was initially formed, the process of identifying students who were exhibiting a swallowing disorder, steps taken for staff development, and problems encountered in seeking administrative approval.…

Interprofessional Curbside Consults to Develop Team Communication and Improve Student Achievement of Learning Outcomes

PubMed Central

Greenwood, Kristin Curry; Rico, Janet; Nalliah, Romesh; DiVall, Margarita

2017-01-01

Objective. To design and implement a series of activities focused on developing interprofessional communication skills and to assess the impact of the activities on students’ attitudes and achievement of educational goals. Design. Prior to the first pharmacy practice skills laboratory session, pharmacy students listened to a classroom lecture about team communication and viewed short videos describing the roles, responsibilities, and usual work environments of four types of health care professionals. In each of four subsequent laboratory sessions, students interacted with a different standardized health care professional role-played by a pharmacy faculty member who asked them a medication-related question. Students responded in verbal and written formats. Assessment. Student performance was assessed with a three-part rubric. The impact of the exercise was assessed by conducting pre- and post-intervention surveys and analyzing students’ performance on relevant Center for the Advancement of Pharmacy Education (CAPE) outcomes. Survey results showed improvement in student attitudes related to team-delivered care. Students’ performance on the problem solver and collaborator CAPE outcomes improved, while performance on the educator outcome worsened. Conclusions. The addition of an interprofessional communication activity with standardized health care professionals provided the opportunity for students to develop skills related to team communication. Students felt the activity was valuable and realistic; however, analysis of outcome achievement from the exercise revealed a need for more exposure to team communication skills. PMID:28289305

Professional and pre-professional pharmacy students' perceptions of team based learning (TBL) at a private research-intensive university.

PubMed

Miller, Danielle M; Khalil, Karen; Iskaros, Olivia; Van Amburgh, Jenny A

2017-07-01

Pharmacy students need to develop critical thinking and problem-solving skills as well as be a valuable team member. The use of team based learning (TBL) fosters effective team collaboration, enables continuous active and self-directed learning, and requires both individual and team accountability. The purpose was to evaluate pharmacy students' perceptions and experiences related to TBL in different years of the pharmacy curriculum. Two classes, Introduction to the Profession of Pharmacy (intro), a required course, and Self-Care/Non-Prescription Medications (self-care), an elective course, utilize the TBL approach. Students enrolled in both courses were recruited to complete a validated questionnaire during the last class. There was 100% participation; the majority of students, regardless of course, expressed positive attitudes towards TBL. Variations, relevance of TBL activities and the use of TBL as a learning strategy, between the required intro class and the elective self-care class were observed using a Mann-Whitney U test (p<0.05). Both cohorts of pharmacy students positively rated the TBL sessions in terms of learning effectiveness. It's important to consider the differences in professional development in these students and how this may impact their perceptions of TBL. TBL imparts more responsibility and accountability on the individual student allowing for the development of self-directed learners. Students, regardless of their year, found TBL to be an effective learning strategy. Third professional year (P3) pharmacy students further along in the curriculum are more accepting of TBL and are better able to appreciate the benefits of active and self-directed learning as well as working within a team. Copyright © 2017 Elsevier Inc. All rights reserved.

Hamline/3M Project: Liaison for Curricular Change

NASA Astrophysics Data System (ADS)

Rundquist, Andy

2002-03-01

This project was designed to catalyze curricular changes to better prepare students for the workplace. Industrial managers provided a list of 16 characteristics valued in the workplace: most were NOT related to science course content. The project formed 5 teams each including 3M professionals and students. Each team developed curricular changes in one of the 16 areas. Team goals were to improve skills in communication, data analysis, business/economics, team problem solving, and culture competency. Curricular changes realized include communication skill activities embodied in science courses and faculty communication teaching skill seminars, self learning tools in data analysis, statistics and model building, a new course developed with assistance from 3M personnel focussing on topics directly related to technological industries, high performance team problem solving training/coaching for faculty and workshops for students and faculty relative to importance of cultural competencies in the workplace, and a new course focusing on culture, team problem solving and conflict resolution in the technical workplace. Process for developing and content of curricular changes will be reported.

Safety Teams: An Approach to Engage Students in Laboratory Safety

ERIC Educational Resources Information Center

Alaimo, Peter J.; Langenhan, Joseph M.; Tanner, Martha J.; Ferrenberg, Scott M.

2010-01-01

We developed and implemented a yearlong safety program into our organic chemistry lab courses that aims to enhance student attitudes toward safety and to ensure students learn to recognize, demonstrate, and assess safe laboratory practices. This active, collaborative program involves the use of student "safety teams" and includes…

Design, Development and Evaluation of Collaborative Team Training Method in Virtual Worlds for Time-Critical Medical Procedures

ERIC Educational Resources Information Center

Khanal, Prabal

2014-01-01

Medical students acquire and enhance their clinical skills using various available techniques and resources. As the health care profession has move towards team-based practice, students and trainees need to practice team-based procedures that involve timely management of clinical tasks and adequate communication with other members of the team.…

The Application of Six Sigma Methodologies to University Processes: The Use of Student Teams

ERIC Educational Resources Information Center

Pryor, Mildred Golden; Alexander, Christine; Taneja, Sonia; Tirumalasetty, Sowmya; Chadalavada, Deepthi

2012-01-01

The first student Six Sigma team (activated under a QEP Process Sub-team) evaluated the course and curriculum approval process. The goal was to streamline the process and thereby shorten process cycle time and reduce confusion about how the process works. Members of this team developed flowcharts on how the process is supposed to work (by…

Team-Building Tools for Students.

ERIC Educational Resources Information Center

Page, Diana; Donelan, Joseph G.

2003-01-01

Explains why college students need teamwork skills. Discusses how instructors can help develop those skills and design projects to improve them. Provides an action plan and team-building tools. (Author/SK)

Developing International Managerial Skills through the Cross-Cultural Assignment: Experiential Learning by Matching U.S.-Based and International Students

ERIC Educational Resources Information Center

Neiva de Figueiredo, Joao; Mauri, Alfredo J.

2013-01-01

This article describes the "Cross-Cultural Assignment," an experiential learning technique for students of business that deepens self-awareness of their own attitudes toward different cultures and develops international managerial skills. The technique consists of pairing up small teams of U.S.-based business students with small teams of…

Student Team Projects in Information Systems Development: Measuring Collective Creative Efficacy

ERIC Educational Resources Information Center

Cheng, Hsiu-Hua; Yang, Heng-Li

2011-01-01

For information systems development project student teams, learning how to improve software development processes is an important training. Software process improvement is an outcome of a number of creative behaviours. Social cognitive theory states that the efficacy of judgment influences behaviours. This study explores the impact of three types…

Engaging with Faculty to Develop, Implement, and Pilot Electronic Performance Assessments of Student Teachers Using Mobile Devices

ERIC Educational Resources Information Center

Haughton, Noela A.; Keil, Virginia L.

2009-01-01

This article discusses the development and implementation of a technology-supported student teacher performance assessment that supports integration with a larger electronic assessment system. The authors spearheaded a multidisciplinary team to develop a comprehensive performance assessment based on the Pathwise framework. The team collaborated…

The development of a rubric for peer assessment of individual teamwork skills in undergraduate midwifery students.

PubMed

Hastie, Carolyn; Fahy, Kathleen; Parratt, Jenny

2014-09-01

Poor teamwork is cited as one of the major root causes of adverse events in healthcare. Bullying, resulting in illness for staff, is an expression of poor teamwork skills. Despite this knowledge, poor teamwork persists in healthcare and teamwork skills are rarely the focus of teaching and assessment in undergraduate health courses. To develop and implement an assessment tool for use in facilitating midwifery students' learning of teamwork skills. This paper describes how the TeamUP rubric tool was developed. A review of the literature found no research reports on how to teach and assess health students' teamwork skills in standing teams. The literature, however, gives guidance about how university educators should evaluate individual students using peer assessment. The developmental processes of the rubric were grounded in the theoretical literature and feminist collaborative conversations. The rubric incorporates five domains of teamwork skills: Fostering a Team Climate; Project Planning; Facilitating Teams; Managing Conflict and Quality Individual Contribution. The process and outcomes of student and academic content validation are described. The TeamUP rubric is useful for articulating, teaching and assessing teamwork skills for health professional students. The TeamUP rubric is a robust, theoretically grounded model that defines and details effective teamwork skills and related behaviours. If these skills are mastered, we predict that graduates will be more effective in teams. Our assumption is that graduates, empowered by having these skills, are more likely to manage conflict effectively and less likely to engage in bullying behaviours. Crown Copyright © 2014. Published by Elsevier Ltd. All rights reserved.

Performance of student software development teams: the influence of personality and identifying as team members

NASA Astrophysics Data System (ADS)

Monaghan, Conal; Bizumic, Boris; Reynolds, Katherine; Smithson, Michael; Johns-Boast, Lynette; van Rooy, Dirk

2015-01-01

One prominent approach in the exploration of the variations in project team performance has been to study two components of the aggregate personalities of the team members: conscientiousness and agreeableness. A second line of research, known as self-categorisation theory, argues that identifying as team members and the team's performance norms should substantially influence the team's performance. This paper explores the influence of both these perspectives in university software engineering project teams. Eighty students worked to complete a piece of software in small project teams during 2007 or 2008. To reduce limitations in statistical analysis, Monte Carlo simulation techniques were employed to extrapolate from the results of the original sample to a larger simulated sample (2043 cases, within 319 teams). The results emphasise the importance of taking into account personality (particularly conscientiousness), and both team identification and the team's norm of performance, in order to cultivate higher levels of performance in student software engineering project teams.

uCollaborator: Framework for STEM Project Collaboration among Geographically-Dispersed Student/Faculty Teams

ERIC Educational Resources Information Center

Fiore, Stephen M.; Rodriguez, Walter E.; Carstens, Deborah S.

2012-01-01

This paper presents a framework for facilitating communication among STEM project teams that are geographically dispersed in synchronous or asynchronous online courses. The framework has been developed to: (a) improve how engineering and technology students and faculty work with collocated and geographically-dispersed teams; and (b) to connect the…

The Bicycle Assembly Line Game

ERIC Educational Resources Information Center

Klotz, Dorothy

2011-01-01

"The Bicycle Assembly Line Game" is a team-based, in-class activity that helps students develop a basic understanding of continuously operating processes. Each team of 7-10 students selects one of seven prefigured bicycle assembly lines to operate. The lines are run in real-time, and the team that operates the line that yields the…

Determinants of Student Attitudes toward Team Exams

ERIC Educational Resources Information Center

Reinig, Bruce A.; Horowitz, Ira; Whittenburg, Gene

2014-01-01

We examine how student attitudes toward their group, learning method, and perceived development of professional skills are initially shaped and subsequently evolve through multiple uses of team exams. Using a Tobit regression model to analyse a sequence of 10 team quizzes given in a graduate-level tax accounting course, we show that there is an…

Role-Playing and Problem-Based Learning: The Use of Cross-Functional Student Teams in Business Application Development

ERIC Educational Resources Information Center

Pike, Jacqueline C.; Spangler, William; Williams, Valerie; Kollar, Robert

2017-01-01

To create a learning experience which replicates the process by which consultants, systems developers and business end users collaborate to design and implement a business application, a cross-functional student team project was developed and is described. The overall learning experience was distinguished by specific components and characteristics…

Cooperative Learning through Team-Based Projects in the Biotechnology Industry.

PubMed

Luginbuhl, Sarah C; Hamilton, Paul T

2013-01-01

We have developed a cooperative-learning, case studies project model that has teams of students working with biotechnology professionals on company-specific problems. These semester-long, team-based projects can be used effectively to provide students with valuable skills in an industry environment and experience addressing real issues faced by biotechnology companies. Using peer-evaluations, we have seen improvement in students' professional skills such as time-management, quality of work, and level of contribution over multiple semesters. This model of team-based, industry-sponsored projects could be implemented in other college and university courses/programs to promote professional skills and expose students to an industry setting.

Progress update on a 2015 USIP interdisciplinary undergraduate student microgravity experiment

NASA Astrophysics Data System (ADS)

Dove, A.; Colwell, J. E.; Brisset, J.; Kirstein, J.; Brightwell, K.; Hayden, R.; Jorges, J.; Schwartzberg, D.; Strange, J.; Yates, A.

2016-12-01

Our team was selected by the 2016 USIP program to build, fly, and analyze the results from a granular dynamics experiment that will fly in 2017 on a suborbital flight. The experiment will be designed to test technology and enable science relevant to low-gravity planetary objects, such as asteroids, comets, and small moons. Following on the success of previous NASA Flight Opportunities Program (FOP) and Undergraduate Student Instrumentation Project (USIP) projects, however, the primary driver of the project is to enable undergraduate student participation in the entire lifetime of a science and technology development project. Our mentoring team consists of faculty, postdoctoral researchers, and graduate students, who have experience with the past USIP program and similar projects, as well as with mentoring undergraduate students. The undergraduate team includes a diversity of major disciplines, including physics, mechanical/aerospace engineering, electrical engineering, business (accounting), and marketing. Each team member has specific project tasks, as outlined in the proposal, and all members will also help develop and participate in outreach events. In additional to their project roles, students will also be responsible for presentations and milestones, such as design reviews. Through these reviews and the outreach events, all team members have the chance to develop their technical and non-technical communication skills. Previous experience with the NASA USIP program demonstrated that students achieve significant growth through these projects -gaining a better understanding of the entire lifecycle of a project, and, likely more importantly, how to work with a diverse team. In this talk, we will discuss the status of the project, and present student impressions and thoughts on the project thus far.

Team-Based Multidisciplinary Research Scholarship in the Geosciences

NASA Astrophysics Data System (ADS)

Wernette, P. A.; Houser, C.; Quick, C.

2016-12-01

The traditional approach to undergraduate research can be time-intensive for both the mentee and mentor, and can deter potential undergraduates and faculty from participating in research. The Aggie Research Leadership (ARL) and Aggie Research Scholars (ARS) programs represent a team-based, vertically-tiered, and multidisciplinary approach to research that can successfully address complex and relevant research questions. The program is structured such that faculty mentor one or more graduate students or postdocs, who, in turn, mentor teams of 2 to 8 undergraduate students. While it is the responsibility of the graduate student or postdoc to put together a team that works for their research question, undergraduate teams are encouraged to be multidisciplinary in order to leverage the experience and perspective that comes from students in different areas of study. Team leaders are encouraged to discuss their research teams with the faculty mentor regularly to address any potential issues that they might be having, but team leaders are required to meet regularly with other team leaders to discuss any issues that they might be having. Meeting with new and experienced team leaders is a valuable approach to a graduate student or postdoc developing their own set of best practices for mentoring. This experience is invaluable in their future careers, regardless of the field of study. By collaborating with students from other fields of study, no one student is required to become an expert in all topics relating to the research. Another significant advantage of the ARL/ARS programs is that complex research questions are able to be examined because teams typically continue longer than a single semester or academic year. Research teams are vertically-tiered and typically include freshman through seniors. In this way, younger students on the projects are mentored by senior students when they first arrive. Eventually, the younger students will advance through to senior students and will have the opportunity to serve as mentors for incoming students. The vertically-tiered ARl/ARS programs represents a significant advantage in undergraduate research that is beneficial to undergraduate students, graduate students, post-docs, and faculty.

Hamline/3M Corp. Project: Liason for Curricular Change*

NASA Astrophysics Data System (ADS)

Artz, Jerry L.

2002-04-01

This project was designed to catalyze curricular changes to better prepare students for the workplace. Industrial managers provided a list of 16 characteristics valued in the workplace; most were NOT related to science course content. The project formed 5 teams each including 3M professionals and students. Each team developed curricular changes in one of the 16 areas. Team goals were to improve skills in communication, data analysis, business/economics, team problem solving, and cultural competency. Curricular changes realized include communication skill activities embodied in science courses and faculty communication teaching skill seminars; self learning tools in data analysis, statistics and model building; a new course developed with assistance from 3M personnel focusing on topics directly related to technological industries; high performance team problem solving training/coaching for faculty; workshops for students and faculty relative to importance of cultural competencies in the workplace; and a new course focusing on culture, team problem solving and conflict resolution in the technical workplace. Process for developing and content of curricular changes will be reported. *Thanks to: NSF GOALI CHE-99010782

Supporting Source Integration in Student Writing

ERIC Educational Resources Information Center

Refaei, Brenda; Kumar, Rita; Wahman, M. Lauren; Peplow, Amber Burkett

2017-01-01

A cross-disciplinary team of composition, communication, and library faculty used lesson study to investigate interdisciplinary instructional strategies to improve students' use of quoting in their writing. The team developed a three-class lesson plan to introduce the concept of quoting, practice the concept, and allow students to reflect on their…

ATLAS: A Community Policing Response to Adverse Student Athlete Behavior

ERIC Educational Resources Information Center

Williams, Robert

2011-01-01

The University at Albany Police and the University at Albany Athletics Department have teamed together to implement a ground breaking program aimed at identifying, addressing and managing negative behavior among student athletes. ATLAS stands for: Athletics, Team Building, Leadership Development, And Mentoring for Student Athletes. The program was…

Nourishing STEM Student Success via a TEAM-Based Advisement Model

ERIC Educational Resources Information Center

Polnarieve, Barnard A.; Jaafar, Reem; Hendrix, Tonya; Morgan, Holly Porter; Khethavath, Praveen; Idrissi, Abderrazak Belkharraz

2017-01-01

LaGuardia Community College is an international leader recognized for developing and successfully implementing initiatives and educating underserved diverse students. LaGuardia's STEM students are holistically advised by a team of dedicated faculty and staff members from different departments and divisions. As an innovative approach to advisement,…

Faculty Groups: From Frustration to Collaboration

ERIC Educational Resources Information Center

Wheelan, Susan A.

2004-01-01

To develop high-performance teams and improve student learning and achievement educators are making changes in the way they interact with colleagues. Educators are participating in various school teams-grade level teams, vertical teams, school leadership teams, study groups, and school improvement teams. This book translates what social scientists…

Teaching practical leadership in MIT satellite development class: CASTOR and Exoplanet projects

NASA Astrophysics Data System (ADS)

Babuscia, Alessandra; Craig, Jennifer L.; Connor, Jane A.

2012-08-01

For more than a decade, the Aeronautics and Astronautics Department at MIT has offered undergraduate students the opportunity of conceiving, developing, implementing and operating new spacecraft's missions. During a three term class, junior and senior students experience all the challenges of a true engineering team project: design, analysis, testing, technical documentation development, team management, and leadership. Leadership instruction is an important part of the curricula; through the development of leadership skills, students learn to manage themselves and each other in a more effective way, increasing the overall productivity of the team. Also, a strong leadership education is a key factor in improving the abilities of future engineers to be effective team members and leaders in the companies and agencies in which they will work. However, too often leadership instruction is presented in an abstract way, which does not provide students with suggestions for immediate applicability. As a consequence, students underestimate the potential that leadership education can have on the development of their projects. To counteract that effect, a new approach for teaching "practical" leadership has been developed. This approach is composed of a set of activities developed to improve students' leadership skills in the context of a project. Specifically, this approach has been implemented in the MIT satellite development class. In that class, students experienced the challenges of building two satellites: CASTOR and Exoplanet. These two missions are real space projects which will be launched in the next two years, and which involve cooperation with different entities (MIT, NASA, and Draper). Hence, the MIT faculty was interested in developing leadership activities to improve the productivity of the teams in a short time. In fact, one of the key aspects of the approach proposed is that it can be quickly implemented in a single semester, requiring no more than 4 h of activity. Data collected show that the approach improved the ability of students to interact productively with each other. This suggests that the activity can also be used in different contexts where a rapid and effective way of improving leadership and team membership is required. The article presents an overview of MIT satellite development class and of the two missions used as test cases, a detailed description of the leadership approach implemented, and of the results obtained.

Learning cell biology as a team: a project-based approach to upper-division cell biology.

PubMed

Wright, Robin; Boggs, James

2002-01-01

To help students develop successful strategies for learning how to learn and communicate complex information in cell biology, we developed a quarter-long cell biology class based on team projects. Each team researches a particular human disease and presents information about the cellular structure or process affected by the disease, the cellular and molecular biology of the disease, and recent research focused on understanding the cellular mechanisms of the disease process. To support effective teamwork and to help students develop collaboration skills useful for their future careers, we provide training in working in small groups. A final poster presentation, held in a public forum, summarizes what students have learned throughout the quarter. Although student satisfaction with the course is similar to that of standard lecture-based classes, a project-based class offers unique benefits to both the student and the instructor.

How to Collaborate through Teams

ERIC Educational Resources Information Center

Conderman, Greg

2016-01-01

Teachers are spending more of their time and making more decisions within teams. Effective teacher-based teams provide academic and behavioral support for students as well as professional development for teachers. Learn how the best teams function.

Improving Virtual Team Collaboration Outcomes through Collaboration Process Structuring

ERIC Educational Resources Information Center

Dittman, Dawn R.; Hawkes, Mark; Deokar, Amit V.; Sarnikar, Surendra

2010-01-01

The ability to collaborate in a virtual team is a necessary skill set for today's knowledge workers and students to be effective in their work. Past research indicates that knowledge workers and students need to establish a formal process to perform work, develop clear goals and objectives, and facilitate better communication among team members.…

Comparing student clinical self-efficacy and team process outcomes for a DEU, blended, and traditional clinical setting: A quasi-experimental research study.

PubMed

Plemmons, Christina; Clark, Michele; Feng, Du

2018-03-01

Clinical education is vital to both the development of clinical self-efficacy and the integration of future nurses into health care teams. The dedicated education unit clinical teaching model is an innovative clinical partnership, which promotes skill development, professional growth, clinical self-efficacy, and integration as a team member. Blended clinical teaching models are combining features of the dedicated education unit and traditional clinical model. The aims of this study are to explore how each of three clinical teaching models (dedicated education unit, blended, traditional) affects clinical self-efficacy and attitude toward team process, and to compare the dedicated education unit model and blended model to traditional clinical. A nonequivalent control-group quasi-experimental design was utilized. The convenience sample of 272 entry-level baccalaureate nursing students included 84 students participating in a dedicated education unit model treatment group, 66 students participating in a blended model treatment group, and 122 students participating in a traditional model control group. Perceived clinical self-efficacy was evaluated by the pretest/posttest scores obtained on the General Self-Efficacy scale. Attitude toward team process was evaluated by the pretest/posttest scores obtained on the TeamSTEPPS® Teamwork Attitude Questionnaire. All three clinical teaching models resulted in significant increases in both clinical self-efficacy (p=0.04) and attitude toward team process (p=0.003). Students participating in the dedicated education unit model (p=0.016) and students participating in the blended model (p<0.001) had significantly larger increases in clinical self-efficacy compared to students participating in the traditional model. These findings support the use of dedicated education unit and blended clinical partnerships as effective alternatives to the traditional model to promote both clinical self-efficacy and team process among entry-level baccalaureate nursing students. Copyright © 2017 Elsevier Ltd. All rights reserved.

Leadership Development of Team Captains in Collegiate Varsity Athletics

ERIC Educational Resources Information Center

Grandzol, Christian; Perlis, Susan; Draina, Lois

2010-01-01

This study examined the leadership development of team captains and student-athletes engaged in NCAA Division III intercollegiate athletics at 6 private institutions of higher education. Student-athletes in the sports of men's and women's soccer, women's field hockey, men's and women's cross country, and women's tennis completed the 2nd edition of…

Swarmathon 2017

NASA Image and Video Library

2017-04-20

In the second annual Swarmathon competition at NASA's Kennedy Space Center in Florida, students were asked to develop computer code for the small robots called "Swarmies." The students programmed the robots to look for "resources" in the form of cubes with AprilTags, similar to barcodes. A team from Southwestern Indian Polytechnic Institute (SIPI) in Albuquerque, New Mexico, captured first place and a $5,000 cash prize. SIPI team members, from the left, are: students Emery Sutherland, Ty Shurley, Christian Martinez, SIPI engineering professor Dr. Nader Vadiee who was the team's faculty advisor, and student Schulte Cooke.

TEAMS. Team Exercise for Action Management Skills: A Semester-Long Team-Management Simulation.

ERIC Educational Resources Information Center

Wagenheim, Gary

A team-oriented approach is replacing the traditional management style in today's organizations. Because team management skills differ, they require different teaching methods. This paper describes an administrator education course designed to develop team management skills from an applied and behavioral viewpoint. Students participate in…

Preparing Nursing Students for Interprofessional Practice: The Interdisciplinary Curriculum for Oncology Palliative Care Education.

PubMed

Hermann, Carla P; Head, Barbara A; Black, Karen; Singleton, Karen

2016-01-01

Interprofessional educational experiences for baccalaureate nursing students are essential to prepare them for interprofessional communication, collaboration, and team work. Nurse educators are ideally positioned to develop and lead such initiatives. The purpose of this article is to describe the development and implementation of an interprofessional education (IPE) project involving students in nursing, medicine, social work, and chaplaincy. The Interdisciplinary Curriculum for Oncology Palliative Care Education project uses team-based palliative oncology education as the framework for teaching students interprofessional practice skills. The need for IPE is apparent, but there are very few comprehensive, successful projects for nurse educators to use as models. This article describes the development of the curriculum by the interprofessional faculty team. Issues encountered by nursing faculty members as they implemented the IPE experience are discussed. Solutions developed to address the issues and ongoing challenges are presented. This project can serve as a model of a successful IPE initiative involving nursing students. Copyright © 2016 Elsevier Inc. All rights reserved.

Best practices for team-based assistive technology design courses.

PubMed

Goldberg, Mary R; Pearlman, Jonathan L

2013-09-01

Team-based design courses focused on products for people with disabilities have become relatively common, in part because of training grants such as the NSF Research to Aid Persons with Disabilities course grants. An output from these courses is an annual description of courses and projects but has yet to be complied into a "best practices guide," though it could be helpful for instructors. To meet this need, we conducted a study to generate best practices for assistive technology product development courses and how to use these courses to teach students the fundamentals of innovation. A full list of recommendations is comprised in the manuscript and include identifying a client through a reliable clinical partner; allowing for transparency between the instructors, the client, and the team(s); establishing multi-disciplinary teams; using a process-oriented vs. solution-oriented product development model; using a project management software to facilitate and archive communication and outputs; facilitating client interaction through frequent communication; seeking to develop professional role confidence to inspire students' commitment to engineering and (where applicable) rehabilitation field; publishing student designs on repositories; incorporating both formal and informal education opportunities related to design; and encouraging students to submit their designs to local or national entrepreneurship competitions.

Recruiting and retaining mental health professionals to rural communities: an interdisciplinary course in Appalachia.

PubMed

Meyer, Deborah; Hamel-Lambert, Jane; Tice, Carolyn; Safran, Steven; Bolon, Douglas; Rose-Grippa, Kathleen

2005-01-01

Faculty from 5 disciplines (health administration, nursing, psychology, social work, and special education) collaborated to develop and teach a distance-learning course designed to encourage undergraduate and graduate students to seek mental health services employment in rural areas and to provide the skills, experience, and knowledge necessary for successful rural practice. The primary objectives of the course, developed after thorough review of the rural retention and recruitment literature, were to (1) enhance interdisciplinary team skills, (2) employ technology as a tool for mental health practitioners, and (3) enhance student understanding of Appalachian culture and rural mental health. Didactic instruction emphasized Appalachian culture, rural mental health, teamwork and communication, professional ethics, and technology. Students were introduced to videoconferencing, asynchronous and synchronous communication, and Internet search tools. Working in teams of 3 or 4, students grappled with professional and cultural issues plus team process as they worked through a hypothetical case of a sexually abused youngster. The course required participants to engage in a nontraditional manner by immersing students in Web-based teams. Student evaluations suggested that teaching facts or "content" about rural mental health and Appalachian culture was much easier than the "process" of using new technologies or working in teams. Given that the delivery of mental health care demands collaboration and teamwork and that rural practice relies increasingly more on the use of technology, our experience suggests that more team-based, technology-driven courses are needed to better prepare students for clinical practice.

Assessment of students' satisfaction with a student-led team-based learning course.

PubMed

Bouw, Justin W; Gupta, Vasudha; Hincapie, Ana L

2015-01-01

To date, no studies in the literature have examined student delivery of team-based learning (TBL) modules in the classroom. We aimed to assess student perceptions of a student-led TBL elective. Third-year pharmacy students were assigned topics in teams and developed learning objectives, a 15-minute mini-lecture, and a TBL application exercise and presented them to student colleagues. Students completed a survey upon completion of the course and participated in a focus group discussion to share their views on learning. The majority of students (n=23/30) agreed that creating TBL modules enhanced their understanding of concepts, improved their self-directed learning skills (n=26/30), and improved their comprehension of TBL pedagogy (n=27/30). However, 60% disagreed with incorporating student-generated TBL modules into core curricular classes. Focus group data identified student-perceived barriers to success in the elective, in particular the development of TBL application exercises. This study provides evidence that students positively perceived student-led TBL as encouraging proactive learning from peer-to-peer teaching.

[Dream Team--a pre-graduate surgical talent development project].

PubMed

Jensen, Rune Dall; Christensen, Mette Krogh; Seyer-Hansen, Mikkel

2014-08-04

In 2009 surgeons from Aarhus University Hospital founded an extracurricular talent development project based on a skill-acquisition training programme for medical students at Aarhus University. The training program, named Dream Team, provides medical students with the opportunity to pursue a career in surgery. This paper presents and discusses the organizational and pedagogical framework of the concept Dream Team, as well as the results from two inquiries: a survey and an exploratory observational study. The inquiries were conducted in summer 2013.

A Developmental Perspective on the Virginia Student Threat Assessment Guidelines

ERIC Educational Resources Information Center

Cornell, Dewey G.

2011-01-01

The Virginia Student Threat Assessment Guidelines were developed to help multidisciplinary school-based teams use a decision tree to evaluate student threats and take appropriate preventive action. A main goal of this approach is to allow school-based teams to recognize and respond to the developmental complexities of children and adolescents…

Effective Engineering Presentations through Teaching Visual Literacy Skills.

ERIC Educational Resources Information Center

Kerns, H. Dan; And Others

This paper describes a faculty resource team in the Bradley University (Illinois) Department of Industrial Engineering that works with student project teams in an effort to improve their visualization and oral presentation skills. Students use state of the art technology to develop and display their visuals. In addition to technology, students are…

Examining participant perceptions of an interprofessional simulation-based trauma team training for medical and nursing students.

PubMed

Jakobsen, Rune Bruhn; Gran, Sarah Frandsen; Grimsmo, Bergsvein; Arntzen, Kari; Fosse, Erik; Frich, Jan C; Hjortdahl, Per

2018-01-01

High quality care relies on interprofessional teamwork. We developed a short simulation-based course for final year medical, nursing and nursing anaesthesia students, using scenarios from emergency medicine. The aim of this paper is to describe the adaptation of an interprofessional simulation course in an undergraduate setting and to report participants' experiences with the course and students' learning outcomes. We evaluated the course collecting responses from students through questionnaires with both closed-ended and open-ended questions, supplemented by the facilitators' assessment of students' performance. Our data is based on responses from 310 students and 16 facilitators who contributed through three evaluation phases. In the analysis, we found that students reported emotional activation and learning outcomes within the domains self-insight and stress management, understanding of the leadership role, insight into teamwork, and skills in team communication. In subsequent questionnaire studies students reported having gained insights about communication, teamwork and leadership, and they believed they would be better leaders of teams and/or team members after having completed the course. Facilitators' observations suggested a progress in students' non-technical skills during the course. The facilitators observed that nursing anaesthesia students seemed to be more comfortable in finding their role in the team than the two other groups. In conclusion, we found that an interprofessional simulation-based emergency team training course with a focus on leadership, communication and teamwork, was feasible to run on a regular basis for large groups of students. The course improved the students' team skills and received a favourable evaluation from both students and faculty.

Building and expanding interprofessional teaching teams.

PubMed

Darlow, Ben; McKinlay, Eileen; Gallagher, Peter; Beckingsale, Louise; Coleman, Karen; Perry, Meredith; Pullon, Sue

2017-03-01

INTRODUCTION Interprofessional education (IPE) aims to prepare learners to work in collaborative health-care teams. The University of Otago, Wellington has piloted, developed and expanded an IPE programme since 2011. An interprofessional teaching team has developed alongside this programme. AIMS This study aimed to understand the development of a university-based interprofessional teaching team over a 4-year period and generate insights to aid the development of such teams elsewhere. METHODS Two semi-structured audio-recorded educator focus groups were conducted at key times in the development of the IPE programme in 2011 and 2014. The programme focused on long-term condition management and involved students from dietetics, medicine, physiotherapy and radiation therapy. Focus group transcripts were independently analysed by two researchers using Thematic Analysis to identify broad themes. Initial themes were compared, discussed and combined to form a thematic framework. The thematic framework was verified by the education team and subsequently updated and reorganised. RESULTS Three key themes emerged: (i) development as an interprofessional educator; (ii) developing a team; and (iii) risk and reward. Teaching in an interprofessional environment was initially daunting but confidence increased with experience. Team teaching highlighted educators' disciplinary roles and skill sets and exposed educators to different teaching approaches. Educators perceived they modelled team development processes to students through their own development as a team. Interprofessional teaching was challenging to organise but participation was rewarding. Programme expansion increased the risks and complexity, but also acted as a stimulus for development and energised the teaching team. DISCUSSION Interprofessional teaching is initially challenging but ultimately enriching. Interprofessional teaching skills take time to develop and perspectives of role change over time. Educator team development is aided by commitment, understanding, enthusiasm, leadership and trust.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. NASA and contractor personnel who conducted the DIME activity with the students. Shown (L-R) are: Daniel Dietrich (NASA) mentor for Sycamore High School team), Carol Hodanbosi (National Center for Microgravity Research; DIME staff), Jose Carrion (GRC Akima, drop tower technician), Dennis Stocker (NASA; DIME staff), Richard DeLombard (NASA; DIME staff), Sandi Thompson (NSMR sabbatical teacher; DIME staff), Peter Sunderland (NCMR, mentor for COSI Academy student team), Adam Malcolm (NASA co-op student; DIME staff). This image is from a digital still camera; higher resolution is not available.

Using a Dual Role Assignment to Improve Group Dynamics and Performance: The Effects of Facilitating Social Capital in Teams

ERIC Educational Resources Information Center

Aquino, Karl; Serva, Mark A.

2005-01-01

This article describes a project that simulates the interplay between management and development project teams in a business environment. Each student team was assigned a management role supervising one project and a development role implementing another project. Results indicate that teams that communicate regularly and interact socially outside…

A Case Study of Team-Initiated Problem Solving Addressing Student Behavior in One Elementary School

ERIC Educational Resources Information Center

Todd, Anne W.; Horner, Robert H.; Berry, Dorothy; Sanders, Carol; Bugni, Michelle; Currier, Allison; Potts, Nicky; Newton, J. Stephen; Algozzine, Bob; Algozzine, Kate

2012-01-01

Team-Initiated Problem Solving (TIPS) is an approach for organizing school team meetings to improve identification of targeted problems, use of data in the development of solutions, and development of implemented action plans. TIPS has been demonstrated in single-case and randomized controlled trial studies to improve the effectiveness of teams to…

Breaking the Barriers Between Middle School and High School: Developing a Transition Team for Student Success.

ERIC Educational Resources Information Center

Hertzog, C. Jay; Morgan, P. Lena

1998-01-01

Discusses results of a study examining self-perceptions of students moving from middle level to high schools. Kids reported a significant drop in perceived physical appearance, job competence, romantic appeal, conduct, and global self-worth. A transition team can help eighth graders develop an understanding of the academic rigors and cocurricular…

The Impact of Structured Writing and Developing Awareness of Learning Preferences on the Performance and Attitudes of Engineering Teams

ERIC Educational Resources Information Center

Dahm, Kevin; Newell, James; Newell, Heidi; Harvey, Roberta

2009-01-01

This paper discusses efforts to develop metacognition in teams of engineering students by: first, exploring personal learning patterns, and second, ongoing biweekly journaling exercises. Thirty-three junior and senior engineering students (30 chemical engineer, one each from mechanical, civil and electrical) working on semester-long projects in…

Olympiad Studies: Competitions Provide Alternatives to Developing Talents that Serve National Interests

ERIC Educational Resources Information Center

Campbell, James Reed; Walberg, Herbert J.

2011-01-01

Competitions are used by many teachers at the grassroots level to develop the talents of their gifted students. Each year the top Mathematics, Chemistry, and Physics Olympiad students are identified and assembled into national teams that compete against teams from around the world. This article summarizes findings from the American Olympiad study.…

Exploring the Benefits of a Collaborative Inquiry Team in Education (CITE) Initiative to Develop a Research Community and Enhance Student Engagement

ERIC Educational Resources Information Center

Cantalini-Williams, Maria; Curtis, Debra; Eden-DeGasperis, Kimberley; Esposto, Lauren; Guibert, Jenny; Papp, Heather; Roque, Carlos

2015-01-01

This study examined a collaborative inquiry process, facilitated by university faculty in an elementary school, intended to develop a research community, foster knowledge mobilization, and enhance student engagement. The Collaborative Inquiry Team in Education (CITE) initiative consisted of five school-based sessions that included videos,…

Teaching the Next Generation of Scientists and Engineers the NASA Design Process

NASA Technical Reports Server (NTRS)

Caruso, Pamela W.; Benfield, Michael P. J.; Justice, Stefanie H.

2011-01-01

The Integrated Product Team (IPT) program, led by The University of Alabama in Huntsville (UAH), is a multidisciplinary, multi-university, multi-level program whose goal is to provide opportunities for high school and undergraduate scientists and engineers to translate stakeholder needs and requirements into viable engineering design solutions via a distributed multidisciplinary team environment. The current program supports three projects. The core of the program is the two-semester senior design experience where science, engineering, and liberal arts undergraduate students from UAH, the College of Charleston, Southern University at Baton Rouge, and Ecole Suprieure des Techniques Aronautiques et de Construction Automobile (ESTACA) in Paris, France form multidisciplinary competitive teams to develop system concepts of interest to the local aerospace community. External review boards form to provide guidance and feedback throughout the semester and to ultimately choose a winner from the competing teams. The other two projects, the Innovative Student Project for the Increased Recruitment of Engineering and Science Students (InSPIRESS) Level I and Level II focus exclusively on high school students. InSPIRESS Level I allows high schools to develop a payload to be accommodated on the system being developed by senior design experience teams. InSPIRESS Level II provides local high school students first-hand experience in the senior design experience by allowing them to develop a subsystem or component of the UAH-led system over the two semesters. This program provides a model for NASA centers to engage the local community to become more involved in design projects.

Teaching Students to Be Instrumental in Analysis: Peer-Led Team Learning in the Instrumental Laboratory

ERIC Educational Resources Information Center

Williams, Jacob L.; Miller, Martin E.; Avitabile, Brianna C.; Burrow, Dillon L.; Schmittou, Allison N.; Mann, Meagan K.; Hiatt, Leslie A.

2017-01-01

Many instrumental analysis students develop limited skills as the course rushes through different instruments to ensure familiarity with as many methodologies as possible. This broad coverage comes at the expense of superficiality of learning and a lack of student confidence and engagement. To mitigate these issues, a peer-led team learning model…

What Students Think and Do in Classroom Teams When Peer Evaluations Are Highly Consequential: A Two-Stage Study

ERIC Educational Resources Information Center

Jassawalla, Avan R.; Sashittal, Hemant C.

2017-01-01

The article presents findings from a two-stage study that examined student perceptions of peer evaluations (PEs) conducted in undergraduate business classroom teams. In stage 1, we used qualitative research to identify constructs focal in students' PE-related cognitive schemas and developed grounded measurement scales and hypotheses about their…

Defining and Assessing Team Skills of Business and Accountancy Students

ERIC Educational Resources Information Center

Alghalith, Nabil; Blum, Michael; Medlock, Amanda; Weber, Sandy

2004-01-01

The objectives of the project are (1) to define the skills necessary for students to work effectively with others to achieve common goals, and (2) to develop an assessment instrument to measure student progress toward achieving these skills. The defined skill set will form a basis for common expectations related to team skills that will be shared…

Mentoring Interdisciplinary Undergraduate Students via a Team Effort

ERIC Educational Resources Information Center

Karsai, Istvan; Knisley, Jeff; Knisley, Debra; Yampolsky, Lev; Godbole, Anant

2011-01-01

We describe how a team approach that we developed as a mentoring strategy can be used to recruit, advance, and guide students to be more interested in the interdisciplinary field of mathematical biology, and lead to success in undergraduate research in this field. Students are introduced to research in their first semester via lab rotations. Their…

DOE Office of Scientific and Technical Information (OSTI.GOV)

Nasseh, Bizhan

Ball State University (BSU) was the recipient of a U.S. Department of Energy award to develop educational games teaching science and math. The Science Media Program will merge Ball State University’s nationally recognized capabilities in education, technology, and communication to develop new, interactive, game-based media for the teaching and learning of science and scientific principles for K-12 students. BSU established a team of educators, researchers, scientists, animators, designers, technology specialists, and hired a professional media developer company (Outside Source Design) from Indianapolis. After six months discussions and assessments the project team selected the following 8 games in Math, Physics, Chemistry,more » and Biology, 2 from each discipline. The assembled teams were innovative and unique. This new model of development and production included a process that integrated all needed knowledge and expertise for the development of high quality science and math games for K-12 students. This new model has potential to be used by others for the development of the educational games. The uniqueness of the model is to integrate domain experts’ knowledge with researchers/quality control group, and combine a professional development team from the game development company with the academic game development team from Computer Science and Art departments at Ball State University. The developed games went through feasibility tests with selected students for improvement before use in the research activities.« less

Dropping In a Microgravity Environment (DIME) Contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Pictured are students from COSI Academy, Columbus, Ohio and their teacher. The other team was from Sycamore High School in Cincinnati, Ohio. This image is from a digital still camera; higher resolution is not available.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Pictured are students from COSI Academy, Columbus, Ohio and their teacher. The other team was from Sycamore High School in Cincinnati, Ohio. This image is from a digital still camera; higher resolution is not available.

Experiences of nursing students and educators during the co-construction of clinical nursing leadership learning activities: A qualitative research and development study.

PubMed

Ha, Laurence; Pepin, Jacinthe

2017-08-01

Student voice posits that students' unique perspectives on teaching and learning can be used in conjunction with those of educators to create meaningful educational activities. The study aimed to describe nursing students' and educators' experiences during the co-construction of educational activities involving clinical nursing leadership. Qualitative research and development model. The study was conducted at a French-Canadian nursing faculty that provides a 3-year undergraduate program. Five undergraduate nursing students, four nursing educators, and the principal investigator formed the co-construction team. Data collected included all documents (written and audio) related to the co-construction process: three 2-hour team meetings, PI's fieldnotes and a focus group discussion that occurred once the co-construction process was completed. Thematic analysis was performed guided by Paillé and Muchielli's (2010) method. Data analysis revealed two interrelated themes: (1) unique, purposeful collaboration and (2) change that makes a difference. A space described as safe, without hierarchy and that included the "right" people helped the team achieve their objective of creating new educational activities on clinical nursing leadership. The two new learning activities developed by the team were perceived as useful for future nursing students. At the individual level, team members appreciated how co-construction helped them understand teaching and learning from new perspectives. A structured, efficient co-construction process contributed to positive changes in the nursing program and participants. Additional research is required to enhance understanding of the factors that facilitate and hinder student-educator collaboration outside the classroom. Copyright © 2017 Elsevier Ltd. All rights reserved.

Knowledge and Attitudes of Allied Health Professional Students regarding the Stroke Rehabilitation Team and the Role of the Speech and Language Therapist

ERIC Educational Resources Information Center

Byrne, Aine; Pettigrew, Catharine M.

2010-01-01

Background: One of the major barriers to effective team working among healthcare professionals is a lack of knowledge of each other's roles. The importance of understanding Irish healthcare students' attitudes towards team working and each other's roles led to the development of this study. Aims: The aims were to investigate allied health…

Improving Collaboration Among Social Work and Nursing Students Through Interprofessional Simulation.

PubMed

Kuehn, Mary Beth; Huehn, Susan; Smalling, Susan

2017-08-01

This project implemented first-time simulation with nursing and social work students. Students participated in a contextual learning experience through a patient simulation of interprofessional practice as a health care team member and reflection through debriefing and open response comments. Simulation offers a means to practice interprofessional collaboration prior to entering practice. Participants reported an increased understanding of the scope of practice of other team members through their reflections following simulation. In addition, participants reported increased comprehension of team dynamics and their relationship to improved patient care. Overall, the simulation encouraged development of the skills necessary to function as part of a collaborative, interprofessional team.

Cooperative Learning through Team-Based Projects in the Biotechnology Industry †

PubMed Central

Luginbuhl, Sarah C.; Hamilton, Paul T.

2013-01-01

We have developed a cooperative-learning, case studies project model that has teams of students working with biotechnology professionals on company-specific problems. These semester-long, team-based projects can be used effectively to provide students with valuable skills in an industry environment and experience addressing real issues faced by biotechnology companies. Using peer-evaluations, we have seen improvement in students’ professional skills such as time-management, quality of work, and level of contribution over multiple semesters. This model of team-based, industry-sponsored projects could be implemented in other college and university courses/programs to promote professional skills and expose students to an industry setting. PMID:24358386

Team Trust in Online Education: Assessing and Comparing Team-Member Trust in Online Teams versus Face-to-Face Teams

ERIC Educational Resources Information Center

Beranek, Peggy M.; French, Monique L.

2011-01-01

Trust is a key factor in enabling effective team performance and, in online teams, needs to be built quickly and early. As universities expand their online offerings students are increasingly working in online teams. Understanding how trust development may differ in online teams versus face-to-face can have implications for online education…

Effects of Learning Style Profile of Team on Quality of Materials Developed in Collaborative Learning Processes

ERIC Educational Resources Information Center

Erdem, Mukaddes

2009-01-01

The study described looks at the effects of learning style profile of teams on the quality of materials developed in a collaborative learning process. The study was carried out on collaborative teams of four or five university students, formed through learner preferences. Learning styles of the teams were determined using Kolb's Learning Styles…

A Case Study of Learning, Motivation, and Performance Strategies for Teaching and Coaching CDE Teams

ERIC Educational Resources Information Center

Ball, Anna; Bowling, Amanda; Bird, Will

2016-01-01

This intrinsic case study examined the case of students on CDE (Career Development Event) teams preparing for state competitive events and the teacher preparing them in a school with a previous exemplary track record of winning multiple state and national career development events. The students were interviewed multiple times during the 16-week…

Guidelines for the Statement and Assessment of Student Competencies. Teacher Education Forum Series. Vol. 1, No. 10.

ERIC Educational Resources Information Center

Bullock, Terry; And Others

This paper, prepared by the Division of Teacher Education Evaluation Team at Indiana University, presents a set of proposed student competencies and ways to assess them. It also contains the guidelines developed by the evaluation team to help teacher education projects and programs in developing competencies and measurement procedures, as well as…

First-Year Engineering Students' Portrayal of Engineering in a Proposed Museum Exhibit for Middle School Students

NASA Astrophysics Data System (ADS)

Mena, Irene B.; Diefes-Dux, Heidi A.

2012-04-01

Students' perceptions of engineering have been documented through studies involving interviews, surveys, and word associations that take a direct approach to asking students about various aspects of their understanding of engineering. Research on perceptions of engineering rarely focuses on how students would portray engineering to others. First-year engineering student teams proposed a museum exhibit, targeted to middle school students, to explore the question "What is engineering?" The proposals took the form of a poster. The overarching research question focuses on how these students would portray engineering to middle school students as seen through their museum exhibit proposals. A preliminary analysis was done on 357 posters to determine the overall engineering themes for the proposed museum exhibits. Forty of these posters were selected and, using open coding, more thoroughly analyzed to learn what artifacts/objects, concepts, and skills student teams associate with engineering. These posters were also analyzed to determine if there were any differences by gender composition of the student teams. Building, designing, and teamwork are skills the first-year engineering students link to engineering. Regarding artifacts, students mentioned those related to transportation and structures most often. All-male teams were more likely to focus on the idea of space and to mention teamwork and designing as engineering skills; equal-gender teams were more likely to focus on the multidisciplinary aspect of engineering. This analysis of student teams' proposals provides baseline data, positioning instructors to develop and assess instructional interventions that stretch students' self-exploration of engineering.

Performance of Student Software Development Teams: The Influence of Personality and Identifying as Team Members

ERIC Educational Resources Information Center

Monaghan, Conal; Bizumic, Boris; Reynolds, Katherine; Smithson, Michael; Johns-Boast, Lynette; van Rooy, Dirk

2015-01-01

One prominent approach in the exploration of the variations in project team performance has been to study two components of the aggregate personalities of the team members: conscientiousness and agreeableness. A second line of research, known as self-categorisation theory, argues that identifying as team members and the team's performance norms…

Leadership Identity Development Through Reflection and Feedback in Team-Based Learning Medical Student Teams.

PubMed

Alizadeh, Maryam; Mirzazadeh, Azim; Parmelee, Dean X; Peyton, Elizabeth; Mehrdad, Neda; Janani, Leila; Shahsavari, Hooman

2018-01-01

Studies on leadership identity development through reflection with Team-Based Learning (TBL) in medical student education are rare. We assumed that reflection and feedback on the team leadership process would advance the progression through leadership identity development stages in medical students within the context of classes using TBL. This study is a quasi-experimental design with pretest-posttest control group. The pretest and posttest were reflection papers of medical students about their experience of leadership during their TBL sessions. In the intervention group, TBL and a team-based, guided reflection and feedback on the team leadership process were performed at the end of all TBL sessions. In the other group, only TBL was used. The Stata 12 software was used. Leadership Identity was treated both as a categorical and quantitative variable to control for differences in baseline and gender variables. Chi-square, t tests, and linear regression analysis were performed. The population was a cohort of 2015-2016 medical students in a TBL setting at Tehran University of Medical Sciences, School of Medicine. Teams of four to seven students were formed by random sorting at the beginning of the academic year (intervention group n = 20 teams, control group n = 19 teams). At baseline, most students in both groups were categorized in the Awareness and Exploration stage of leadership identity: 51 (52%) in the intervention group and 59 (55%) in the control group: uncorrected χ 2 (3) = 15.6, design-based F(2.83, 108) = 4.87, p = .003. In the posttest intervention group, 36 (36%) were in exploration, 33 (33%) were in L-identified, 20 (20%) were in Leadership Differentiated, and 10 (10%) were in the Generativity. None were in the Awareness or Integration stages. In the control group, 3 (20%) were in Awareness, 56 (53%) were in Exploration, 35 (33%) were in Leader Identified, 13 (12%) were in Leadership Differentiated. None were in the Generativity and Integration stages. Our hypothesis was supported by the data: uncorrected χ 2 (4) = 18.6, design-based F(3.77, 143) = 4.46, p = .002. The mean of the leadership identity in the pretest, intervention group equaled 1.93 (SD = 0.85) and the pretest, control group mean was 2.36 (SD = 0.86), p = .004. The mean of the posttest, intervention group was 3.04 (SD = 0.98) and posttest, control group mean was 2.54 (SD = 0.74), T = -4.00, design df = 38, p < .001, and adjusted on baseline and gender T = -8.97, design df = 38, p < .001. Reflection and feedback on the team leadership process in TBL advances the progression in stages of leadership identity development in medical students. Although the TBL strategy itself could have an impact on leadership identity development, this study demonstrates that when a reflection and feedback on leadership intervention are added, there is much greater impact.

Mars Exploration Student Data Teams: Building Foundations and Influencing Students to Pursue STEM Careers through Experiences with Authentic Research

NASA Astrophysics Data System (ADS)

Turney, D.; Grigsby, B.; Murchie, S. L.; Buczkowski, D.; Seelos, K. D.; Nair, H.; McGovern, A.; Morgan, F.; Viviano, C. E.; Goudge, T. A.; Thompson, D.

2013-12-01

The Mars Exploration Student Data Teams (MESDT) immerses diverse teams of high school and undergraduate students in an authentic research Science, Technology, Engineering and Mathematics (STEM) based experience and allows students to be direct participants in the scientific process by working with scientists to analyze data sets from NASA's Mars program, specifically from the CRISM instrument. MESDT was created by Arizona State University's Mars Education Program, and is funded through NASA's Compact Reconnaissance Imaging Spectrometer for Mars or CRISM, an instrument onboard the Mars Reconnaissance Orbiter (MRO). Students work with teacher mentors and CRISM team members to analyze data, develop hypotheses, conduct research, submit proposals, critique and revise work. All students begin the program with basic Mars curriculum lessons developed by the MESDT education team. This foundation enables the program to be inclusive of all students. Teachers have reported that populations of students with diverse academic needs and abilities have been successful in this program. The use of technology in the classroom allows the MESDT program to successfully reach a nationwide audience and funding provided by NASA's CRISM instrument allows students to participate free of charge. Recent changes to the program incorporate a partnership with United States Geological Survey (USGS) and a CRISM sponsored competitive scholarship for two teams of students to present their work at the annual USGS Planetary Mappers Meeting. Returning MESDT teachers have attributed an increase in student enrollment and interest to this scholarship opportunity. The 2013 USGS Planetary Mappers Meeting was held in Washington DC which provided an opportunity for the students to meet with their Senators at the US Capitol to explain the science work they had done throughout the year as well as the impact that the program had had on their goals for the future. This opportunity extended to the students by the United States Senate was a chance for students to practice high level communication and presentation skills and was reported to have made a strong impression on the participating students. MESDT develops foundational abilities needed by all students such as critical thinking, problem solving, cooperative group work, and communication skills. The implications of having students involved in authentic data analysis from an orbiting spacecraft include increased technical abilities as well as increased confidence to pursue a STEM (Science, Technology, Engineering and Mathematics) major or career. Formative assessments and teacher, parent, and student testimonials show MESDT has had a definite impact on students and their decisions to pursue STEM related majors and careers, in addition to leading to student scholarships and awards.

Utilizing Team Debate to Increase Student Abilities for Mentoring and Critical Appraisal of Global Health Care in Doctor of Nursing Practice Programs.

PubMed

Elliott, Naomi; Farnum, Karen; Beauchesne, Michelle

2016-01-01

Although graduates of doctor of nursing practice (DNP) programs are expected to demonstrate competence in advanced clinical scholarship, mentoring, and leadership, little is published about how team debate on a global health care topic supports DNP student learning and skill development. This article reports on an illuminative evaluation of DNP student learning experiences of team debate in the context of a 2-week international school program in Ireland. A focused illuminative evaluation approach involving a cohort of seven DNP students, who had participated in an international school team debate, was used. Data were collected using a Web-based qualitative questionnaire designed to elicit in-depth reflective accounts of DNP students' learning experiences. Content analysis revealed that team debate on a global health care topic enhanced learning in relation to fostering critical thinking and critical appraisal skills; encouraging teamwork; providing opportunities for mentoring, relationship building, and socialization into profession; and, from the DNP student perspective, increasing knowledge and global understanding of health care. This evaluation provides insights for nurse educators into the benefits of introducing team debate as a group activity to enhancing scholarly inquiry and mentoring skills of DNP students. Further research to evaluate team debate in other nurse education programs is needed. Copyright © 2016 Elsevier Inc. All rights reserved.

Related Services Research for Students With Low-Incidence Disabilities: Implications for Speech-Language Pathologists in Inclusive Classrooms.

PubMed

Giangreco, Michael F

2000-07-01

When speech-language pathologists provide educationally related services for students with lowincidence disabilities who are placed in inclusive classrooms, they are asked to work with a variety of other adults. The ways in which these adults make decisions about individualizing a student's educational program, determine related services, and coordinate their activities have an impact on educational outcomes for students as well as on interprofessional interactions. This article summarizes a team process for making related services decisions called VISTA (Vermont Interdependent Services Team Approach) and a series of nine research studies pertaining to the use and impact of VISTA. It also addresses related topics, such as team size, consumer perspectives, and paraprofessional supports. Five major implications from these studies are offered concerning (a) developing a disposition of being an ongoing learner, (b) developing a shared framework among team members, (c) having a research-based process to build consensus, (d) clarifying roles, and (e) increasing involvement of families and general education teachers.

The Team Boat Exercise: Enhancing Team Communication Midsemester

ERIC Educational Resources Information Center

Cox, Pamela L.; Friedman, Barry A.

2009-01-01

This paper discusses the Team Boat Exercise, which was developed to provide students with a mechanism for addressing team problems and enhancing team communication midsemester. The inspiration for the exercise came from a video by Prentice Hall, Inc. (2001). Part III of the video, entitled "Corporate Coaching," shows senior staff members from the…

Exploring the Effects of Online Team-Based Learning and Co-Regulated Learning on Students' Development of Computing Skills

ERIC Educational Resources Information Center

Tsai, Chia-Wen

2016-01-01

As more and more educational institutions are providing online courses, it is necessary to design effective teaching methods integrated with technologies to benefit both teachers and students. The researcher in this study designed innovative online teaching methods of team-based learning (TBL) and co-regulated learning (CRL) to improve students'…

Teamwork Benefits in Tertiary Education: Student Perceptions That Lead to Best Practice Assessment Design

ERIC Educational Resources Information Center

Volkov, Arabella; Volkov, Michael

2015-01-01

Purpose: The purpose of this paper is to contribute to the understanding of the development of students' skills in the context of team-based learning. Academics have heeded the call to incorporate team learning activities into the curricula, yet little is known of student perception of teamwork and whether they view it as beneficial to them and…

A Team, Case-based Examination and Its Impact on Student Performance in a Patient Safety and Informatics Course

PubMed Central

Etheridge, Kierstan; DeLellis, Teresa

2017-01-01

Objective. To describe the redesigned assessment plan for a patient safety and informatics course and assess student pharmacist performance and perceptions. Methods. The final examination of a patient safety course was redesigned from traditional multiple choice and short answer to team-based, open-ended, and case-based. Faculty for each class session developed higher level activities, focused on developing key skills or attitudes deemed essential for practice, for a progressive patient case consisting of nine activities. Student performance and perceptions were analyzed with pre- and post-surveys using 5-point scales. Results. Mean performance on the examination was 93.6%; median scores for each assessed course outcome ranged from 90% to 100%. Eighty-five percent of students completed both surveys. Confidence performing skills and demonstrating attitudes improved for each item on post-survey compared with pre-survey. Eighty-one percent of students indicated the experience of taking the examination was beneficial for their professional development. Conclusion. A team, case-based examination was associated with high student performance and improved self-confidence in performing medication safety-related skills. PMID:28970618

Project Helping Hands. Grade 10 Lesson. Schools of California Online Resources for Education (SCORE): Connecting California's Classrooms to the World.

ERIC Educational Resources Information Center

Westphal, Leanne

In this lesson, students work in teams, role-playing a nonprofit organization dedicated to improving the quality of life in rural Africa. Teams focus on four goals: (1) grow more food; (2) develop water resources; (3) improve health services; and (4) protect the environment. Each student team is assigned to one of five regions in Africa. Teams…

Dropping In a Microgravity Environment (DIME) Contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. NASA and contractor personnel who conducted the DIME activity with the students. Shown (L-R) are: Daniel Dietrich (NASA) mentor for Sycamore High School team), Carol Hodanbosi (National Center for Microgravity Research; DIME staff), Jose Carrion (GRC Akima, drop tower technician), Dennis Stocker (NASA; DIME staff), Richard DeLombard (NASA; DIME staff), Sandi Thompson (NSMR sabbatical teacher; DIME staff), Peter Sunderland (NCMR, mentor for COSI Academy student team), Adam Malcolm (NASA co-op student; DIME staff). This image is from a digital still camera; higher resolution is not available.

Discourse in freshman engineering teams: The relationship between verbal persuasions, self-efficacy, and achievement

NASA Astrophysics Data System (ADS)

Yasar, Senay

Collaborative teamwork is a common practice in both science and engineering schools and workplaces. This study, using a mixed-methods approach, was designed to identify which team discourse characteristics are correlated with changes in student self-efficacy and achievement. Bandura's self-efficacy theory constitutes the theoretical framework. Seven teams, consisting of first-year engineering students, took the pre- and post-surveys and were video- and audio-recorded during a semester-long Introduction to Engineering Design course. Three instruments were developed: a self-efficacy survey, a team interaction observation protocol, and a team interaction self-report survey. The reliability and validity of these instruments were established. An iterative process of code development and refinement led to the development of thirty-five discourse types, which were grouped under six discourse categories: task-oriented, response-oriented, learning-oriented, support-oriented, challenge-oriented, and disruptive. The results of the quantitative data analysis showed that achievement and gain in self-efficacy were significantly correlated ( r=.55, p<.01). There was also a positive correlation between support-orientated discourse and post self-efficacy scores ( r=.43, p<.05). Negative correlations were observed between disruptive discourse behaviors and post self-efficacy (r=-.48, p<.05). Neither being challenged by peers nor receiving negative feedback revealed significant correlations with student self-efficacy. In addition, no direct correlations between the team discourse characteristics and achievement were found. These findings suggest that collaborative teamwork can lead to achievement to the extent that it supports self-efficacy. They also suggest that interactions such as receiving positive or negative feedback have less impact on self-efficacy than does the overall constructive behavior of the group. The qualitative component of the study, which focused on three case studies, presents how supportive and disruptive interactions occurred during team discourse. Discussion includes recommendations for educators on how to help teams build supportive environments as well as what to look for when forming teams and evaluating student team interactions.

Data-Based Decision Making in Teams: Enablers and Barriers

ERIC Educational Resources Information Center

Bolhuis, Erik; Schildkamp, Kim; Voogt, Joke

2016-01-01

Data use is becoming more important in higher education. In this case study, a team of teachers from a teacher education college was supported in data-based decision making by means of the data team procedure. This data team studied the reasons why students drop out. A team's success depends in part on whether the team is able to develop and apply…

NASA Microgravity Science Competition for High-school-aged Student Teams

NASA Technical Reports Server (NTRS)

DeLombard, Richard; Stocker, Dennis; Hodanbosi, Carol; Baumann, Eric

2002-01-01

NASA participates in a wide variety of educational activities including competitive events. There are competitive events sponsored by NASA and student teams which are mentored by NASA centers. This participation by NASA in public forums serves to bring the excitement of aerospace science to students and educators. A new competition for highschool-aged student teams involving projects in microgravity has completed two pilot years and will have national eligibility for teams during the 2002-2003 school year. A team participating in the Dropping In a Microgravity Environment will research the field of microgravity, develop a hypothesis, and prepare a proposal for an experiment to be conducted in a microgravity drop tower facility. A team of NASA scientists and engineers will select the top proposals and those teams will then design and build their experiment apparatus. When the experiment apparatus are completed, team representatives will visit NASA Glenn in Cleveland, Ohio for operation of their facility and participate in workshops and center tours. Presented in this paper will be a description of DIME, an overview of the planning and execution of such a program, results from the first two pilot years, and a status of the first national competition.

The Talent Development Middle School. An Elective Replacement Approach to Providing Extra Help in Math--The CATAMA Program (Computer- and Team-Assisted Mathematics Acceleration). Report No. 21.

ERIC Educational Resources Information Center

Mac Iver, Douglas J.; Balfanz, Robert; Plank, Stephen B.

In Talent Development Middle Schools, students needing extra help in mathematics participate in the Computer- and Team-Assisted Mathematics Acceleration (CATAMA) course. CATAMA is an innovative combination of computer-assisted instruction and structured cooperative learning that students receive in addition to their regular math course for about…

Second Annual HEDS-UP Forum

NASA Astrophysics Data System (ADS)

Duke, Michael B.

1999-01-01

HEDS-UP (Human Exploration and Development of Space-University Partners) conducted its second annual forum on May 6-7, 1999, at the Lunar and Planetary Institute in Houston. This year, the topics focused on human exploration of Mars, including considerations ranging from systems analysis of the transportation and surface architecture to very detailed considerations of surface elements such as greenhouses, rovers, and EVA suits. Ten undergraduate projects and four graduate level projects were presented with a total of 13 universities from around the country. Over 200 students participated on the study teams and nearly 100 students attended the forum meeting. The overall quality of reports and presentations was extremely high, with most projects requiring that the students dig into space systems concepts, designs, and technologies in detail. University team outreach projects also reached approximately 1500 people through articles and Web sites developed by the students. Several of the teams had NASA or industry mentors and included visits to NASA centers as part of their class activities. Awards were made to the three top undergraduate teams and the top team of graduate students. The first-place award went to a team from Wichita State University, Wichita, Kansas. Their faculty advisor was Dr. Gawad Nagati of the Department of Aerospace Engineering. Second place went to a team from the California Institute of Technology, Pasadena, California, with Dr. James Burke of the jet Propulsion Laboratory as advisor. Third place was awarded to the University of Houston in Houston, Texas, where Dr. David Zimmerman was the faculty sponsor. The graduate award was made to a team from the University of Maryland, College Park, Maryland, under the sponsorship of Dr. David Akin.

Continued multidisciplinary project-based learning - implementation in health informatics.

PubMed

Wessel, C; Spreckelsen, C

2009-01-01

Problem- and project-based learning are approved methods to train students, graduates and post-graduates in scientific and other professional skills. The students are trained on realistic scenarios in a broader context. For students specializing in health informatics we introduced continued multidisciplinary project-based learning (CM-PBL) at a department of medical informatics. The training approach addresses both students of medicine and students of computer science. The students are full members of an ongoing research project and develop a project-related application or module, or explore or evaluate a sub-project. Two teachers guide and review the students' work. The training on scientific work follows a workflow with defined milestones. The team acts as peer group. By participating in the research team's work the students are trained on professional skills. A research project on a web-based information system on hospitals built the scenario for the realistic context. The research team consisted of up to 14 active members at a time, who were scientists and students of computer science and medicine. The well communicated educational approach and team policy fostered the participation of the students. Formative assessment and evaluation showed a considerable improvement of the students' skills and a high participant satisfaction. Alternative education approaches such as project-based learning empower students to acquire scientific knowledge and professional skills, especially the ability of life-long learning, multidisciplinary team work and social responsibility.

The Development of a Course Sequence in Real-Time Systems Design

DTIC Science & Technology

1993-08-01

project was implemented in C. 3 A group of students used the material learned in this course in their...homework assignments are used to assess the students learning U process. The term project is to be done in teams of 2 to 4 students and it starts very...assignments are used to assess the students learning I process. The term project is to be done in teams of 2 to 4 students and it starts very early in the

Team based learning in nursing and midwifery higher education; a systematic review of the evidence for change.

PubMed

Dearnley, Chris; Rhodes, Christine; Roberts, Peter; Williams, Pam; Prenton, Sarah

2018-01-01

The aim of this study is to review the evidence in relation to the experiences and outcomes of students on nursing and/or midwifery higher education programmes, who experience team based learning. To examine the relationship between team based learning and attainment for nursing and midwifery students in professional higher education. To examine the relationship between team based learning and student satisfaction for nurses and midwifery students in higher education. To identify and report examples of good practice in the implementation of team based learning in Nursing and Midwifery higher education. A systematic Review of the literature was undertaken. The population were nurses and midwives studying on higher education pre and post registration professional programmes. The intervention was learning and teaching activities based on a team-based learning approach. Data sources included CINAHL and MEDLINE. ERIC and Index to Theses were also searched. International research papers published in English between 2011 and 2017 that met the inclusion criteria were included in the study. Papers that met the criteria were subjected to quality appraisal and agreement amongst authors for inclusion in the review. A total of sixteen papers were reviewed and four themes emerged for discussion. These were Student Engagement, Student Satisfaction, Attainment and Practice Development and Transformational Teaching and Learning. There is a tentative, though growing body of evidence to support TBL as a strategy that can impact on student engagement, student satisfaction, attainment, practice development and transformative teaching and learning. The literature indicates that implementing TBL within the curriculum is not without challenge and requires a sustained and structured approach. Staff and students need to understand the processes involved, and why they should be adhered to, in the pursuit of enhanced student experiences and outcomes for nurses and midwives in Higher Education. Copyright © 2017 Elsevier Ltd. All rights reserved.

Medical students as EMTs: skill building, confidence and professional formation.

PubMed

Kwiatkowski, Thomas; Rennie, William; Fornari, Alice; Akbar, Salaahuddin

2014-01-01

The first course of the medical curriculum at the Hofstra North Shore-LIJ School of Medicine, From the Person to the Professional: Challenges, Privileges and Responsibilities, provides an innovative early clinical immersion. The course content specific to the Emergency Medical Technician (EMT) curriculum was developed using the New York State Emergency Medical Technician curriculum. Students gain early legitimate clinical experience and practice clinical skills as team members in the pre-hospital environment. We hypothesized this novel curriculum would increase students' confidence in their ability to perform patient care skills and enhance students' comfort with team-building skills early in their training. Quantitative and qualitative data were collected from first-year medical students (n=97) through a survey developed to assess students' confidence in patient care and team-building skills. The survey was completed prior to medical school, during the final week of the course, and at the end of their first year. A paired-samples t-test was conducted to compare self-ratings on 12 patient care and 12 team-building skills before and after the course, and a theme analysis was conducted to examine open-ended responses. Following the course, student confidence in patient care skills showed a significant increase from baseline (p<0.05) for all identified skills. Student confidence in team-building skills showed a significant increase (p<0.05) in 4 of the 12 identified skills. By the end of the first year, 84% of the first-year students reported the EMT curriculum had 'some impact' to 'great impact' on their patient care skills, while 72% reported the EMT curriculum had 'some impact' to 'great impact' on their team-building skills. The incorporation of EMT training early in a medical school curriculum provides students with meaningful clinical experiences that increase their self-reported level of confidence in the performance of patient care skills early in their medical education.

Designing and Evaluating an Interprofessional Experiential Course Series Involving Medical and Pharmacy Students

PubMed Central

Dueñas, Gladys G.; Zanoni, Aileen; Grover, Anisha B.

2016-01-01

Objective. To prepare first-year and second-year pharmacy and medical students to build effective collaborative health care teams by participating in an interprofessional experiential 6-semester course series. Design. An interprofessional experiential course series was designed using a variety of teaching methods to achieve both interprofessional and experiential learning outcomes. A standardized objective behavioral assessment was developed to measure team performance of interprofessional communication and teamwork. In addition, student perceptions were measured using a validated instrument. Assessment. A majority of teams demonstrated appropriate competence with respect to interprofessional communication and teamwork. Additionally, a majority of students expressed positive perceptions of interprofessional collaboration with respect to teamwork, roles and responsibilities, and patient outcomes. Conclusion. An interprofessional experiential course series can be successfully implemented to achieve both interprofessional and experiential learning outcomes. Highly collaborative teams and positive student perceptions provide evidence of achievement of interprofessional education learning outcomes. PMID:27402988

Teaching engineering ethics using BLOCKS game.

PubMed

Lau, Shiew Wei; Tan, Terence Peng Lian; Goh, Suk Meng

2013-09-01

The aim of this study was to investigate the use of a newly developed design game called BLOCKS to stimulate awareness of ethical responsibilities amongst engineering students. The design game was played by seventeen teams of chemical engineering students, with each team having to arrange pieces of colored paper to produce two letters each. Before the end of the game, additional constraints were introduced to the teams such that they faced similar ambiguity in the technical facts that the engineers involved in the Challenger disaster had faced prior to the space shuttle launch. At this stage, the teams had to decide whether to continue with their original design or to develop alternative solutions. After the teams had made their decisions, a video of the Challenger explosion was shown followed by a post-game discussion. The students' opinion on five Statements on ethics was tracked via a Five-Item Likert survey which was administered three times, before and after the ethical scenario was introduced, and after the video and post-game discussion. The results from this study indicated that the combination of the game and the real-life incident from the video had generally strengthened the students' opinions of the Statements.

Constructing engineers through practice: Gendered features of learning and identity development

NASA Astrophysics Data System (ADS)

Tonso, Karen L.

How do women and men student engineers develop an engineering identity (a sense of belonging, or not), while practicing "actual" engineering? What are the influences of gender, learning and knowledge, relations of power, and conceptions of equality on cultural identity development? I studied these issues in reform-minded engineering design classes, courses organized around teaching students communications, teamwork, and practical engineering. Engineering-student cultural identity categories revealed a status hierarchy, predicated on meeting "academic" criteria for excellence, and the almost total exclusion of women. While working as an engineering colleague on five student teams (three first-year and two senior) and attending their design classes, I documented how cultural identities were made evident and constructed in students' practical engineering. Design projects promoted linking academic knowledge with real-world situations, sharing responsibilities and trusting colleagues, communicating engineering knowledge to technical and non-technical members of business communities, and addressing gaps in students' knowledge. With a curriculum analysis and survey of students' perceptions of the differences between design and conventional courses, I embedded the design classes in the wider campus and found that: (1) Engineering education conferred prestige, power, and well-paying jobs on students who performed "academic" engineering, while failing to adequately encourage "actual" engineering practices. High-status student engineers were the least likely to perform "actual" engineering in design teams. (2) Engineering education advanced an ideology that encouraged its practitioners to consider men's privilege and women's invisibility normal. By making "acting like men act" the standards to which engineering students must conform, women learned to put up with oppressive treatment. Women's accepting their own mistreatment and hiding their womanhood became a condition of women's belonging. (3) Despite all of the pressures to do otherwise, (some) teams of students (at all levels) carved out small oases where "actual" engineering prevailed and women's participation was robust. Students--not faculty, not progressive pedagogy, not "reformed" courses--disrupted prevailing norms. However, two women engineering students, one on each senior team, performed fabulous "actual" engineering, yet neither of them had a job when they graduated--the only two senior students on my teams without jobs.

Team 278 gets help from KSC machine shop

NASA Technical Reports Server (NTRS)

2000-01-01

The Hero Team (278) gets some help from a Kennedy Space Center research and development machine shop in repairing their robot, named Hero. The team of Edgewater High School students was co- sponsored by NASA Kennedy Space Center and Honeywell. Students from all over the country are at the KSC Visitor Complex for the FIRST (For Inspiration and Recognition of Science and Technology) Southeast Regional competition March 9-11 in the Rocket Garden. Teams of high school students are testing the limits of their imagination using robots they have designed, with the support of business and engineering professionals and corporate sponsors, to compete in a technological battle against other schools' robots. Of the 30 high school teams competing, 16 are Florida teams co- sponsored by NASA and KSC contractors. Local high schools participating are Astronaut, Bayside, Cocoa Beach, Eau Gallie, Melbourne, Melbourne Central Catholic, Palm Bay, Rockledge, Satellite, and Titusville.

Team 278 gets help from KSC machine shop

NASA Technical Reports Server (NTRS)

2000-01-01

The Hero Team (278) robot, named Hero, is repaired in a Kennedy Space Center research and development machine shop. The team of Edgewater High School students was co-sponsored by NASA Kennedy Space Center and Honeywell. Students from all over the country are at the KSC Visitor Complex for the FIRST (For Inspiration and Recognition of Science and Technology) Southeast Regional competition March 9-11 in the Rocket Garden. Teams of high school students are testing the limits of their imagination using robots they have designed, with the support of business and engineering professionals and corporate sponsors, to compete in a technological battle against other schools' robots. Of the 30 high school teams competing, 16 are Florida teams co-sponsored by NASA and KSC contractors. Local high schools participating are Astronaut, Bayside, Cocoa Beach, Eau Gallie, Melbourne, Melbourne Central Catholic, Palm Bay, Rockledge, Satellite, and Titusville.

Developing professional attributes in critical care nurses using Team-Based Learning.

PubMed

Currey, Judy; Eustace, Paula; Oldland, Elizabeth; Glanville, David; Story, Ian

2015-05-01

Australian nurses prepare for specialty practice by undertaking postgraduate theoretical and clinical education in partnership models between universities and hospitals. In our global healthcare system, nurses require advanced critical thinking and strong communication skills to provide safe, high quality patient care. Yet, few education programs focus on developing these skills. Team-Based Learning (TBL) is a specific educational strategy that encourages and rewards students to think critically and solve clinical problems individually and in teams. The aim of this study was to investigate critical care nursing students' perceptions and experiences of TBL after it was introduced into the second half of their postgraduate specialty course. Following Ethics Committee approval, thirty-two students were invited to participate in an extended response questionnaire on their perceptions of TBL as part of a larger study. Data were analyzed thematically. Postgraduate students perceived their professional growth was accelerated due to the skills and knowledge acquired through TBL. Four themes underpinned the development and accelerated acquisition of specialty nurse attributes due to TBL: Engagement, Learning Effectiveness, Critical Thinking, and Motivation to Participate. Team-Based Learning offered deep and satisfying learning experiences for students. The early acquisition of advanced critical thinking, teamwork and communication skills, and specialty practice knowledge empowered nurses to provide safe patient care with confidence. Copyright © 2015 Elsevier Ltd. All rights reserved.

Classroom Strategies That Facilitate Transfer of Learning to the Workplace.

ERIC Educational Resources Information Center

Gardner, Brenda S.; Korth, Sharon J.

1997-01-01

Describes a master's program in human resource development that uses experiential learning, transfer of learning, and team learning theories to maximize students' transfer of their formal training to the workplace. Activities include individual and group analysis papers and a team project. Students have found the group and experiential practice…

Examining Factors That Affect Students' Knowledge Sharing within Virtual Teams

ERIC Educational Resources Information Center

He, Jinxia; Gunter, Glenda

2015-01-01

The purpose of this study was to examine factors that might impact student knowledge sharing within virtual teams through online discussion boards. These factors include: trust, mutual influence, conflict, leadership, and cohesion. A path model was developed to determine whether relationships exist among knowledge sharing from asynchronous group…

Laying the Foundation for Successful Team Performance Trajectories: The Roles of Team Charters and Performance Strategies

ERIC Educational Resources Information Center

Mathieu, John E.; Rapp, Tammy L.

2009-01-01

This study examined the influences of team charters and performance strategies on the performance trajectories of 32 teams of master's of business administration students competing in a business strategy simulation over time. The authors extended existing theory on team development by demonstrating that devoting time to laying a foundation for…

The Administrative Team: Dynamism vs. Dysfunction

ERIC Educational Resources Information Center

Tyson, Nathan

2008-01-01

Before real success can come to any school, the administrative team must become a dynamic entity. The team and its ability to work within the school setting are fundamental to improving instruction and increasing student achievement. The team spirit that this group develops has ramifications on school climate that directly affect teachers,…

Development of Environmental Knowledge, Team Working Skills and Desirable Behaviors on Environmental Conservation of Matthayomsuksa 6 Students Using Good Science Thinking Moves Method with Metacognition Techniques

ERIC Educational Resources Information Center

Ladawan, Charinrat; Singseewo, Adisak; Suksringarm, Paitool

2015-01-01

The research aimed to investigate environmental knowledge, team working skills, and desirable behaviors of students learning through the good science thinking moves method with metacognition techniques. The sample group included Matthayomsuksa 6 students from Nadoon Prachasan School, Nadoon District, Maha Sarakham Province. The research tools were…

Geophysics field school: A team-based learning experience for students and faculty

NASA Astrophysics Data System (ADS)

Karchewski, B.; Innanen, K. A.; Lauer, R. M.; Pidlisecky, A.

2016-12-01

The core challenge facing a modern science educator is to deliver a curriculum that reaches broadly and deeply into the technical domain, while also helping students to develop fundamental scientific skills such as inquiry, critical thinking and technical communication. That is, our aim is for students to achieve significant learning at all levels summarized by Bloom's Taxonomy of Educational Objectives. It is not always clear how to achieve the full spectrum of goals, with much debate over which component is more important in a science education. Team-based and experiential learning are research-supported approaches that aim to reach across the spectrum by placing students in a setting where they solve practical problems in teams of peers. This learning mode modifies the role of the instructor to a guide or facilitator, and students take a leadership role in their own education. We present a case study of our team's implementation of team-based learning in a geophysics field school, an inherently experiential learning environment. The core philosophies behind our implementation are to present clearly defined learning outcomes, to recognize that students differ in their learning modalities and to strive to engage students through a range of evidence-based learning experiences. We discuss the techniques employed to create functional teams, the key learning activities involved in a typical day of field school and data demonstrating the learning activities that showed the strongest correlation to overall performance in the course. In the process, we also realized that our team-based approach to course design and implementation also enhanced our skillsets as educators, and our institution recently recognized our efforts with a team teaching award. Therefore, we conclude with some of our observations of best practices for team teaching in a field setting to initiate discussions with colleagues engaged in similar activities.

The use of team-based, guided inquiry learning to overcome educational disadvantages in learning human physiology: a structural equation model.

PubMed

Rathner, Joseph A; Byrne, Graeme

2014-09-01

The study of human bioscience is viewed as a crucial curriculum in allied health. Nevertheless, bioscience (and particularly physiology) is notoriously difficult for undergraduates, particularly academically disadvantaged students. So endemic are the high failure rates (particularly in nursing) that it has come to be known as "the human bioscience problem." In the present report, we describe the outcomes for individual success in studying first-year human physiology in a subject that emphasises team-based active learning as the major pedagogy for mastering subject learning outcomes. Structural equation modeling was used to develop a model of the impact team learning had on individual performance. Modeling was consistent with the idea that students with similar academic abilities (as determined by tertiary entrance rank) were advantaged (scored higher on individual assessment items) by working in strong teams (teams that scored higher in team-based assessments). Analysis of covariance revealed that students who studied the subject with active learning as the major mode of learning activities outperformed students who studied the subject using the traditional didactic teaching format (lectures and tutorials, P = 0.000). After adjustment for tertiary entrance rank (via analysis of covariance) on two individual tests (the final exam and a late-semester in-class test), individual student grades improved by 8% (95% confidence interval: 6-10%) and 12% (95% confidence interval: 10-14%) when students engaged in team-based active learning. These data quantitatively support the notion that weaker students working in strong teams can overcome their educational disadvantages. Copyright © 2014 The American Physiological Society.

The use of team-based, guided inquiry learning to overcome educational disadvantages in learning human physiology: a structural equation model

PubMed Central

Byrne, Graeme

2014-01-01

The study of human bioscience is viewed as a crucial curriculum in allied health. Nevertheless, bioscience (and particularly physiology) is notoriously difficult for undergraduates, particularly academically disadvantaged students. So endemic are the high failure rates (particularly in nursing) that it has come to be known as “the human bioscience problem.” In the present report, we describe the outcomes for individual success in studying first-year human physiology in a subject that emphasises team-based active learning as the major pedagogy for mastering subject learning outcomes. Structural equation modeling was used to develop a model of the impact team learning had on individual performance. Modeling was consistent with the idea that students with similar academic abilities (as determined by tertiary entrance rank) were advantaged (scored higher on individual assessment items) by working in strong teams (teams that scored higher in team-based assessments). Analysis of covariance revealed that students who studied the subject with active learning as the major mode of learning activities outperformed students who studied the subject using the traditional didactic teaching format (lectures and tutorials, P = 0.000). After adjustment for tertiary entrance rank (via analysis of covariance) on two individual tests (the final exam and a late-semester in-class test), individual student grades improved by 8% (95% confidence interval: 6–10%) and 12% (95% confidence interval: 10–14%) when students engaged in team-based active learning. These data quantitatively support the notion that weaker students working in strong teams can overcome their educational disadvantages. PMID:25179611

Development of Team Action Projects in Surgery (TAPS): a multilevel team-based approach to teaching quality improvement.

PubMed

Waits, Seth A; Reames, Bradley N; Krell, Robert W; Bryner, Benjamin; Shih, Terry; Obi, Andrea T; Henke, Peter K; Minter, Rebecca M; Englesbe, Michael J; Wong, Sandra L

2014-01-01

To meet the Accreditation Council for Graduate Medical Education core competency in Practice-Based Learning and Improvement, educational curricula need to address training in quality improvement (QI). We sought to establish a program to train residents in the principles of QI and to provide practical experiences in developing and implementing improvement projects. We present a novel approach for engaging students, residents, and faculty in QI efforts-Team Action Projects in Surgery (TAPS). Large academic medical center and health system. Multiple teams consisting of undergraduate students, medical students, surgery residents, and surgery faculty were assembled and QI projects developed. Using "managing to learn" Lean principles, these multilevel groups approached each project with robust data collection, development of an A3, and implementation of QI activities. A total of 5 resident led QI projects were developed during the TAPS pilot phase. These included a living kidney donor enhanced recovery protocol, consult improvement process, venous thromboembolism prophylaxis optimization, Clostridium difficile treatment standardization, and understanding variation in operative duration of laparoscopic cholecystectomy. Qualitative and quantitative assessment showed significant value for both the learner and stakeholders of QI related projects. Through the development of TAPS, we demonstrate a novel approach to addressing the increasing focus on QI within graduate medical education. Efforts to expand this multilevel team based approach would have value for teachers and learners alike. Copyright © 2014. Published by Elsevier Inc.

Teaching Clinical Ophthalmology: Medical Student Feedback on Team Case-Based Versus Lecture Format.

PubMed

Horne, Anupama; Rosdahl, Jullia

Team-based learning with case presentations in small groups in the medical school education setting allows students to be actively engaged and interactive with their peers to work through real-world clinical scenarios. Our objective is to assess the effects of this curriculum on the medical student experience. This study was designed to gather feedback from medical students on an ophthalmology elective regarding their experience with our newly developed team-based learning curriculum. Feedback evaluations were completed by medical students at the end of their elective and consisted of both a Likert scare rating and a free-response section. A total of 30 medical students. Students rated the case-based sessions significantly better than traditional lecture format with respect to the overall learning experience (p = 0.004), enjoyment of learning (p < 0.001), and increasing retention and ability to apply knowledge (p < 0.001). There is a strong preference by medical students for team-based learning within clinical ophthalmology. Copyright © 2017 Association of Program Directors in Surgery. Published by Elsevier Inc. All rights reserved.

Implementation of a team-based learning course: Work required and perceptions of the teaching team.

PubMed

Morris, Jenny

2016-11-01

Team-based learning was selected as a strategy to help engage pre-registration undergraduate nursing students in a second-year evidence-informed decision making course. To detail the preparatory work required to deliver a team-based learning course; and to explore the perceptions of the teaching team of their first experience using team-based learning. Descriptive evaluation. Information was extracted from a checklist and process document developed by the course leader to document the work required prior to and during implementation. Members of the teaching team were interviewed by a research assistant at the end of the course using a structured interview schedule to explore perceptions of first time implementation. There were nine months between the time the decision was made to use team-based learning and the first day of the course. Approximately 60days were needed to reconfigure the course for team-based learning delivery, develop the knowledge and expertise of the teaching team, and develop and review the resources required for the students and the teaching team. This reduced to around 12days for the subsequent delivery. Interview data indicated that the teaching team were positive about team-based learning, felt prepared for the course delivery and did not identify any major problems during this first implementation. Implementation of team-based learning required time and effort to prepare the course materials and the teaching team. The teaching team felt well prepared, were positive about using team-based learning and did not identify any major difficulties. Crown Copyright © 2016. Published by Elsevier Ltd. All rights reserved.

Peer mentored teams to support undergraduate group work in higher education

NASA Astrophysics Data System (ADS)

Cinderey, Lynn Elizabeth

This research starts with a set of practical research questions to investigate a problem which occurs in some computing undergraduate modules that use group work as part of the learning and assessment strategy. In this study final year students with experience in information systems project work and trained in team processes met with small groups of first year computing students with the aim of turning the first year project group into a team. This study seeks to explore the experience of the final year students as they take on the role of peer tutor looking at the problems they perceive within the first year teams and the skills and knowledge they use to help them. The study includes the recruitment and training of final year students (n=9) and allocation to first year teams. The final year students acted as co-researchers and team leaders in L4 Information Systems project work and recorded their thoughts and observations in a diary during the first semester of 2008/9 academic year. Diary data was supplemented by interview data from a sample of final year students (n=4). The sample was selected based on the richness of the data provided in the diaries and the number of meetings held with their teams. Rich data and thick descriptions were essential for a phenomenological examination of the experience of the final year students. A number of findings emerged. A critical approach to analysis revealed ongoing conflicts occurred across cultural divides within the first year teams that final year leaders did not articulate or appear fully aware of. This had important implications for individual team members. Other findings which relate to issues of changing levels of motivation in the teams over the ten weeks, roles adopted by the leaders, ability to systematize the project or team processes and the ability to reflect on unsuccessful strategies also had implications for peer mentoring training and support. The picture that emerged from the data suggested that lack of intercultural sensitivity and empathy within the student group reduces the value of peer mentoring interventions for some first year undergraduate team members in computing. In order to improve the experience for all students, methods to develop intercultural sensitivity within the student body are examined and a framework for training and support is proposed.

Integration of systematic clinical interprofessional training in a student-faculty collaborative primary care practice.

PubMed

Weinstein, Amy R; Dolce, Maria C; Koster, Megan; Parikh, Ravi; Hamlyn, Emily; A McNamara, Elizabeth; Carlson, Alexa; DiVall, Margarita V

2018-01-01

The changing healthcare environment and movement toward team-based care are contemporary challenges confronting health professional education. The primary care workforce must be prepared with recent national interprofessional competencies to practice and lead in this changing environment. From 2012 to 2014, the weekly Beth Israel Deaconess Crimson Care Collaborative Student-Faculty Practice collaborated with Northeastern University to develop, implement and evaluate an innovative model that incorporated interprofessional education into primary care practice with the goal of improving student understanding of, and ability to deliver quality, team-based care. In the monthly interprofessional clinic, an educational curriculum empowered students with evidence-based, team-based care principles. Integration of nursing, pharmacy, medicine, and masters of public health students and faculty into direct patient care, provided the opportunity to practice skills. The TeamSTEPPS® Teamwork Attitudes Questionnaire was administered pre- and post-intervention to assess its perceived impact. Seventeen students completed the post-intervention survey. Survey data indicated very positive attitudes towards team-based care at baseline. Significant improvements were reported in attitudes towards situation monitoring, limiting personal conflict, administration support and communication. However, small, but statistically significant declines were seen on one team structure and two communication items. Our program provides further evidence for the use of interprofessional training in primary care.

Service Learning for Medical Students: Program Development and Students' Reflections

ERIC Educational Resources Information Center

Yang, Shu-Huei; Shih, Chun-Kuang; Liu, Chu-Hsiu; Peng, Hsiang-Ting; Chan, Wing P.

2014-01-01

We designed a cross-disciplinary interdepartmental volunteer program, which involved student participation in "community care teams for the elderly living alone." Our aim was to enhance communication between students and the elderly. Students were expected to meet and learn to get along with the elderly, to develop listening and…

2010 NASA-AIHEC Summer Research Experience: Students and Teachers from TCUs Engage in GIS/Remote Sensing with Researchers and Scientists--Lessons Learned

NASA Astrophysics Data System (ADS)

Rock, B. N.; Carlson, M.; Mell, V.; Maynard, N.

2010-12-01

Researchers and scientists from the University of New Hampshire (UNH) and the Confederated Tribes of Grand Ronde joined with the National Aeronautics and Space Administration (NASA) to develop and present a Summer Research Experience (SRE) that trained 21 students and 10 faculty members from 9 of the 36 Tribal Colleges and Universities (TCUs) which comprise the American Indian Higher Education Council (AIHEC). The 10-week SRE program was an inquiry-based introduction to remote sensing, geographic information systems (GIS) and field science research methods. Teams of students and TCU faculty members developed research projects that explored climate change, energy development, contamination of water and air, fire damage in forests, and lost cultural resources on tribal lands. The UNH-Grand Ronde team presented SRE participants with an initial three-week workshop in the use of research tools and development of research projects. During the following seven weeks, the team conferred weekly with SRE participants to monitor and support their progress. Rock provided specific guidance on numerous scientific questions. Carlson coached students on writing and organization and provided laboratory analysis of foliar samples. Mell provided support on GIS technology. Eight of the SRE college teams completed substantial research projects by the end of the SRE while one other team developed a method for future research. Seventeen students completed individual research papers, oral presentations and posters. Nineteen students and all teachers maintained regular and detailed communication with the UNH-Grand Ronde mentors throughout the ten-week program. The SRE produced several significant lessons learned regarding outreach educational programs in inquiry-based science and technology applications. These include: Leadership by an active research scientist (Rock) inspired and supported students and teachers in developing their own scientific inquiries. An intensive schedule of expectations for each week of the 10-week SRE, a handbook of research tools, and regular coaching and encouragement stretched individual students to high levels of achievement. Daily meetings with TCU faculty during the initial 3-week training workshop and close communication during the 7-week follow-on provided each participating TCU with lasting professional development in research, use of technology, and strategies for mentoring research students. The inquiry-based approach gave each student a sense of ownership for their projects, a sense of place for native lands and resources, a sense of pride in accomplishments, and self-discovery of gaps in knowledge and skills. Students across a wide spectrum of skills and academic experience voiced a sense of achievement and an interest in learning more science.

Learning Cell Biology as a Team: A Project-Based Approach to Upper-Division Cell Biology

ERIC Educational Resources Information Center

Wright, Robin; Boggs, James

2002-01-01

To help students develop successful strategies for learning how to learn and communicate complex information in cell biology, we developed a quarter-long cell biology class based on team projects. Each team researches a particular human disease and presents information about the cellular structure or process affected by the disease, the cellular…

Career Development via Counselor/Teacher Teams; Guide for Implementation.

ERIC Educational Resources Information Center

Royal Oak City School District, MI.

The career development modules of the implementation guide, designed by counselor/teacher teams in Royal Oak, Michigan for junior high students, are intended to be used as a working copy for counselor/teacher teams. Career education concepts of self-awareness, assessment, and decision-making are correlated with the broad questions of: Who am I?…

Process Development in the Teaching Laboratory

NASA Astrophysics Data System (ADS)

Klein, Leonard C.; Dana, Susanne M.

1998-06-01

Many experiences in high school and undergraduate laboratories are well-tested cookbook recipes that have already been designed to yield optimal results; the well-known synthesis of aspirin is such an example. In this project for advanced placement or second-year high school chemistry students, students mimic the process development in industrial laboratories by investigating the effect of varying conditions in the synthesis of aspirin. The class decides on criteria that should be explored (quantity of catalyst, temperature of reaction, etc.). The class is then divided into several teams with each team assigned a variable to study. Each team must submit a proposal describing how they will explore the variable before they start their study. After data on yield and purity has been gathered and evaluated, students discuss which method is most desirable, based on their agreed-upon criteria. This exercise provides an opportunity for students to review many topics from the course (rate of reaction, limiting reagents, Beer's Law) while participating in a cooperative exercise designed to imitate industrial process development.

KSC00pp0349

NASA Image and Video Library

2000-03-10

The Hero Team (278) robot, named Hero, is repaired in a Kennedy Space Center research and development machine shop. The team of Edgewater High School students was co-sponsored by NASA Kennedy Space Center and Honeywell. Students from all over the country are at the KSC Visitor Complex for the FIRST (For Inspiration and Recognition of Science and Technology) Southeast Regional competition March 9-11 in the Rocket Garden. Teams of high school students are testing the limits of their imagination using robots they have designed, with the support of business and engineering professionals and corporate sponsors, to compete in a technological battle against other schools' robots. Of the 30 high school teams competing, 16 are Florida teams co-sponsored by NASA and KSC contractors. Local high schools participating are Astronaut, Bayside, Cocoa Beach, Eau Gallie, Melbourne, Melbourne Central Catholic, Palm Bay, Rockledge, Satellite, and Titusville

KSC-00pp0349

NASA Image and Video Library

2000-03-10

The Hero Team (278) robot, named Hero, is repaired in a Kennedy Space Center research and development machine shop. The team of Edgewater High School students was co-sponsored by NASA Kennedy Space Center and Honeywell. Students from all over the country are at the KSC Visitor Complex for the FIRST (For Inspiration and Recognition of Science and Technology) Southeast Regional competition March 9-11 in the Rocket Garden. Teams of high school students are testing the limits of their imagination using robots they have designed, with the support of business and engineering professionals and corporate sponsors, to compete in a technological battle against other schools' robots. Of the 30 high school teams competing, 16 are Florida teams co-sponsored by NASA and KSC contractors. Local high schools participating are Astronaut, Bayside, Cocoa Beach, Eau Gallie, Melbourne, Melbourne Central Catholic, Palm Bay, Rockledge, Satellite, and Titusville

KSC00pp0335

NASA Image and Video Library

2000-03-10

The Hero Team (278) robot, named Hero, is repaired in a Kennedy Space Center research and development machine shop. The team of Edgewater High School students was co-sponsored by NASA Kennedy Space Center and Honeywell. Students from all over the country are at the KSC Visitor Complex for the FIRST (For Inspiration and Recognition of Science and Technology) Southeast Regional competition March 9-11 in the Rocket Garden. Teams of high school students are testing the limits of their imagination using robots they have designed, with the support of business and engineering professionals and corporate sponsors, to compete in a technological battle against other schools' robots. Of the 30 high school teams competing, 16 are Florida teams co-sponsored by NASA and KSC contractors. Local high schools participating are Astronaut, Bayside, Cocoa Beach, Eau Gallie, Melbourne, Melbourne Central Catholic, Palm Bay, Rockledge, Satellite, and Titusville

NASA Planetary Science Summer School: Preparing the Next Generation of Planetary Mission Leaders

NASA Astrophysics Data System (ADS)

Lowes, L. L.; Budney, C. J.; Sohus, A.; Wheeler, T.; Urban, A.; NASA Planetary Science Summer School Team

2011-12-01

Sponsored by NASA's Planetary Science Division, and managed by the Jet Propulsion Laboratory, the Planetary Science Summer School prepares the next generation of engineers and scientists to participate in future solar system exploration missions. Participants learn the mission life cycle, roles of scientists and engineers in a mission environment, mission design interconnectedness and trade-offs, and the importance of teamwork. For this professional development opportunity, applicants are sought who have a strong interest and experience in careers in planetary exploration, and who are science and engineering post-docs, recent PhDs, and doctoral students, and faculty teaching such students. Disciplines include planetary science, geoscience, geophysics, environmental science, aerospace engineering, mechanical engineering, and materials science. Participants are selected through a competitive review process, with selections based on the strength of the application and advisor's recommendation letter. Under the mentorship of a lead engineer (Dr. Charles Budney), students select, design, and develop a mission concept in response to the NASA New Frontiers Announcement of Opportunity. They develop their mission in the JPL Advanced Projects Design Team (Team X) environment, which is a cross-functional multidisciplinary team of professional engineers that utilizes concurrent engineering methodologies to complete rapid design, analysis and evaluation of mission concept designs. About 36 students participate each year, divided into two summer sessions. In advance of an intensive week-long session in the Project Design Center at JPL, students select the mission and science goals during a series of six weekly WebEx/telecons, and develop a preliminary suite of instrumentation and a science traceability matrix. Students assume both a science team and a mission development role with JPL Team X mentors. Once at JPL, students participate in a series of Team X project design sessions, during which their mentors aid them in finalizing their mission design and instrument suite, and in making the necessary trade-offs to stay within the cost cap. Tours of JPL facilities highlight the end-to-end life cycle of a mission. At week's end, students present their Concept Study to a "proposal review board" of JPL scientists and engineers and NASA Headquarters executives, who feed back the strengths and weaknesses of their proposal and mission design. A survey of Planetary Science Summer School alumni administered in summer of 2011 provides information on the program's impact on students' career choices and leadership roles as they pursue their employment in planetary science and related fields. Preliminary results will be discussed during the session. Almost a third of the approximately 450 Planetary Science Summer School alumni from the last 10 years of the program are currently employed by NASA or JPL. The Planetary Science Summer School is implemented by the JPL Education Office in partnership with JPL's Team X Project Design Center.

NASA Planetary Science Summer School: Preparing the Next Generation of Planetary Mission Leaders

NASA Astrophysics Data System (ADS)

Budney, C. J.; Lowes, L. L.; Sohus, A.; Wheeler, T.; Wessen, A.; Scalice, D.

2010-12-01

Sponsored by NASA’s Planetary Science Division, and managed by the Jet Propulsion Laboratory, the Planetary Science Summer School prepares the next generation of engineers and scientists to participate in future solar system exploration missions. Participants learn the mission life cycle, roles of scientists and engineers in a mission environment, mission design interconnectedness and trade-offs, and the importance of teamwork. For this professional development opportunity, applicants are sought who have a strong interest and experience in careers in planetary exploration, and who are science and engineering post-docs, recent PhDs, and doctoral students, and faculty teaching such students. Disciplines include planetary science, geoscience, geophysics, environmental science, aerospace engineering, mechanical engineering, and materials science. Participants are selected through a competitive review process, with selections based on the strength of the application and advisor’s recommendation letter. Under the mentorship of a lead engineer (Dr. Charles Budney), students select, design, and develop a mission concept in response to the NASA New Frontiers Announcement of Opportunity. They develop their mission in the JPL Advanced Projects Design Team (Team X) environment, which is a cross-functional multidisciplinary team of professional engineers that utilizes concurrent engineering methodologies to complete rapid design, analysis and evaluation of mission concept designs. About 36 students participate each year, divided into two summer sessions. In advance of an intensive week-long session in the Project Design Center at JPL, students select the mission and science goals during a series of six weekly WebEx/telecons, and develop a preliminary suite of instrumentation and a science traceability matrix. Students assume both a science team and a mission development role with JPL Team X mentors. Once at JPL, students participate in a series of Team X project design sessions, during which their mentors aid them in finalizing their mission design and instrument suite, and in making the necessary trade-offs to stay within the cost cap. Tours of JPL facilities highlight the end-to-end life cycle of a mission. At week’s end, students present their Concept Study to a “proposal review board” of JPL scientists and engineers and NASA Headquarters executives, who feed back the strengths and weaknesses of their proposal and mission design. The majority of students come from top US universities with planetary science or engineering programs, such as Brown University, MIT, Georgia Tech, University of Colorado, Caltech, Stanford, University of Arizona, UCLA, and University of Michigan. Almost a third of Planetary Science Summer School alumni from the last 10 years of the program are currently employed by NASA or JPL. The Planetary Science Summer School is implemented by the JPL Education Office in partnership with JPL’s Team X Project Design Center.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here, students from Sycamore High School in Cincinnati, Ohio, help a NASA technician prepare their experiment. This image is from a digital still camera; higher resolution is not available.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Students from Sycamore High School in Cincinnati, Ohio (girls), and the COSI Academy, Columbus, Ohio (boys), participated. This image is from a digital still camera; higher resolution is not available.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here, students are briefed by NASA engineer Daniel Dietrich at the top of the drop tower. This image is from a digital still camera; higher resolution is not available.

Enhancing the Experience of Student Teams in Large Classes: Training Teaching Assistants to Be Coaches

ERIC Educational Resources Information Center

Sargent, Leisa D.; Allen, Belinda C.; Frahm, Jennifer A.; Morris, Gayle

2009-01-01

To address the increasing demand for mass undergraduate management education and, at the same time, a greater emphasis on student teamwork, this study outlines the development, delivery, and evaluation of a training intervention designed to build team-coaching skills in teaching assistants. Specifically, "practice-centered" and…

Undergraduate Social Work Students' Perceptions of a Team-Based Learning Approach to Exploring Adult Development

ERIC Educational Resources Information Center

Watkins, Karen; Forge, Nicholas; Lewinson, Terri; Garner, Brittany; Carter, Larance D.; Greenwald, Lindsay

2018-01-01

Social work educators are challenged to adopt innovative instructional methods and pedagogies to prepare students to meet the contemporary needs of diverse client populations. A team-based learning (TBL) approach is a pedagogical strategy that utilizes cooperative and collaborative learning principles to inspire academic, professional, and…

Academic Competitions Serve the U.S. National Interests

ERIC Educational Resources Information Center

Campbell, James Reed; Verna, Marilyn Ann

2010-01-01

Competitions are used by many teachers at the grass roots level to develop the talents of their gifted students. Each year the top Math, Chemistry, and Physics Olympiad students are identified and assembled into national teams that compete against teams from around the world. This article summarizes findings from the American Olympiad study. Our…

Examining Factors that Affect Knowledge Sharing and Students' Attitude toward Their Learning Experience within Virtual Teams

ERIC Educational Resources Information Center

He, Jinxia

2009-01-01

This study examined factors that might impact student knowledge sharing within virtual teams through online discussion boards. These factors included: trust, mutual influence, conflict, leadership, and cohesion. A path model was developed to determine whether relationships exist among knowledge sharing from asynchronous group discussion and the…

The Advanced Interdisciplinary Research Laboratory: A Student Team Approach to the Fourth-Year Research Thesis Project Experience

ERIC Educational Resources Information Center

Piunno, Paul A. E.; Boyd, Cleo; Barzda, Virginijus; Gradinaru, Claudiu C.; Krull, Ulrich J.; Stefanovic, Sasa; Stewart, Bryan

2014-01-01

The advanced interdisciplinary research laboratory (AIRLab) represents a novel, effective, and motivational course designed from the interdisciplinary research interests of chemistry, physics, biology, and education development faculty members as an alternative to the independent thesis project experience. Student teams are assembled to work…

Communication Skills to Develop Trusting Relationships on Global Virtual Engineering Capstone Teams

ERIC Educational Resources Information Center

Zaugg, Holt; Davies, Randall S.

2013-01-01

As universities seek to provide cost-effective, cross-cultural experiences using global virtual (GV) teams, the "soft" communication skills typical of all teams, increases in importance for GV teams. Students need to be taught how to navigate through cultural issues and virtual tool issues to build strong trusting relationships with…

A Method to Improve Learning Analysing Communication in Team Working

ERIC Educational Resources Information Center

Bermejo, Miren; Sanchez, Ana; Gutierrez, Julian; Perez, Tomas A.

2011-01-01

In recent years learning how to work in teams has become a common subject in higher education. Communication between student team members can be monitored using a bulletin board system, and hence, analyse individual and group role development. The composition and distribution of roles in a team are relevant characteristics that will considerably…

NEWS Ltd.: Simulations for Trust Development.

ERIC Educational Resources Information Center

Ruhe, John A.; Allen, William R.

2001-01-01

Examines some of the unique problems faced by global teams and describes two simulations that have been successfully used to assist students in understanding key elements in effective global and cross-cultural team management. The first simulation focuses on a virtual global team situation; the second, using the same teams at a later date, expands…

For Free: Continuity and Change by Team Teaching

ERIC Educational Resources Information Center

Liebel, Grischa; Burden, Håkan; Heldal, Rogardt

2017-01-01

Team teaching is advocated in education to offer students multiple explanations to complex concepts and to improve teacher development. However, team teaching is typically associated with high staff cost due to the increased amount of teachers involved. The authors argue that team teaching can be conducted in a cheap way by including novice…

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. NASA and contractor personnel who conducted the DIME activity with the students. Shown (L-R) are: Eric Baumann (NASA, 2.2-second Drop Tower Facility manager), Daniel Dietrich (NASA) mentor for Sycamore High School team), Carol Hodanbosi (National Center for Microgravity Research; DIME staff), Richard DeLombard (NASA; DIME staff), Jose Carrion (GRC Akima, drop tower technician), Dennis Stocker (NASA; DIME staff), Peter Sunderland (NCMR, mentor for COSI Academy student team), Sandi Thompson (NSMR sabbatical teacher; DIME staff), Dan Woodard (MASA Microgravity Outreach Program Manager), Adam Malcolm (NASA co-op student; DIME staff), Carla Rosenberg (NCMR; DIME staff), and Twila Schneider (Infinity Technology; NASA Microgravity Research program contractor). This image is from a digital still camera; higher resolution is not available.

Further development of pharmacy student-facilitated diabetes management clinics.

PubMed

Nuffer, Wesley; McCollum, Marianne; Ellis, Samuel L; Turner, Christopher J

2012-04-10

To further develop and evaluate a diabetes disease state management (DSM) program that provided direct patient care responsibilities to advanced pharmacy practice experience (APPE) students as members of healthcare teams. Nine new clinics and 3 established sites that provide self-care management education to patients with diabetes were established and maintained in rural Colorado pharmacies and supported by students in APPE training for 48 weeks per year. The 12 clinics provided 120 APPE student placements in 2010-2011. Students' perceptions of their experiences were positive. Patients who completed the student-supported diabetes self-management education program had improvements in blood glucose, blood pressure, and lipid values. Twelve diabetes DSM clinics provided direct patient care opportunities to APPE students working as part of healthcare teams while expanding healthcare resources in underserved communities in Colorado.

Performance and Perceptions of Student Teams Created and Stratified Based on Academic Abilities.

PubMed

Camiel, Lana Dvorkin; Kostka-Rokosz, Maria; Tataronis, Gary; Goldman, Jennifer

2017-04-01

Objective. To compare student performance, elements of peer evaluation and satisfaction of teams created according to students' course entrance grade point average (GPA). Methods. Two course sections were divided into teams of four to five students utilizing Comprehensive Assessment of Team Member Effectiveness (CATME) software. Results. Of 336 students enrolled, 324 consented to participation. Weekly team quiz averages were 99.1% (higher GPA), 97.2% (lower GPA), 97.7% (mixed GPA). Weekly individual quiz averages were 87.2% (higher GPA), 83.3% (lower GPA), 85.2% (mixed GPA). Students with same GPA performed similarly individually independent of team assignment. Satisfaction ranged from 4.52 (higher GPA), 4.73 (lower GPA), 4.53 (mixed GPA). Conclusion. Academically stronger students in mixed GPA teams appeared to be at a slight disadvantage compared to similar students in higher GPA teams. There was no difference in team performance for academically weaker students in lower GPA versus mixed GPA teams. Team satisfaction was higher in lower GPA teams.

A medical student leadership course led to teamwork, advocacy, and mindfulness.

PubMed

Warde, Carole M; Vermillion, Michelle; Uijtdehaage, Sebastian

2014-06-01

Many medical trainees seek work among underserved communities but may be unprepared to cope with the challenges. Relationship-centered qualities have been shown to promote physician resilience and prevent burnout. The UCLA-PRIME program aims to prepare medical students to work among vulnerable groups and begins with a 3-week leadership course. We describe this course and share lessons with those seeking to foster leadership, advocacy, and resiliency in our future physician workforce. Twenty students participated in our curriculum that emphasized five competencies: leadership, advocacy, teamwork, mindfulness, and self-care. Course activities complemented the students' work as they developed a community outreach project. They assessed and reflected on their leadership, relationship, and team behaviors, were coached to improve these, learned mindfulness meditation, and participated in community forums. Our evaluation assessed course quality, project completion, leadership, mindfulness, and team relational coordination. Students were very satisfied with all aspects of the course. They designed a medical student elective addressing the health challenges of an incarcerated and formerly incarcerated population. While we found no change in leadership practices scores, students had high team relational coordination scores and improved mindfulness scores upon course completion. Our course to develop medical students as resilient leaders, team members, and advocates for medically underserved groups consisted of a community-based service project, coupled with a facilitated relationship-centered curriculum. It promoted qualities in students that characterize effective and resilient physician leaders; they were more mindful, related to each other effectively, and coordinated their activities well with one another.

InTeGrate's model for developing innovative, adaptable, interdisciplinary curricular materials that reach beyond the geosciences

NASA Astrophysics Data System (ADS)

Egger, A. E.; Baldassari, C.; Bruckner, M. Z.; Iverson, E. A.; Manduca, C. A.; Mcconnell, D. A.; Steer, D. N.

2013-12-01

InTeGrate is NSF's STEP Center in the geosciences. A major goal of the project is to develop curricula that will increase the geoscience literacy of all students such that they are better positioned to make sustainable decisions in their lives and as part of the broader society. This population includes the large majority of students that do not major in the geosciences, those historically under-represented in the geosciences, and future K-12 teachers. To achieve this goal, we established a model for the development of curricular materials that draws on the distributed expertise of the undergraduate teaching community. Our model seeks proposals from across the higher education community for courses and modules that meet InTeGrate's overarching goals. From these proposals, we select teams of 3-5 instructors from three or more different institutions (and institution types) and pair them with assessment and web experts. Their communication and development process is supported by a robust, web-based content management system (CMS). Over two years, this team develops materials that explicitly address a geoscience-related societal challenge, build interdisciplinary problem-solving skills, make use of real geoscience data, and incorporate geoscientific and systems thinking. Materials are reviewed with the InTeGrate design rubric and then tested by the authors in their own courses, where student learning is assessed. Results are reviewed by the authors and our assessment team to guide revisions. Several student audiences are targeted: students in general education and introductory geoscience courses, pre-service K-12 teachers, students in other science and engineering majors, as well as those in the humanities and social sciences. Curriculum development team members from beyond the geosciences are critical to producing materials that can be adopted for all of these audiences, and we have been successful in engaging faculty from biology, economics, engineering, sociology, Spanish, and other disciplines. In its first year, InTeGrate engaged 20 individuals from 17 different institutions on materials development teams. During interviews and responses to open-ended survey questions, first-year team members provided feedback about the challenges and successes of the model. Several described that the materials design rubric was a useful tool in guiding their work and pushed them in directions they may not have otherwise gone. Most responded that working as part of a team with members from different institutions created numerous challenges, but was ultimately beneficial in sharing ideas and resulted in a better product. Other key components to model success are the development of resources by the web experts to support use of the CMS and frequent feedback from the assessment team. All feedback was used to refine the model for the second year, during which 56 additional authors have begun to develop materials. By engaging this broad and diverse community in innovative curriculum development, we anticipate widespread adoption of InTeGrate materials.

Leadership and teamwork in medical emergencies: performance of nursing students and registered nurses in simulated patient scenarios.

PubMed

Endacott, Ruth; Bogossian, Fiona E; Cooper, Simon J; Forbes, Helen; Kain, Victoria J; Young, Susan C; Porter, Joanne E

2015-01-01

To examine nursing students' and registered nurses' teamwork skills whilst managing simulated deteriorating patients. Studies continue to show the lack of timely recognition of patient deterioration. Management of deteriorating patients can be influenced by education and experience. Mixed methods study conducted in two universities and a rural hospital in Victoria, and one university in Queensland, Australia. Three simulation scenarios (chest pain, hypovolaemic shock and respiratory distress) were completed in teams of three by 97 nursing students and 44 registered nurses, equating to a total of 32 student and 15 registered nurse teams. Data were obtained from (1) Objective Structured Clinical Examination rating to assess performance; (2) Team Emergency Assessment Measure scores to assess teamwork; (3) simulation video footage; (4) reflective interview during participants' review of video footage. Qualitative thematic analysis of video and interview data was undertaken. Objective structured clinical examination performance was similar across registered nurses and students (mean 54% and 49%); however, Team Emergency Assessment Measure scores differed significantly between the two groups (57% vs 38%, t = 6·841, p < 0·01). In both groups, there was a correlation between technical (Objective Structured Clinical Examination) and nontechnical (Team Emergency Assessment Measure) scores for the respiratory distress scenario (student teams: r = 0·530, p = 0·004, registered nurse teams r = 0·903, p < 0·01) and hypovolaemia scenario (student teams: r = 0·534, p = 0·02, registered nurse teams: r = 0·535, p = 0·049). Themes generated from the analysis of the combined quantitative and qualitative data were as follows: (1) leadership and followership behaviours; (2) help-seeking behaviours; (3) reliance on previous experience; (4) fixation on a single detail; and (5) team support. There is scope to improve leadership, team work and task management skills for registered nurses and nursing students. Simulation appears to be beneficial in enabling less experienced staff to assess their teamwork skills. There is a need to encourage less experienced staff to become leaders and for all staff to develop improved teamwork skills for medical emergencies. © 2014 John Wiley & Sons Ltd.

Alignment of an interprofessional student learning experience with a hospital quality improvement initiative.

PubMed

Fowler, Terri O; Wise, Holly H; Mauldin, Mary P; Ragucci, Kelly R; Scheurer, Danielle B; Su, Zemin; Mauldin, Patrick D; Bailey, Jennifer R; Borckardt, Jeffrey J

2018-04-11

Assessment of interprofessional education (IPE) frequently focuses on students' learning outcomes including changes in knowledge, skills, and/or attitudes. While a foundational education in the values and information of their chosen profession is critical, interprofessional learning follows a continuum from formal education to practice. The continuum increases in significance and complexity as learning becomes more relationship based and dependent upon the ability to navigate complex interactions with patients, families, communities, co-workers, and others. Integrating IPE into collaborative practice is critical to enhancing students' experiential learning, developing teamwork competencies, and understanding the complexity of teams. This article describes a project that linked students with a hospital-based quality-improvement effort to focus on the acquisition and practice of teamwork skills and to determine the impact of teamwork on patient and quality outcome measures. A hospital unit was identified with an opportunity for improvement related to quality care, patient satisfaction, employee engagement, and team behaviours. One hundred and thirty-seven students from six health profession colleges at the Medical University of South Carolina underwent TeamSTEPPS® training and demonstrated proficiency of their teamwork-rating skills with the TeamSTEPPS® Team Performance Observation Tool (T-TPO). Students observed real-time team behaviours of unit staff before and after staff attended formal TeamSTEPPS® training. The students collected a total of 778 observations using the T-TPO. Teamwork performance on the unit improved significantly across all T-TPO domains (team structure, communication, leadership, situation monitoring, and mutual support). Significant improvement in each domain continued post-intervention and at 15-month follow-up, improvement remained significant compared to baseline. Student engagement in TeamSTEPPS® training and demonstration of their reliability as teamwork-observers was a valuable learning experience and also yielded an opportunity to gather unique, and otherwise difficult to attain, data from a hospital unit for use by quality managers and administrators.

Dynamic Response of the Environment at the Moon (DREAM): Providing Opportunities for Students and Teachers to Learn About the Solar-lunar Environmental Connection

NASA Astrophysics Data System (ADS)

Bleacher, L.; Weir, H. M.; Twu, Y.; Farrell, W. M.; Gross, N. A.

2009-12-01

The Dynamic Response of the Environment at the Moon (DREAM) team is one of seven teams comprising the NASA Lunar Science Institute. DREAM’s goal is to reveal, advance, and test the extremes of the solar-lunar environmental connection. DREAM’s education and outreach (E/PO) program is focused on student and teacher participation with scientists. The primary component of the DREAM E/PO program is two Lunar Extreme Workshops (LEWs) and the supporting materials developed for each LEW. The workshops will bring together scientists and modelers from the DREAM team with advanced high school and/or community college students and their teachers. The LEWs will allow student/teacher participants to interact directly with the scientists and to experience the process of science in action. Participation in LEWs and pre-LEW training will expose students to science, technology, engineering, and math (STEM) careers and engage them in learning new STEM content. During the two LEWs, the new, integrated lunar models developed by the DREAM team will be tested using extreme environmental drivers. These extreme events include: 1) solar storms and human excursion into Shackleton Crater and 2) human activity/lunar excavation and impact cratering. Although the LEWs will be complex in nature, the students and teachers will receive extensive pre-LEW training via access to online curricular resources already in development and Webinars with DREAM science team members, during which the students/teachers will get to know the team members and put their new knowledge into context. The curricular materials will include resources and activities pertaining to space weather, plasma, electricity, circuits, magnetism, magnetospheres, exospheres, impact cratering, and modeling. The activities are being mapped to the National Science Education Standards and the American Association for the Advancement of Science’s Benchmarks for Science Literacy. Students will be encouraged to read and review resources on their own and to meet with their teacher at least every other week as a group for review, instruction, activities, and participation in Webinars with DREAM scientists. Pre-LEW training will begin approximately 6 months prior to each LEW. Students will be required to blog about their experiences during the LEWs and pre-LEW training. Along with the curricular materials and Webinars, these blogs will be made publicly accessible so that other students and the public may share in their experiences. The E/PO team also plans to communicate the excitement of DREAM’s efforts to the general public via the NASA Museum Alliance and social media, such as Facebook.

Incentive structure in team-based learning: graded versus ungraded Group Application exercises.

PubMed

Deardorff, Adam S; Moore, Jeremy A; McCormick, Colleen; Koles, Paul G; Borges, Nicole J

2014-04-21

Previous studies on team-based learning (TBL) in medical education demonstrated improved learner engagement, learner satisfaction, and academic performance; however, a paucity of information exists on modifications of the incentive structure of "traditional" TBL practices. The current study investigates the impact of modification to conventional Group Application exercises by examining student preference and student perceptions of TBL outcomes when Group Application exercises are excluded from TBL grades. During the 2009-2010 and 2010-2011 academic years, 175 students (95.6% response rate) completed a 22-item multiple choice survey followed by 3 open response questions at the end of their second year of medical school. These students had participated in a TBL supplemented preclinical curriculum with graded Group Application exercises during year one and ungraded Group Application exercises during year two of medical school. Chi-square analyses showed significant differences between grading categories for general assessment of TBL, participation and communication, intra-team discussion, inter-team discussion, student perceptions of their own effort and development of teamwork skills. Furthermore, 83.8% of students polled prefer ungraded Group Application exercises with only 7.2% preferring graded and 9.0% indicating no preference. The use of ungraded Group Application exercises appears to be a successful modification of TBL, making it more "student-friendly" while maintaining the goals of active learning and development of teamwork skills.

Integrating Public Health and Health Promotion Practice in the Medical Curriculum: A Self-Directed Team-Based Project Approach.

PubMed

Kershaw, Geraldine; Grivna, Michal; Elbarazi, Iffat; AliHassan, Souheila; Aziz, Faisal; Al Dhaheri, Aysha Ibrahim

2017-01-01

Preparing health professionals in health promotion (HP) and disease prevention is essential for improvement of population health, community HP, and better health care for individuals. The aim of this article is to describe an HP project in the form of a major self-directed project-based learning task integrated within the curriculum in the second year of the medical degree program at United Arab Emirates University. The project introduces students to public health and HP practice and develops students' literature searching, writing, presentation skills, and team work. Students learn the principles underlying behavioral change, and the design of HP programs and materials, through a lecture format. Small groups of students each choose a specific health topic for their project. Over 11 weeks, students obtain information about their topic from appropriate sources (library, PubMed, Google Scholar, credible health sources such as World Health Organization). Using the principles learned in the lectures, they develop appropriate materials for their target audience: for example, posters, a pamphlet, social media content, or a video or radio message. Students seek advice from specialist faculty as needed. In week 12, each team presents their project background, rationale, and materials to their colleagues in a seminar format open to all faculty. They then submit the materials they developed for assessment. Group marks are assigned for presentations and materials. Key concepts are assessed by multiple choice questions in comprehensive course examinations. By participation in the HP project, many students develop a solid background in prevention. The information retrieval, writing, and presentation skills, as well as experience of team work, are valuable both for the remaining years of their training and their future careers.

Making Teamwork Work: Team Knowledge for Team Effectiveness.

PubMed

Guchait, Priyanko; Lei, Puiwa; Tews, Michael J

2016-01-01

This study examined the impact of two types of team knowledge on team effectiveness. The study assessed the impact of taskwork knowledge and teamwork knowledge on team satisfaction and performance. A longitudinal study was conducted with 27 service-management teams involving 178 students in a real-life restaurant setting. Teamwork knowledge was found to impact both team outcomes. Furthermore, team learning behavior was found to mediate the relationships between teamwork knowledge and team outcomes. Educators and managers should therefore ensure these types of knowledge are developed in teams along with learning behavior for maximum effectiveness.

Using Team-based Learning to teach a Large-enrollment Environmental Science Course Online

NASA Astrophysics Data System (ADS)

Harder, V.

2013-12-01

Student enrollment in many online courses is usually limited to small classes, ranging from 20-25 students. Over two summers Environmental Science 1301, with an enrollment of 50, has been piloted online using team-based learning (TBL) methods. Teams, consisting of 7 members, were assigned randomly using the group manager tool found in the learning management system. The course was organized around Learning Modules, which consisted of a quiz (individual) over the reading, a team assignment, which covered a topic from one of the chapters was completed for each learning module, and a class/group discussion. The discussion usually entailed a presentation of findings to the class by each team. This allowed teams to interact with one another and was also designed to encourage competition among the teams. Over the course of the class it was observed that as the students became comfortable with the course procedures they developed a commitment to the goals and welfare of their team. They found that as a team they could accomplish much more than an individual; they discovered strengths in their team mates that they, themselves, lacked, and they helped those team mates who struggled with the material. The teams tackled problems that would be overwhelming to an individual in the time allotted, such as running multiple scenarios with the simulations and tackling a large amount of data. Using TBL shifted the majority of responsibility of learning the material to the student with the instructor functioning as a facilitator instead of dispenser of knowledge. Dividing the class into teams made the course load manageable for the instructor while at the same time created a small-class environment for the students. In comparing this course to other, nonTBL-based online courses taught, the work load was very manageable. There were only 7-10 items to be graded per Learning Module and only 7-10 teams to monitor and provide guidance to instead of 50 individuals. Retention rates (86%) were much higher for this course than for nonTBL-based online courses taught by the same instructor and students didn't fall behind.

Jefferson Teamwork Observation Guide (JTOG): An Instrument to Observe Teamwork Behaviors.

PubMed

Lyons, Kevin J; Giordano, Carolyn; Speakman, Elizabeth; Smith, Kellie; Horowitz, June A

2016-01-01

Interprofessional education (IPE) is becoming an integral part of the education of health professions students. However, teaching students to become successful members of interprofessional teams is complex, and it is important for students to learn the combinations of skills necessary for teams to function effectively. There are many instruments available to measure many features related to IPE. However, these instruments are often too cumbersome to use in an observational situation since they tend to be lengthy and contain many abstract characteristics that are difficult to identify. The Jefferson Teamwork Observation Guide (JTOG) is a short tool that was created for students early in their educational program to observe teams in action with a set of guidelines to help them focus their observation on behaviors indicative of good teamwork. The JTOG was developed over a 2-year period based on student and clinician feedback and the input of experts in IPE. While initially developed as a purely educational tool for prelicensure students, it is becoming clear that it is an easy-to-use instrument that assesses the behavior of clinicians in practice.

Performance and Perceptions of Student Teams Created and Stratified Based on Academic Abilities

PubMed Central

Kostka-Rokosz, Maria; Tataronis, Gary; Goldman, Jennifer

2017-01-01

Objective. To compare student performance, elements of peer evaluation and satisfaction of teams created according to students’ course entrance grade point average (GPA). Methods. Two course sections were divided into teams of four to five students utilizing Comprehensive Assessment of Team Member Effectiveness (CATME) software. Results. Of 336 students enrolled, 324 consented to participation. Weekly team quiz averages were 99.1% (higher GPA), 97.2% (lower GPA), 97.7% (mixed GPA). Weekly individual quiz averages were 87.2% (higher GPA), 83.3% (lower GPA), 85.2% (mixed GPA). Students with same GPA performed similarly individually independent of team assignment. Satisfaction ranged from 4.52 (higher GPA), 4.73 (lower GPA), 4.53 (mixed GPA). Conclusion. Academically stronger students in mixed GPA teams appeared to be at a slight disadvantage compared to similar students in higher GPA teams. There was no difference in team performance for academically weaker students in lower GPA versus mixed GPA teams. Team satisfaction was higher in lower GPA teams. PMID:28496267

KSC-00pp0334

NASA Image and Video Library

2000-03-10

The Hero Team (278) gets some help from a Kennedy Space Center research and development machine shop in repairing their robot, named Hero. The team of Edgewater High School students was co-sponsored by NASA Kennedy Space Center and Honeywell. Students from all over the country are at the KSC Visitor Complex for the FIRST (For Inspiration and Recognition of Science and Technology) Southeast Regional competition March 9-11 in the Rocket Garden. Teams of high school students are testing the limits of their imagination using robots they have designed, with the support of business and engineering professionals and corporate sponsors, to compete in a technological battle against other schools' robots. Of the 30 high school teams competing, 16 are Florida teams co-sponsored by NASA and KSC contractors. Local high schools participating are Astronaut, Bayside, Cocoa Beach, Eau Gallie, Melbourne, Melbourne Central Catholic, Palm Bay, Rockledge, Satellite, and Titusville

Coaching Tutors to Observe and Regulate Leadership in PBL Student Teams or You Can Lead a Horse to Water but You Can't Make It Drink…

ERIC Educational Resources Information Center

O'Shea, Noreen; Verzat, Caroline; Raucent, Benoit; Ducarme, Delphine; Bouvy, Thérèse; Herman, Benoit

2013-01-01

The purpose of this paper is to investigate how PBL student teams develop specific leadership configurations when implementing interdisciplinary projects and whether or not tutors help in dealing with the group interactions that are subsequently generated. The data set was drawn from 2 cohorts of first-year students engaged in PBL activities in an…

Seeking a Balance in International Trade: Pacific Rim Import-Export Transactions. Grade 12 Lesson. Schools of California Online Resources for Education (SCORE): Connecting California's Classrooms to the World.

ERIC Educational Resources Information Center

O'Connor, Robert

In this lesson, student teams roleplay an import-export company's purchasing department. Students consider the reasons for the U.S. trade deficit and develop a plan to help their company achieve an import-export balance. Teams will research international trade and economic issues that impact trade balance. Students are provided with background…

Managing Communication within Virtual Intercultural Teams.

ERIC Educational Resources Information Center

Grosse, Christine Uber

2002-01-01

Suggests that business students need to be prepared to manage the communication of intercultural teams. Discusses strategies for success such as: developing a network of good relationships built on trust and understanding; showing respect for other cultures and languages; and understanding how diversity strengthens the team. (SG)

Improving collaborative learning in online software engineering education

NASA Astrophysics Data System (ADS)

Neill, Colin J.; DeFranco, Joanna F.; Sangwan, Raghvinder S.

2017-11-01

Team projects are commonplace in software engineering education. They address a key educational objective, provide students critical experience relevant to their future careers, allow instructors to set problems of greater scale and complexity than could be tackled individually, and are a vehicle for socially constructed learning. While all student teams experience challenges, those in fully online programmes must also deal with remote working, asynchronous coordination, and computer-mediated communications all of which contribute to greater social distance between team members. We have developed a facilitation framework to aid team collaboration and have demonstrated its efficacy, in prior research, with respect to team performance and outcomes. Those studies indicated, however, that despite experiencing improved project outcomes, students working in effective software engineering teams did not experience significantly improved individual achievement. To address this deficiency we implemented theoretically grounded refinements to the collaboration model based upon peer-tutoring research. Our results indicate a modest, but statistically significant (p = .08), improvement in individual achievement using this refined model.

Improving Teacher Education in the Netherlands: Data Team as Learning Team?

ERIC Educational Resources Information Center

Bolhuis, E. D.; Schildkamp, K.; Voogt, J. M.

2016-01-01

Using data in a professional learning community is a promising form of professional development. In this study, we followed a data team of teacher educators, who systematically tried to improve the education of student teachers (by decreasing first year drop-out). By conducting a single case study, we investigated the data team participants'…

Developing Multidisciplinary Teams to Assess Family Needs and Envision Services.

ERIC Educational Resources Information Center

Arms, Karen G.

This paper describes a graduate seminar designed to provide a multidisciplinary student group with the experience of using a team approach for assessing group family needs, conceptualizing a services and self-support model for meeting those needs, and articulating the model in a grant proposal. A summary of course goals and student requirements is…

Design and Data in Balance: Using Design-Driven Decision Making to Enable Student Success

ERIC Educational Resources Information Center

Fairchild, Susan; Farrell, Timothy; Gunton, Brad; Mackinnon, Anne; McNamara, Christina; Trachtman, Roberta

2014-01-01

Data-driven approaches to school decision making have come into widespread use in the past decade, nationally and in New York City. New Visions has been at the forefront of those developments: in New Visions schools, teacher teams and school teams regularly examine student performance data to understand patterns and drive classroom- and…

MTF Database: A Repository of Students' Academic Performance Measurements for the Development of Techniques for Evaluating Team Functioning

ERIC Educational Resources Information Center

Hsiung, Chin-Min; Zheng, Xiang-Xiang

2015-01-01

The Measurements for Team Functioning (MTF) database contains a series of student academic performance measurements obtained at a national university in Taiwan. The measurements are acquired from unit tests and homework tests performed during a core mechanical engineering course, and provide an objective means of assessing the functioning of…

A Qualitative Exploration of the Influence a Simulated Virtual Team Learning Experience Had on Business School Students' Leadership Competencies

ERIC Educational Resources Information Center

Standard Smith, Kristy

2008-01-01

The purpose of this qualitative study was to explore the influence a simulated virtual team learning experience had on business school students' leadership competencies. The researcher sought to discover the relationship between filling the leadership role in the simulated virtual environment and developing leadership competencies. A…

Team-Based Learning in the Gross Anatomy Laboratory Improves Academic Performance and Students' Attitudes toward Teamwork

ERIC Educational Resources Information Center

Huitt, Tiffany W.; Killins, Anita; Brooks, William S.

2015-01-01

As the healthcare climate shifts toward increased interdisciplinary patient care, it is essential that students become accomplished at group problem solving and develop positive attitudes toward teamwork. Team-based learning (TBL) has become a popular approach to medical education because of its ability to promote active learning, problem-solving…

Dropping In a Microgravity Environment (DIME) contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here, students from Sycamore High School in Cincinnati, Ohio, help a NASA technician prepare their experiment. This image is from a digital still camera; higher resolution is not available.

Dropping In a Microgravity Environment (DIME) contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here, students are briefed by NASA engineer Daniel Dietrich at the top of the drop tower. This image is from a digital still camera; higher resolution is not available.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. This is the interior of the Sycamore High School (Cincinnati, Ohio) students' experiment to observe the flame spreading on a 100 percent cotton T-shirt under low-g. This image is from a digital still camera; higher resolution is not available.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here students from Sycamore High School in Cincinnati, Ohio, talk with Dr. Dennis Stocker, one of Glenn's lead microgravity scientists, about the uses of the drop tower. This image is from a digital still camera; higher resolution is not available.

Dropping In a Microgravity Environment (DIME) Contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Students from Sycamore High School in Cincinnati, Ohio (girls), and the COSI Academy, Columbus, Ohio (boys), participated. This image is from a digital still camera; higher resolution is not available.

Design of a professional development and support program for future photonics industry team leaders

NASA Astrophysics Data System (ADS)

Hall-Wallace, Michelle; Regens, Nancy L.; Pompea, Stephen M.

2002-05-01

The University of Arizona's Collaboration to Advance Teaching Technology and Science (CATTS) program sponsored by the National Science Foundation has found a successful way to unite public and charter school students and teachers, university science outreach programs, graduate and undergraduate students, and university faculty for the betterment of science education. A key aspect of this success has been the ability of the project to assist stakeholders in understanding the different cultural perspectives of all of the participants. The success of this program has led us to create a template for a professional development and support program emphasizing the degree of cross-cultural understanding appropriate for today's multinational photonics industry. This template is designed to give future photonics technical, managerial, and manufacturing leaders training in a variety of areas that can enhance their productivity and ability to lead teams. The design would be appropriate for photonics research and development teams, sales and marketing teams, teams with diverse members new college hires, and newly emplaced managers. This education template would also be appropriate for students in photonics industry technician and graduate- level programs. This type of program is not a substitute for other forms of professional managerial training, but rather augments such programs with material that can aid in a more global perspective.

Integration of e-learning technologies in an interprofessional health science course.

PubMed

Carbonaro, Mike; King, Sharla; Taylor, Elizabeth; Satzinger, Franziska; Snart, Fern; Drummond, Jane

2008-02-01

Advances in information and communication technology are influencing instructional formats and delivery modes for post secondary teaching and learning. The purpose of this study was to determine whether interprofessional team process skills traditionally taught in a small group face-to-face classroom setting could be taught in a blended learning environment; without compromising the pedagogical approach and collaborative Group Investigation Model (Sharan & Sharan 1992) used in the course. A required interprofessional team development course designed to teach health science students (Medicine, Nursing, Pharmacy, Occupational Therapy, Physical Therapy, Dentistry, Dental Hygiene, Medical Laboratory Science, and Nutrition) team process skills was redesigned from a 100% face-to-face delivery format to a blended learning format where 70% of the instruction was delivered using a new synchronous virtual classroom technology (Elluminate www.elluminate.com) in conjunction with asynchronous technology (WebCT). It was hypothesized there would be no significant difference between the blended learning format and the traditional face-to-face format in the development of interprofessional team knowledge, skills and attitudes. The two formats were evaluated on demographic information, computer experience, and interprofessional team attitudes, knowledge and skills. The three main findings are: (a) no significant differences between student groups on achieving team process skills, (b) an observation of differences between the groups on team dynamics, and (c) a more positive achievement of course learning objectives perceived by students in the blended learning class. The results provide evidence to support our blended learning format without compromising pedagogy. They also suggest that this format enhances students' perceptions of their learning.

Tinkering self-efficacy and team interaction on freshman engineering design teams

NASA Astrophysics Data System (ADS)

Richardson, Arlisa Labrie

This study utilizes Bandura's theory of self-efficacy as a framework to examine the development of tinkering skills white working on a freshman engineering design team. The four sources of self-efficacy were analyzed in the context of tinkering within the design team. The research question, 'Does tinkering self-efficacy change for female students during the Freshman Engineering Design class while working on mixed sex teams?', was addressed using quantitative data collection and field observations. Approximately 41 students enrolled in a freshman engineering design class at a public university in the southwest participated by providing self-reports about their tinkering involvement during each design project. In addition, three mixed-sex student teams were observed while working to complete the course design projects. An observation protocol based on Bandura's sources of self efficacy, was used to document tinkering interactions within the three observed teams. The results revealed that Bandura's sources of self-efficacy influenced tinkering involvement. The self-efficacy source, performance accomplishment measured through prior tinkering experience, was the most influential on tinkering involvement. Unlike Bandura's ranking of influence, verbal persuasion was shown to correlate with more tinkering behaviors than the observation of others. The number of females on a team had no impact on tinkering involvement. Tinkering involvement did not change as students progressed from one project to another. However, the competitive nature of the design project appeared to have a negative impact on tinkering involvement and the division of tasks within the team. In addition, a difference was found in the female students' perception of their tinkering involvement and observation of their tinkering involvement. The findings suggest that effective implementation of teamwork including teamwork preparation, more emphasis on the design process and the elimination of competition between teams are necessary to create a more equitable learning environment.

Interdisciplinary preceptor teams to improve the clinical nurse leader student experience.

PubMed

Moore, Penny; Schmidt, Debra; Howington, Lynnette

2014-01-01

The Clinical Nurse Leader (CNL) role was introduced by the American Association of Colleges of Nursing (AACN) in 2003 (AACN, 2003). There are now over 2,500 certified CNLs in the United States. Still some areas of the country have no CNLs in practice; this was true of north central Texas until May 2010 when Texas Christian University (TCU) had its first graduating class. Lack of CNLs to serve as preceptors for the practicum courses in the CNL program was one concern, although AACN does offer options when CNLs are not available. TCU's CNL teaching team developed the interdisciplinary preceptor team (IPT) model to strengthen the practicum component of CNL education at TCU. One advantage of the IPT model is the match it provides with several CNL competencies: lateral integration of care via interdisciplinary teams, member and leader of health care teams, skillful communication within teams, and implementation of an interdisciplinary approach to safe, quality, patient care. Components of the IPT model are discussed with specific information about preceptor selection, team development, and examples of feedback from preceptors and students. © 2014.

Effective Student Teams for Collaborative Learning in an Introductory University Physics Course

ERIC Educational Resources Information Center

Harlow, Jason J. B.; Harrison, David M.; Meyertholen, Andrew

2016-01-01

We have studied the types of student teams that are most effective for collaborative learning in a large freshman university physics course. We compared teams in which the students were all of roughly equal ability to teams with a mix of student abilities, we compared teams with three members to teams with four members, and we examined teams with…

The Interdisciplinary Geriatric/Gerontological Team in the Academic Setting.

PubMed

Mellor, M Joanna; Solomon, Renee

1992-01-01

Geriatric health care requires the services of an interdisciplinary health care team to assess, treat and order the social service needs of the older person, and this concept needs to be included in geriatric social work education. But while the necessity of interdisciplinary team care is recognized, little focus has been placed on the actual process of developing a functional team. The issues that arise-disparate terminologies, organizational and administrative differentials, turf-and the steps needed for a team to become viable are described, using an interdisciplinary team based in academia as a case model. The academic interdisciplinary team may easily become a forum for 'hot air' rather than a catalyst for good practice. This danger is reviewed with reference to stages in the interdisciplinary team development-- goal development group affiliation; team awareness; and goal evaluation. The chapter concludes with a discussion on the impact of the interdisciplinary team on faculty, students and the academic setting.

The impact of an Emergency Medical Technician basic course prior to medical school on medical students.

PubMed

Wyatt, Tasha R; Wood, Elena A; McManus, John; Ma, Kevin; Wallach, Paul M

2018-12-01

Previous research on Emergency Medical Technician (EMT) programs as an early clinical experience indicates that medical students' confidence in patient care and team-building skills increases with participation. However, very little is known about the unplanned, long-term effects of EMT courses on medical students once they enter medical school. This study examined the immediate outcomes produced by the month-long summer EMT course and the unplanned outcomes that students reported 1 year later. Pre/postsurveys were collected on all 25 students who graduated from the EMT course offered before their first year. These survey data were analyzed using a paired-samples t test. A subset of students (N = 14) consented to taking a survey and be interviewed on the lasting impact of their EMT experience. Interviews were conducted 10 months after the 2016 cohort completed the EMT course and at 22 months for the 2015 cohort. They were audio-recorded, transcribed, and analyzed using inductive content analysis. Survey results indicated that students' confidence in patient care and team-building skills increased significantly for all identified skills at the P < 0.05 level. Overall confidence in patient care increased 1.5 points (P = 0.001) on 1-4 Likert-type scale. Overall confidence in team-building skills increased at 0.7 points (P = 0.01). Qualitative analysis of interviews discovered four themes, including the retention and transferability of practical skills, a developed understanding of team communication, comfort with patient interactions, and the development of a framework for assessing patients' needs. Students applied the EMT skills in various extracurricular volunteering experiences and in clinical skills courses. This study concludes that EMT programs have both immediate and lasting effects that seem to assist students with making sense of and navigating other learning opportunities. Specifically, EMT courses offered to students prior to their entry into medical school may help orient them to team-based health care and triaging patient care.

Student Participation in Rover Field Trials

NASA Astrophysics Data System (ADS)

Bowman, C. D.; Arvidson, R. E.; Nelson, S. V.; Sherman, D. M.; Squyres, S. W.

2001-12-01

The LAPIS program was developed in 1999 as part of the Athena Science Payload education and public outreach, funded by the JPL Mars Program Office. For the past three years, the Athena Science Team has been preparing for 2003 Mars Exploration Rover Mission operations using the JPL prototype Field Integrated Design and Operations (FIDO) rover in extended rover field trials. Students and teachers participating in LAPIS work with them each year to develop a complementary mission plan and implement an actual portion of the annual tests using FIDO and its instruments. LAPIS is designed to mirror an end-to-end mission: Small, geographically distributed groups of students form an integrated mission team, working together with Athena Science Team members and FIDO engineers to plan, implement, and archive a two-day test mission, controlling FIDO remotely over the Internet using the Web Interface for Telescience (WITS) and communicating with each other by email, the web, and teleconferences. The overarching goal of LAPIS is to get students excited about science and related fields. The program provides students with the opportunity to apply knowledge learned in school, such as geometry and geology, to a "real world" situation and to explore careers in science and engineering through continuous one-on-one interactions with teachers, Athena Science Team mentors, and FIDO engineers. A secondary goal is to help students develop improved communication skills and appreciation of teamwork, enhanced problem-solving skills, and increased self-confidence. The LAPIS program will provide a model for outreach associated with future FIDO field trials and the 2003 Mars mission operations. The base of participation will be broadened beyond the original four sites by taking advantage of the wide geographic distribution of Athena team member locations. This will provide greater numbers of students with the opportunity to actively engage in rover testing and to explore the possibilities of science, engineering, and technology.

Sharing best practices in teaching biomedical engineering design.

PubMed

Allen, R H; Acharya, S; Jancuk, C; Shoukas, A A

2013-09-01

In an effort to share best practices in undergraduate engineering design education, we describe the origin, evolution and the current status of the undergraduate biomedical engineering design team program at Johns Hopkins University. Specifically, we describe the program and judge the quality of the pedagogy by relating it to sponsor feedback, project outcomes, external recognition and student satisfaction. The general pedagogic practices, some of which are unique to Hopkins, that have worked best include: (1) having a hierarchical team structure, selecting team leaders the Spring semester prior to the academic year, and empowering them to develop and manage their teams, (2) incorporating a longitudinal component that incudes freshmen as part of the team, (3) having each team choose from among pre-screened clinical problems, (4) developing relationships and fostering medical faculty, industry and government to allow students access to engineers, clinicians and clinical environments as needed, (5) providing didactic sessions on topics related to requirements for the next presentation, (6) employing judges from engineering, medicine, industry and government to evaluate designs and provide constructive criticisms approximately once every 3-4 weeks and (7) requiring students to test the efficacy of their designs. Institutional support and resources are crucial for the design program to flourish. Most importantly, our willingness and flexibility to change the program each year based on feedback from students, sponsors, outcomes and judges provides a mechanism for us to test new approaches and continue or modify those that work well, and eliminate those that did not.

Students Across Borders: A Summer Earth Science Workshop for Hispanic High School Students

NASA Astrophysics Data System (ADS)

Butler, R. F.; Kresan, P.; Baez, A.; Sheppard, P.; Forger, G.; Rendon-Coke, G.; Gray, F.

2003-12-01

Southern Arizona has a high school (HS) population that is 28% Hispanic. However this fast-growing minority group represents only 14% of undergraduate students at the University of Arizona and 11% of science and engineering majors. The Students Across Borders Program was designed to assist Hispanic HS students across borders that often separate them from higher education and careers in science. In June 2003, five person student-teacher teams from Tucson, Yuma, and northern Sonora, Mexico lived in dormitories and participated in a weeklong program based on the University of Arizona campus. Activities included: field trips featuring inquiry-based investigations of geology, water quality, and tree rings; tours of engineering and science laboratories; introduction to student support organizations such as the Society of Hispanic Professional Engineers; and counseling by Career Services and Admissions personnel. Technology training included instruction in web design, digital imaging and online communication tools. Web sites developed by the student teams were presented to participants and families at the conclusion of the on-campus program. Web site development is continuing during the academic year to foster continuing communication between the student teams and presentation of results of follow-on projects assisted by graduate and undergraduate CATTS fellows and university faculty.

Students' Understanding and Perceptions of Assigned Team Roles in a Classroom Laboratory Environment

PubMed Central

Ott, Laura E.; Kephart, Kerrie; Stolle-McAllister, Kathleen; LaCourse, William R.

2018-01-01

Using a cooperative learning framework in a quantitative reasoning laboratory course, students were assigned to static teams of four in which they adopted roles that rotated regularly. The roles included: team leader, protocol manager, data recorder, and researcher. Using a mixed-methods approach, we investigated students' perceptions of the team roles and specifically addressed students' understanding of the roles, students' beliefs in their ability to enact the roles, and whether working with assigned team roles supported the teams to work effectively and cohesively. Although students expressed confidence in their understanding of the team roles, their understanding differed from the initial descriptions. This suggests that students' understanding of team roles may be influenced by a variety of factors, including their experiences within their teams. Students also reported that some roles appeared to lack a purpose, implying that for roles to be successful, they must have a clear purpose. Finally, the fact that many students reported ignoring the team roles suggests that students do not perceive roles as a requirement for team productivity and cohesion. On the basis of these findings, we provide recommendations for instructors wishing to establish a classroom group laboratory environment. PMID:29681667

Dropping In a Microgravity Environment (DIME) contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. NASA and contractor personnel who conducted the DIME activity with the students. Shown (L-R) are: Eric Baumann (NASA, 2.2-second Drop Tower Facility manager), Daniel Dietrich (NASA) mentor for Sycamore High School team), Carol Hodanbosi (National Center for Microgravity Research; DIME staff), Richard DeLombard (NASA; DIME staff), Jose Carrion (GRC Akima, drop tower technician), Dennis Stocker (NASA; DIME staff), Peter Sunderland (NCMR, mentor for COSI Academy student team), Sandi Thompson (NSMR sabbatical teacher; DIME staff), Dan Woodard (MASA Microgravity Outreach Program Manager), Adam Malcolm (NASA co-op student; DIME staff), Carla Rosenberg (NCMR; DIME staff), and Twila Schneider (Infinity Technology; NASA Microgravity Research program contractor). This image is from a digital still camera; higher resolution is not available.

Team Building in an Online Organizational Behavior Course

ERIC Educational Resources Information Center

Grzeda, Maurice; Haq, Rana; LeBrasseur, Rolland

2008-01-01

The authors describe the development and delivery of a team-building exercise in an online organizational behavior undergraduate course. Qualitative data of student perceptions, collected at the end of the course, revealed both positive and negative reactions to various aspects of the team-building exercise. Based on these reactions, the authors…

Female College Athlete Leadership and Team Effectiveness

ERIC Educational Resources Information Center

Galicinao, Brianne M.

2011-01-01

This exploratory study contributes to the research on athlete leadership and team effectiveness in college sports. Athletic departments and sports coaches could benefit from a study about athlete leadership and team effectiveness in order to assist their student-leaders with leadership development and explore additional means to help improve team…

Leveraging Mobile Technology in a School-Based Participatory Asthma Intervention: Findings from the Student Media-Based Asthma Research Team (SMART) Study

ERIC Educational Resources Information Center

Warren, Christopher M.; Dyer, Ashley; Blumenstock, Jesse; Gupta, Ruchi S.

2016-01-01

Background: Asthma places a heavy burden on Chicago's schoolchildren, particularly in low-income, minority communities. Recently, our group developed a 10-week afterschool program, the Student Asthma Research Team (START), which successfully engaged high school youth in a Photovoice investigation of factors impacting their asthma at school and in…

Alkaloid-Derived Thioureas in Asymmetric Organocatalysis: A Cooperative Learning Activity in a Project-Based Laboratory Course

ERIC Educational Resources Information Center

Monge, David

2015-01-01

An experiment carried out by advanced undergraduate students in a project-based laboratory course is described. Taking into account the positive effects of working in teams, which has been key for successful research in industry and academia, a cooperative learning experience in the laboratory was developed. Students working in teams of four…

Over the Counter Drugs (and Dietary Supplement) Exercise: A Team-based Introduction to Biochemistry for Health Professional Students

ERIC Educational Resources Information Center

Phadtare, Sangita; Abali, Emine; Brodsky, Barbara

2013-01-01

For successful delivery of basic science topics for health-professional students, it is critical to reduce apprehension and illustrate relevance to clinical settings and everyday life. At the beginning of the Biochemistry course for Physician Assistants, a team-based assignment was designed to develop an understanding of the mechanism of action,…

Turning the Tables: The Growing Need for High Schools to Follow the Lead of Middle Level Reform Thru Interdisciplinary Teaming.

ERIC Educational Resources Information Center

Spies, Paul

High school educators can learn much from the middle school reform movement and apply its strategies to change interdisciplinary teaming and student advocacy programs. Many high schools today still operate with an outdated, impersonal, departmentalized, and factory-model approach to schooling, in which students do not develop a sense of belonging…

Integrating Public Health and Health Promotion Practice in the Medical Curriculum: A Self-Directed Team-Based Project Approach

PubMed Central

Kershaw, Geraldine; Grivna, Michal; Elbarazi, Iffat; AliHassan, Souheila; Aziz, Faisal; Al Dhaheri, Aysha Ibrahim

2017-01-01

Preparing health professionals in health promotion (HP) and disease prevention is essential for improvement of population health, community HP, and better health care for individuals. The aim of this article is to describe an HP project in the form of a major self-directed project-based learning task integrated within the curriculum in the second year of the medical degree program at United Arab Emirates University. The project introduces students to public health and HP practice and develops students’ literature searching, writing, presentation skills, and team work. Students learn the principles underlying behavioral change, and the design of HP programs and materials, through a lecture format. Small groups of students each choose a specific health topic for their project. Over 11 weeks, students obtain information about their topic from appropriate sources (library, PubMed, Google Scholar, credible health sources such as World Health Organization). Using the principles learned in the lectures, they develop appropriate materials for their target audience: for example, posters, a pamphlet, social media content, or a video or radio message. Students seek advice from specialist faculty as needed. In week 12, each team presents their project background, rationale, and materials to their colleagues in a seminar format open to all faculty. They then submit the materials they developed for assessment. Group marks are assigned for presentations and materials. Key concepts are assessed by multiple choice questions in comprehensive course examinations. By participation in the HP project, many students develop a solid background in prevention. The information retrieval, writing, and presentation skills, as well as experience of team work, are valuable both for the remaining years of their training and their future careers. PMID:28879173

Integrating a Project Management Approach to E-Business Application Course

ERIC Educational Resources Information Center

Chen, Kuan C.; Chuang, Keh-Wen

2008-01-01

Teaching students project managements requires a hands-on approach. Incorporating project management concepts and processes into a student team Web development project adds a dimension that exposes students to the realities of effective Web development. This paper will describe the project management approach used in a Web development course in…

Creating a High Impact Learning Environment for Engineering Technology Students

ERIC Educational Resources Information Center

Zhan, Wei; Wang, Jyhwen; Vanajakumari, Manoj; Johnson, Michael D.

2018-01-01

This paper discusses an initiative called Product Innovation and Development (PID) that was launched at Texas A&M University. The goal of PID is to create a high impact learning environment that focuses on innovative product development. Undergraduate students are hired to develop innovative new products. The student teams generate ideas for…

Using a Multiperspective Design Team to Develop and Manage Multilayered Online Courses

ERIC Educational Resources Information Center

Anderson, Nella Bea; Poole, L. Lori; Quinn, Stephanie; Schlicht, Carrie L.

2014-01-01

The focus of this research-based review is how to best develop and manage online classes. After receiving faculty, student, and industry feedback, Colorado State University-Global Campus integrated multi-perspective design teams to develop and manage multilayered online courses. This article will reveal the instructional design, development…

A patient safety course for preclinical medical students.

PubMed

Shekhter, Ilya; Rosen, Lisa; Sanko, Jill; Everett-Thomas, Ruth; Fitzpatrick, Maureen; Birnbach, David

2012-12-01

We developed a course to introduce incoming third-year medical students to the subject of patient safety, to focus their attention on teamwork and communication, and to create an awareness of patient-safe practices that will positively impact their performance as clinicians. The course, held prior to the start of clinical rotations, consisted of lectures, web-based didactic materials, small group activities and simulation exercises, with an emphasis on experiential learning. First, students inspected a 'room of horrors', which is a simulated clinical environment riddled with errors. Second, we used lenticular puzzles in small groups to elicit teamwork behaviours that parallel real-life interactions in health care. Each team was given 8 minutes to complete a 48-piece puzzle, with five pieces removed at random and given to other teams. The salient teaching point of this exercise is that for a team to complete the task, team members must communicate with members of their own team as well as with other teams. Last, simulation scenarios provided a clinical context to reinforce the skills introduced through the puzzle exercise and lectures. The students were split into groups of six or seven members and challenged with two scenarios. Both scenarios focused on a 56-year-old man in respiratory distress. The teams were debriefed on both clinical management and teamwork. The vast majority of the students (93%) agreed that the course improved their patient safety knowledge and skills. The positive response from students to the introductory course is an important step in fostering a culture of patient safety. © Blackwell Publishing Ltd 2012.

Hotspotting: Development of an Interprofessional Education and Service Learning Program for Care Management in Home Care Patients.

PubMed

Zomorodi, Meg; Odom, Trish; Askew, Naomi C; Leonard, Christina R; Sanders, Kimberly A; Thompson, Daniel

2018-03-28

The purpose of this article is to describe a service learning opportunity where interprofessional teams of students worked together to address patients' social determinants of health through home visits. This article describes this process, known as "hotspotting," and presents the development of this project, including collaboration with a local home health agency, recruiting of students, and weekly team meetings for debriefing. Evaluation data, barriers with implementation, and next steps for sustainability are also discussed.

The social worker joins the team: a look at the socialization process.

PubMed

Sands, R G

1989-01-01

Although much has been written about interdisciplinary teams, little is known about how social workers who begin employment in interdisciplinary settings learn how to be team players. This article, based on a year-long ethnographic sociolinguistic research study in one such setting, describes and analyzes the interactive experiences of a social worker who, during the course of the study, changed roles from newcomer to instructor of social work students. Through an analysis of the social worker's interactions, several observations were made. (1) Three team rules prescribed how team members were to participate (use trigger words, develop behaviorally specific descriptors, use action verbs). (2) The "coaching" of the new social worker and her coaching of students were visible in the two teams that were observed. (3) Certain language was preferred by the teams and disciplines. (4) Over time the social worker became more assertive and pro-active.

Teaching introductory game development with unreal engine: Challenges, strategies, and experiences

NASA Astrophysics Data System (ADS)

Head, Nicholas A.

From the days of Pong to 100 million dollar projects such as the Grand Theft Auto franchise, video games have evolved significantly over the years. This evolution has also changed the way game development is viewed as a career. Today, video games are one of the most profitable forms of entertainment, and game development courses are appearing at universities around the world. Even with this growth, a degree from a university has yet to be an important factor in finding a job in game development (Owen, 2013). This thesis examines a method of creating and implementing an introductory gaming course and recommends ways to improve the curriculum. The main focus of the course was to introduce game development to the students. Each week, they were given an exercise that covered a different topic. Students also took part in a team project in which they were tasked with creating a complete game. The goal of the team projects was to expand the student's basic knowledge given to them from the exercises. Data was gathered on the students' subjective experiences with the class. This data and the class's overall performance were compared with past iterations of the course. New to the course was the Unreal Engine. Students used the latest version of the engine, Unreal Engine 4, to complete exercises. Not all students chose to use this engine for the team project. Instructor and students experiences with the engine were also recorded. While there were some problems implementing the engine within our lab environment, we were still able to execute the overall lesson plan. Even with the engine issues, the course had overall good performance. CGT 241, Introduction to 3D Animation, was shown to help the students to complete the course while CGT 215, Computer Graphics Programming I, did not provide enough information on game programming. Exercises were found to be helpful but students wanted a better understanding of how these skills can be applied to game development. Team projects also went well with most teams creating a functional project. Students wanted more time to complete projects along with a structured approach to the project. Confidence in game development and the Unreal Engine were not high but students were enthusiastic in continuing in the field of game development. Recommendations were made to the curriculum in order to fix some of the issues with the introductory course and help students find a career. In order to fix the gap between the programming course and the introductory game course, a video game programming course was recommended that focused on teaching students how code works with video game engines. An option to specialize was also recommended in order to see a higher level of understanding on game concepts and a higher level of quality of game projects. Changes to the higher courses were also made for a yearlong course where students would focus on a single project to publish. This would expand on the introductory course while also replicating the game development process.

Skill and tactical development during a sport education season.

PubMed

Hastie, P A

1998-12-01

The purpose of this study was to examine the development of skill competence and tactical sophistication during a games unit conducted following the features of sport education provided by Siedentop (1994). One team of six players was followed through a 30-lesson season of "Ultimate." Using Gréhaigne, Godbout, and Bouthier's (1997) formula for an efficiency index, together with a number of other measures of skill and tactical competence, it was determined that these students made significant improvements in selection and execution dimensions of the game. Furthermore, lower skilled students did not feel marginalized within their teams and believed they had equal opportunities for improvement. The key reasons for developing competence in this setting were the sufficient length of the season to allow for significant practice opportunities and the consistent team membership throughout season, which allowed all players to develop a sense of usefulness. This curriculum model provides one way students can develop skills through a system of game playing, provided sport education units are structured to prevent the more skillful players from dominating the games.

Incorporating a built environment module into an accelerated second-degree community health nursing course.

PubMed

Hays, Judith C; Davis, Jeffrey A; Miranda, Marie Lynn

2006-01-01

Environmental quality is a leading indicator of population health. Environmental health content has been integrated into the curriculum of an Accelerated Bachelor of Science in Nursing program for second-degree students through development of an environmental health nursing module for the final-semester community health nursing course. The module was developed through collaboration between two professional schools at Duke University (the School of Nursing and the Nicholas School of the Environment and Earth Sciences). It focused on the role of the built environment in community health and featured a mix of teaching strategies, including five components: (1) classroom lecture with associated readings, (2) two rounds of online small-group student discussions, (3) assessment of the built environment in local neighborhoods by student teams, (4) team presentation of the neighborhood assessments, and (5) individual student papers synthesizing the conclusions from all team presentations. The goal of the module was to provide nursing students with an organizing framework for integrating environmental health into clinical practice and an innovative tool for understanding community-level components of public health.

Goal Development Practices of Physical Therapists Working in Educational Environments.

PubMed

Wynarczuk, Kimberly D; Chiarello, Lisa A; Gohrband, Catherine L

2017-11-01

The aims of this study were to (1) describe the practices that school-based physical therapists use in developing student goals, and (2) identify facilitators and barriers to development of goals that are specific to participation in the context of the school setting. 46 school-based physical therapists who participated in a previous study on school-based physical therapy practice (PT COUNTS) completed a questionnaire on goal development. Frequencies and cross tabulations were generated for quantitative data. Open-ended questions were analyzed using an iterative qualitative analysis process. A majority of therapists reported that they frequently develop goals collaboratively with other educational team members. Input from teachers, related services personnel, and parents has the most influence on goal development. Qualitative analysis identified five themes that influence development of participation-based goals: (1) school-based philosophy and practice; (2) the educational environment, settings, and routines; (3) student strengths, needs, and personal characteristics; (4) support from and collaboration with members of the educational team; and (5) therapist practice and motivation. Goal development is a complex process that involves multiple members of the educational team and is influenced by many different aspects of practice, the school environment, and student characteristics.

Dropping In a Microgravity Environment (DIME) contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here students from Sycamore High School in Cincinnati, Ohio, talk with Dr. Dennis Stocker, one of Glenn's lead microgravity scientists, about the uses of the drop tower. This image is from a digital still camera; higher resolution is not available.

Dropping In a Microgravity Environment (DIME) contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. This is the interior of the Sycamore High School (Cincinnati, Ohio) students' experiment to observe the flame spreading on a 100 percent cotton T-shirt under low-g. This image is from a digital still camera; higher resolution is not available.

Team-based Learning Strategy in Biochemistry: Perceptions and Attitudes of Faculty and 1st-Year Medical Students.

PubMed

Chhabra, Namrata; Kukreja, Sahiba; Chhabra, Sarah; Chhabra, Sahil; Khodabux, Sameenah; Sabane, Harshal

2017-12-01

Team-based learning (TBL) strategy has been widely adapted by medical schools all over the world, but the reports regarding the perceptions and the attitudes of faculty and undergraduate medical students towards TBL approach have been conflicting. The study aimed to introduce TBL strategy in curriculum of Biochemistry after evaluating its effectiveness through perceptions and attitudes of faculty and 1 st -year medical students. One hundred and fifty students of first professional M.B.B.S and five faculty members participated in the study. Their responses regarding perceptions and attitudes towards TBL strategy were collected using structured questionnaires, focus group discussions, and in-depth interviews. Data were analyzed using Wilcoxon signed-rank test, paired sample t -test, and Mann-Whitney U-test. Majority of the students expressed satisfaction with team approach and reported improvement in the academic scores, learning styles, and development of problem-solving, interpersonal, and professional skills. The faculty, however, recommended a modified TBL approach to benefit all sections of the students for the overall success of this intervention. TBL is an effective technique to enable the students to master the core concepts and develop professional and critical thinking skills; however, for the 1 st -year medical students, a modified TBL approach might be more appropriate for the effective outcomes.

Third Annual HEDS-UP Forum

NASA Technical Reports Server (NTRS)

Duke, Michael B. (Editor)

2000-01-01

The HEDS-UP (Human Exploration and Development of Space-University Partners) program has been instituted to build new relationships between university faculty and students and NASA in support of the Human Exploration and Development of Space. The program provides a mechanism whereby university students can explore problems of interest to NASA through student design projects, led by a university professor or mentor, and aided by the HEDSUP staff. HEDS-UP advises on the type of project that is of interest and provides contacts to NASA and industry professionals who may serve as mentors to the student project. Students become acquainted with objectives, strategies, development issues, and technologic characteristics of space exploration programs. In doing so, they are preparing themselves for future engineering challenges and may well find that the program is on their critical path to professional advancement. Many of the ideas are novel and are of interest to NASA. Industry finds in HEDS-UP a mechanism to meet many bright and enthusiastic students who are about to enter the work force. The universities become more involved with space exploration and the students are encouraged to include an outreach element in their work, to bring their efforts and their excitement to others in their universities or in their communities. The climax of the HEDS-UP program each year is the HEDS-UP Forum, held at the Lunar and Planetary Institute. Here, the university teams bring their projects - written reports, oral reports, models, prototypes, and experiment demonstrations - to show to one another and to NASA and industry participants. NASA, industry, and academic professionals present discussions of problems of current interest to space exploration. All meet informally around the posters that each of the teams brings to the Forum. This year the HEDS-UP Forum was held May 4-5 at the Lunar and Planetary Institute in Houston. Thirteen university teams from twelve universities participated. Eleven teams were undergraduate teams; two were composed of graduate students. Each team contributed a 20-page written report, and these reports are reproduced in this volume. The specially invited NASA presenters included Mr. John Connolly, Dr. David McKay and Dr. Donald Henninger of the NASA Johnson Space Center, Dr. Paul Spudis and Dr. Steve Clifford of the Lunar and Planetary Institute, and Dr. Pascal Lee of the NASA Ames Research Center.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Meredith Mendenhall of Sycamore High School, Cincinnati, Ohio, flips on a tape recorder in preparation for a drop. This image is from a digital still camera; higher resolution is not available.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Sandi Thompson of the National Center for Microgravity Research GRC makes a final adjustment to the drop package. This image is from a digital still camera; higher resolution is not available.

Team Research at the Biology-Mathematics Interface: Project Management Perspectives

ERIC Educational Resources Information Center

Milton, John G.; Radunskaya, Ami E.; Lee, Arthur H.; de Pillis, Lisette G.; Bartlett, Diana F.

2010-01-01

The success of interdisciplinary research teams depends largely upon skills related to team performance. We evaluated student and team performance for undergraduate biology and mathematics students who participated in summer research projects conducted in off-campus laboratories. The student teams were composed of a student with a mathematics…

Using Standardized Patients to Teach Interprofessional Competencies to Dental Students.

PubMed

Anders, Patrick L; Scherer, Yvonne Krall; Hatton, Michael; Antonson, Donald; Austin-Ketch, Tammy; Campbell-Heider, Nancy

2016-01-01

The aims of this study were to develop, implement, and evaluate a novel interprofessional standardized patient exercise (ISPE) with oral-systemic and interprofessional collaborative practice (IPCP) components. Dental students and doctor of nursing practice (DNP) students at one U.S. university participated in the simulation, which was primarily designed to test their teamwork skills. In spring 2014, DNP students worked in the dental clinics with dental students under the supervision of nursing and dental faculty members. To test the teamwork outcomes for both groups of students, a standardized patient (SP) scenario was designed to include multiple chronic medical diagnoses and an oral-systemic component. The exercise was filmed for later review. Outcomes measures included SP and student self-evaluations and faculty evaluation of student documentation. The primary outcome of interest from a dental standpoint was faculty evaluation of IPCP competencies derived from the Core Competencies of Interprofessional Collaborative Practice and were deemed to be observable by faculty when viewing the videotaped scenario. Eight teams of students participated with an SP trained in the scenario. Each team consisted of a DNP student, a fourth-year dental student, and a second-year dental student. All eligible students in the DNP class (n=20) and eight students from each dental class (approximately 110 each) participated. The results showed that the teams scored highest on the role/responsibilities subscale, indicating students were respectful of each other's roles and expertise and effectively engaged each other to develop strategies to meet the patient's needs. Scores on the three other subscales (values/ethics, interprofessional communication, and teams/teamwork) were also high. These findings appeared to support IPCP as a method to foster knowledge and respect for other roles and responsibilities, improve appreciation of teamwork, and encourage better communication among health care providers. The ISPE scenario provided an effective way to evaluate IPCP competencies.

The Development of a Taxonomy of Desired Personal Qualities for IT Project Team Members and Its Use in an Educational Setting

ERIC Educational Resources Information Center

Jewels, Tony; Ford, Marilyn

2006-01-01

Although much literature exists on desired qualities of team leaders of IT projects and even desired components of the team, there is a paucity of literature on the desired personal qualities of individuals working within team settings. This research set out to empirically investigate the personal qualities which students believe would be…

A Global Health Elective Course in a PharmD Curriculum

PubMed Central

Dutta, Arjun; Kovera, Craig

2014-01-01

Objective. To describe the design, development, and the first 4 implementations of a Global Health elective course intended to prepare pharmacy students pursue global health careers and to evaluate student perceptions of the instructional techniques used and of skills developed during the course. Design. Following the blended curriculum model used at Touro College of Pharmacy, the Global Health course combined team-based learning (TBL) sessions in class, out-of-class team projects, and online self-directed learning with classroom teaching and discussion sessions. Assessment. Student performance was assessed with TBL sessions, team projects, and class presentations, online quizzes, and final examinations. A precourse and postcourse survey showed improvement in global health knowledge and attitudes, and in the perception of pharmacists’ role and career opportunities in global health. Significant improvement in skills applicable to global health work was reported and students rated highly the instructional techniques, value, and relevance of the course. Conclusion. The Global Health elective course is on track to achieve its intended goal of equipping pharmacy students with the requisite knowledge and applicable skills to pursue global health careers and opportunities. After taking this course, students have gone on to pursue global field experiences. PMID:25657374

Reflective Journals as a Research Tool: The Case of Student Teachers' Development of Teamwork

ERIC Educational Resources Information Center

Bashan, Bilha; Holsblat, Rachel

2017-01-01

The study explores the development of teamwork among a group of Israeli student teachers enrolled in a practicum, in order to help teacher educators to understand better the processes student teachers experience in becoming a collaborative team. The student teachers' reflective journals provide qualitative evidence of the stages in the development…

Student Directed Learning: An Online Exhibition for a Historic Costume Collection

ERIC Educational Resources Information Center

Saiki, Diana; Nam, Jinhee; Beck, Jessica

2012-01-01

This article highlights the structure, procedures, and outcomes of a course organized using a student-directed learning approach to develop an online exhibition website as an outcome for a client. The teaching strategy required students to work in teams and carefully plan assignments to build on the development of the exhibition. Students said…

Developing Teaching of Mathematics to First Year Engineering Students

ERIC Educational Resources Information Center

Jaworski, Barbara; Matthews, Janette

2011-01-01

Engineering Students Understanding Mathematics (ESUM) is a developmental research project at a UK university. The motivating aim is that engineering students should develop a more conceptual understanding of mathematics through their participation in an innovation in teaching. A small research team has both studied and contributed to innovation,…

Team Approach for Occupational and Useful Career Education--Humanized.

ERIC Educational Resources Information Center

Stone, Naomi; Spence, Patricia

Developed for teachers seeking an alternative classroom approach that develops students' life skills, this manual introduces, describes, and facilitates the implementation of TOUCH (Team Approach for Occupational and Useful Career Education--Humanized). Parts 1 and 2 introduce and define TOUCH as an instructional process which uses subject area…

Designing Pedagogical Innovation for Collaborating Teacher Teams

ERIC Educational Resources Information Center

Weitze, Charlotte Laerke

2017-01-01

In this design-based research project, teachers co-created and used a new learning design model, the "IT-Pedagogical Think Tank Model for Teacher Teams." This continuous-competence-development method enabled teachers to collaborate and develop innovative-learning designs for students in a new hybrid synchronous video-mediated learning…

Building social capital with interprofessional student teams in rural settings: A service-learning model.

PubMed

Craig, Pippa L; Phillips, Christine; Hall, Sally

2016-08-01

To describe outcomes of a model of service learning in interprofessional learning (IPL) aimed at developing a sustainable model of training that also contributed to service strengthening. A total of 57 semi-structured interviews with key informants and document review exploring the impacts of interprofessional student teams engaged in locally relevant IPL activities. Six rural towns in South East New South Wales. Local facilitators, staff of local health and other services, health professionals who supervised the 89 students in 37 IPL teams, and academic and administrative staff. Perceived benefits as a consequence of interprofessional, service-learning interventions in these rural towns. Reported outcomes included increased local awareness of a particular issue addressed by the team; improved communication between different health professions; continued use of the team's product or a changed procedure in response to the teams' work; and evidence of improved use of a particular local health service. Given the limited workforce available in rural areas to supervise clinical IPL placements, a service-learning IPL model that aims to build social capital may be a useful educational model. © 2015 National Rural Health Alliance Inc.

Acquisition Community Team Dynamics: The Tuckman Model vs. the DAU Model

DTIC Science & Technology

2007-04-30

courses . These student teams are used to enable the generation of more complex products and to prepare the students for the ...requirement for stage discreteness was met, I developed a stage-separation test that, when applied to the data representing the experience of a... test the reliability, and validate an improved questionnaire instrument that: – Redefines “Storming” with new storming questions Less focused

The Perceptions of Students in the Allied Health Professions towards Stroke Rehabilitation Teams and the SLP's Role

ERIC Educational Resources Information Center

Insalaco, Deborah; Ozkurt, Elcin; Santiago, Dign

2007-01-01

The purpose of this study was to determine the perceptions and knowledge of final-year speech-language pathology (SLP), physical and occupational therapy (PT, OT) students toward stroke rehabilitation teams and the SLPs' roles on them. The investigators adapted a survey developed by (Felsher & Ross, 1994) and administered it to 35 PT, 35 OT, and…

Colonel Mustard in the Library with the Knife...Experiencing Virtual Teaming.

ERIC Educational Resources Information Center

Roebuck, Deborah Britt

Virtual teaming has come to stay in the fast developing world of communication as it brings more value to customers, saves costs, accelerates competence, and leverages organizational learning. Therefore, students need to be educated about this new type of team and the tools that are available to facilitate communication and to enhance…

Formative Assessment of Collaborative Teams (FACT): Development of a Grade-Level Instructional Team Checklist

ERIC Educational Resources Information Center

Taylor, Matthew J.; Hallam, Pamela R.; Charlton, Cade T.; Wall, D. Gary

2014-01-01

Professional Learning Communities (PLCs) have become increasingly popular in schools. PLCs are groups of teachers, administrators, parents, and students who collaborate to improve their practices and focus on results (DuFour, 2004). Grade-level and department teachers participate in regularly scheduled collaborative team meetings; however, many…

A Peer Assessment System to Improve Student Team Experiences

ERIC Educational Resources Information Center

Anson, Robert; Goodman, James A.

2014-01-01

Groups are frequently used in courses, but there is substantial evidence that insufficient attention is paid to creating conditions for successful teamwork. One key condition is high-quality, individual, and team-level feedback. An online peer assessment system and team improvement process was developed for this test case based on three design…

Students Compete in NASA's Student Launch Competition

NASA Image and Video Library

2018-03-30

NASA's Student Launch competition challenges middle school, high school and college teams to design, build, test and fly a high-powered, reusable rocket to an altitude of one mile above ground level while carrying a payload. During the eight-month process, the selected teams will go through a series of design, test and readiness reviews that resemble the real-world process of rocket development. In addition to building and preparing their rocket and payload, the teams must also create and execute an education and outreach program that will share their work with their communities and help inspire the next generation of scientists, engineers and explorers. Student Launch is hosted by NASA's Marshall Space Flight Center in Huntsville, Alabama, and is managed by Marshall's Academic Affairs Office to further NASA’s major education goal of attracting and encouraging students to pursue degrees and careers in the STEM fields of science, technology, engineering and mathematics.

Collaborative and Bidirectional Feedback Between Students and Clinical Preceptors: Promoting Effective Communication Skills on Health Care Teams.

PubMed

Myers, Kara; Chou, Calvin L

2016-11-01

Current literature on feedback suggests that clinical preceptors lead feedback conversations that are primarily unidirectional, from preceptor to student. While this approach may promote clinical competency, it does not actively develop students' competency in facilitating feedback discussions and providing feedback across power differentials (ie, from student to preceptor). This latter competency warrants particular attention given its fundamental role in effective health care team communication and its related influence on patient safety. Reframing the feedback process as collaborative and bidirectional, where both preceptors and students provide and receive feedback, maximizes opportunities for role modeling and skills practice in the context of a supportive relationship, thereby enhancing team preparedness. We describe an initiative to introduce these fundamental skills of collaborative, bidirectional feedback in the nurse-midwifery education program at the University of California, San Francisco. © 2016 by the American College of Nurse-Midwives.

Students Participate in Rocket Launch Project

NASA Technical Reports Server (NTRS)

2002-01-01

Filled with anticipation, students from two local universities, the University of Alabama in Huntsville (UAH), and Alabama Agricultural Mechanical University (AM), counted down to launch the rockets they designed and built at the Army test site on Redstone Arsenal in Huntsville, Alabama. The projected two-mile high launch culminated more than a year's work and demonstrated the student team's ability to meet the challenge set by the Marshall Space Flight Center's (MSFC) Student Launch Initiative (SLI) program to apply science and math to experience, judgment, and common sense, and proved to NASA officials that they have successfully built reusable launch vehicles (RLVs), another challenge set by NASA's SLI program. MSFC's SLI program is an educational effort that aims to motivate students to pursue careers in science, math, and engineering. It provides the students with hands-on, practical aerospace experience. In this picture, a student from AM and his mentor install their payload into the launch vehicle which was built by the team of UAH students. The scientific payload, developed and built by the team of AM students, measured the amount of hydrogen produced during electroplating with nickel in a brief period of micrgravity.

Enabling performance skills: Assessment in engineering education

NASA Astrophysics Data System (ADS)

Ferrone, Jenny Kristina

Current reform in engineering education is part of a national trend emphasizing student learning as well as accountability in instruction. Assessing student performance to demonstrate accountability has become a necessity in academia. In newly adopted criterion proposed by the Accreditation Board for Engineering and Technology (ABET), undergraduates are expected to demonstrate proficiency in outcomes considered essential for graduating engineers. The case study was designed as a formative evaluation of freshman engineering students to assess the perceived effectiveness of performance skills in a design laboratory environment. The mixed methodology used both quantitative and qualitative approaches to assess students' performance skills and congruency among the respondents, based on individual, team, and faculty perceptions of team effectiveness in three ABET areas: Communications Skills. Design Skills, and Teamwork. The findings of the research were used to address future use of the assessment tool and process. The results of the study found statistically significant differences in perceptions of Teamwork Skills (p < .05). When groups composed of students and professors were compared, professors were less likely to perceive student's teaming skills as effective. The study indicated the need to: (1) improve non-technical performance skills, such as teamwork, among freshman engineering students; (2) incorporate feedback into the learning process; (3) strengthen the assessment process with a follow-up plan that specifically targets performance skill deficiencies, and (4) integrate the assessment instrument and practice with ongoing curriculum development. The findings generated by this study provides engineering departments engaged in assessment activity, opportunity to reflect, refine, and develop their programs as it continues. It also extends research on ABET competencies of engineering students in an under-investigated topic of factors correlated with team processes, behavior, and student learning.

Increasing Student-Learning Team Effectiveness with Team Charters

ERIC Educational Resources Information Center

Hunsaker, Phillip; Pavett, Cynthia; Hunsaker, Johanna

2011-01-01

Because teams are a ubiquitous part of most organizations today, it is common for business educators to use team assignments to help students experientially learn about course concepts and team process. Unfortunately, students frequently experience a number of problems during team assignments. The authors describe the results of their research and…

IYPT problems teach high school students about teamwork and the scientific method

NASA Astrophysics Data System (ADS)

Kochanski, K.; Klishin, A.

2015-12-01

Laboratory work is often STEM students' primary exposure to key creative and communicative skills in the sciences, including experimental design, trouble shooting, team work, and oral presentations. The International Young Physicists' Tournament (IYPT) teaches these skills by inviting high school students to investigate simple unsolved systems instead of reproducing familiar results. Students work in teams to form hypotheses, gather data, and present their results orally in a tournament format. The IYPT has published 17 questions yearly since 1988, and its archives are an efficient source of experimental problems for outreach programs and have also been used for first-year undergraduate project classes (Planisic, 2009). We present insights and outcomes from two schools in which we introduced a new extracurricular program based on the IYPT model. Twenty-four students worked in small teams for three hours per day for six weeks. Surprisingly, most teams chose problems in unfamiliar subject areas such as fluid dynamics, and tailored their approaches to take advantage of individual skills including soldering, photography, and theoretical analysis. As the program progressed, students developed an increasingly intuitive understanding of the scientific method. They began to discuss the repeatability of their experiments without prompting, and were increasingly willing to describe alternative hypotheses.

An evaluation of an interprofessional practice-based learning environment using student reflections.

PubMed

Housley, Cora L; Neill, Kathryn K; White, Lanita S; Tedder, Andrea T; Castleberry, Ashley N

2018-01-01

The 12th Street Health and Wellness Center is an interprofessional, student-led, community-based clinic. Students from all University of Arkansas for Medical Sciences colleges work together to provide healthcare services for residents of an underserved community. Interprofessional student teams assess patients and present to an interprofessional preceptor team. At the conclusion of clinic, teams reflect on their experience. The objective of this study is to generate key themes from the end of clinic reflections to describe learning outcomes in an interprofessional practice environment. Student teams were asked to reflect on what they learned about patient care and interprofessional practice while volunteering at the clinic. Three hundred eighty reflection statements were assessed using the constant comparative approach with open coding by three researchers who identified and categorised themes by selecting key phrases from reflections. Eight themes emerged from this process which illuminated students' self-perceived development during practice-based learning and interprofessional collaboration. Key phrases were also coded to the four core Interprofessional Education Collaborative competency domains. These results suggest learners' perception that the Center is a practice-based environment that provides an opportunity to learn, integrate, and apply interprofessional curricular content.

Web-based versus face-to-face interprofessional team encounters with standardized patients.

PubMed

Lempicki, Kelly A; Holland, Christine S

2018-03-01

Challenges exist in developing interprofessional education (IPE) activities including coordinating schedules and obtaining appropriate space for teams to work. Virtual worlds have been explored as a means to overcome some of these challenges. We sought to develop a web-based interprofessional team interaction with a standardized patient (SP), as compared to a face-to-face SP interaction, focusing on the competency area of interprofessional communication. Interprofessional teams of students were randomized to complete a web-based or face-to-face SP encounter. The web-based encounter was conducted via video conference that students accessed using their own electronic device. Interprofessional communication was evaluated by faculty observers and the SPs. Participants of the web-based encounter also completed a perceptions questionnaire. Interprofessional communication was rated as average/above average by the authors and SPs. Perceptions of the web-based encounter were mixed with not all students willing to complete such an encounter again despite finding it enjoyable and a positive learning experience. The need for adequate preparation was identified, including the opportunity to review the patient case before the encounter. The web-based SP encounter afforded students the opportunity to utilize communication technology to provide patient-centered care while collaborating as an interprofessional team. Video conferencing presents an opportunity to bypass some logistical challenges in scheduling IPE experiences and can be implemented as a co-curricular activity, avoiding course revisions. Additional studies are needed to further explore student and patient perspectives and clarify when, and with what level of trainees, the experiences are most valuable. Copyright © 2017 Elsevier Inc. All rights reserved.

Intraprofessional, team-based treatment planning for oral health students in the comprehensive care clinic.

PubMed

Mattheos, Nikos; Storrs, Mark; Foster, Lea; Oberholzer, Theunis

2012-12-01

In 2009, Griffith University School of Dentistry and Oral Health, in Queensland, Australia, introduced into its various curricula the concept of team-based treatment planning (TBTP), aiming to facilitate intraprofessional, interdisciplinary training and peer learning among its students. Fifty student teams were organized, each of which included students from three programs (Dental Science, Oral Health Therapy, and Dental Technology) and three years of study (third-, fourth-, and fifth-year students). This study prospectively evaluated the impact of TBTP on students' perceptions and attitudes towards teamwork and their role in a team of peers. A total of 202 students who participated in fifty TBTP teams were prospectively surveyed at baseline and at six and twelve months after introduction of TBTP. "Reliable" and "responsible" were reported to be the most important qualities of both an effective team leader and member. Fifth-year students identified "hard-working" as an important quality of the ideal leader as opposed to the fourth-year students who ranked "supportive" higher. Attitudes of the fifth-year students towards TBTP appeared to have declined significantly from the previous years, while fourth-year students remained consistently more positive. In addition, fourth-year students appeared more likely to enjoy working in a team and considered themselves more effective in a team. No gender differences were observed, other than female students' appearing less confident to lead a team. It was concluded that the function of student-directed interdisciplinary, intraprofessional treatment planning teams might pose disproportionate strain on fifth-year students, impacting their attitudes to such modes of work.

(abstract) Student Involvement in the Pluto Mission

NASA Technical Reports Server (NTRS)

Weinstein, Stacy

1994-01-01

The Pluto Fast Flyby mission development baseline consists of 2 identical spacecraft (120 - 165 kg) to be launched to Pluto/ Charon in the late 1990s. These spacecraft are intended to fly by Pluto and Charon in order to perform various remote-sensing scientific investigations and have a mission development cost less than $400M (FY92$) through launch plus 30 days. The Pluto team is committed to involving students in all areas of mission development and operations. In November 1992, the Pluto team sent a request for information to industry and universities looking for ways to lower the mass and cost of the mission. A number of universities responded with creative and promising technological developments. In addition to contracts with industry and other federal labs, contracts were signed with schools which allowed students to apply their research, enabling the Pluto team to use valuable resources on a variety of advanced technology endeavors. Perhaps the most exciting aspect of these investigations was that the deliverables that the students produced were not just final reports, but actual prototype hardware complete with write-ups on lessons learned in machining, programming, and design. Another exciting development was a prototype adapter competition in which 7 universities competed to design, build, and test their idea of a lightweight spacecraft-propulsion stack adapter. Georgia Tech won with an innovative dodecahedron composite lattice cone. Other students from other universities were involved as well. All in all, over 40 students from 20 different colleges made significant contributions to the Pluto Fast Flyby mission development through their efforts. This paper will give an overview of Pluto student involvement, the technologies which they examined, and useful results for the mission.

An Online Debate Series for First-Year Pharmacy Students

PubMed Central

Crawford, Stephanie Y.

2007-01-01

Objectives This article describes an online debate series that was developed as a new component to an introductory core course for first-professional year pharmacy students. Objectives were to facilitate the group process, introduce controversial issues related to the US healthcare system, improve critical thinking and communication skills, enable students' ability to analyze and evaluate evidence, help develop skills in formulating written arguments, and encourage tolerance of diverse points of view. Design One hundred sixty-two students were assigned to 40 teams (half assigned to argue as “Pros” and half as “Cons”) and paired into 20 debating groups. The paired teams posted 3 arguments in an online forum alternatively over a 12-week period. The winning teams were determined by a panel of 3 judges. Assessment Feedback from the judges was posted online and summarized in an in-class discussion. Thematic analysis of qualitative data from students and faculty members demonstrated the effectiveness of the online debate component in helping students work together in a group, learn alternative sides of complex issues, and write persuasive arguments. Conclusion This novel online-debate forum was a feasible teaching and learning strategy, which helped pharmacy students improve their communication skills and critical thinking, expanded their scope of knowledge, and provided a platform for group process. PMID:17429512

An online debate series for first-year pharmacy students.

PubMed

Lin, Swu-Jane; Crawford, Stephanie Y

2007-02-15

This article describes an online debate series that was developed as a new component to an introductory core course for first-professional year pharmacy students. Objectives were to facilitate the group process, introduce controversial issues related to the US healthcare system, improve critical thinking and communication skills, enable students' ability to analyze and evaluate evidence, help develop skills in formulating written arguments, and encourage tolerance of diverse points of view. One hundred sixty-two students were assigned to 40 teams (half assigned to argue as "Pros" and half as "Cons") and paired into 20 debating groups. The paired teams posted 3 arguments in an online forum alternatively over a 12-week period. The winning teams were determined by a panel of 3 judges. Feedback from the judges was posted online and summarized in an in-class discussion. Thematic analysis of qualitative data from students and faculty members demonstrated the effectiveness of the online debate component in helping students work together in a group, learn alternative sides of complex issues, and write persuasive arguments. This novel online-debate forum was a feasible teaching and learning strategy, which helped pharmacy students improve their communication skills and critical thinking, expanded their scope of knowledge, and provided a platform for group process.

Effects of team-based learning on perceived teamwork and academic performance in a health assessment subject.

PubMed

Park, Hyung-Ran; Kim, Chun-Ja; Park, Jee-Won; Park, Eunyoung

2015-01-01

The purpose of this study was to examine the effectiveness of team-based learning (a well-recognized learning and teaching strategy), applied in a health assessment subject, on nursing students' perceived teamwork (team-efficacy and team skills) and academic performance (individual and team readiness assurance tests, and examination scores). A prospective, one-group, pre- and post-test design enrolled a convenience sample of 74 second-year nursing students at a university in Suwon, Korea. Team-based learning was applied in a 2-credit health assessment subject over a 16-week semester. All students received written material one week before each class for readiness preparation. After administering individual- and team-readiness assurance tests consecutively, the subject instructor gave immediate feedback and delivered a mini-lecture to the students. Finally, students carried out skill based application exercises. The findings showed significant improvements in the mean scores of students' perceived teamwork after the introduction of team-based learning. In addition, team-efficacy was associated with team-adaptability skills and team-interpersonal skills. Regarding academic performance, team readiness assurance tests were significantly higher than individual readiness assurance tests over time. Individual readiness assurance tests were significantly related with examination scores, while team readiness assurance tests were correlated with team-efficacy and team-interpersonal skills. The application of team-based learning in a health assessment subject can enhance students' perceived teamwork and academic performance. This finding suggests that team-based learning may be an effective learning and teaching strategy for improving team-work of nursing students, who need to collaborate and effectively communicate with health care providers to improve patients' health.

Dropping In a Microgravity Environment (DIME) contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here Carol Hodanbosi of the National Center for Microgravity Research and Jose Carrion, a lab mechanic with AKAC, prepare a student experiment package (inside the silver-colored frame) inside the orange-colored drag shield that encloses all experiment hardware. This image is from a digital still camera; higher resolution is not available.

Awareness, Analysis, and Action: Curricular Alignment for Student Success in General Chemistry.

PubMed

Jewett, Sarah; Sutphin, Kathy; Gierasch, Tiffany; Hamilton, Pauline; Lilly, Kathleen; Miller, Kristine; Newlin, Donald; Pires, Richard; Sherer, Maureen; LaCourse, William R

2018-02-13

This article examines the ways that a shared faculty experience across five partner institutions led to a deep awareness of the curriculum and pedagogy of general chemistry coursework, and ultimately, to a collaborative action plan for student success. The team identified key differences and similarities in course content and instructional experiences. The comparative analysis yielded many more similarities than differences, and therefore, the team shifted its focus from "gap analysis" to an exploration of common curricular challenges. To address these challenges, the team developed content for targeted instructional resources that promoted the success of all STEM students across institutions. This article contextualizes the interinstitutional collaboration and closely examines the interactive components (awareness, analysis, and action), critical tools, and productive attitudes that undergirded the curricular alignment process of the STEM Transfer Student Success Initiative (t-STEM).

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here Carol Hodanbosi of the National Center for Microgravity Research and Jose Carrion, a lab mechanic with AKAC, prepare a student experiment package (inside the silver-colored frame) inside the orange-colored drag shield that encloses all experiment hardware. This image is from a digital still camera; higher resolution is not available.

Awareness, Analysis, and Action: Curricular Alignment for Student Success in General Chemistry

PubMed Central

2018-01-01

This article examines the ways that a shared faculty experience across five partner institutions led to a deep awareness of the curriculum and pedagogy of general chemistry coursework, and ultimately, to a collaborative action plan for student success. The team identified key differences and similarities in course content and instructional experiences. The comparative analysis yielded many more similarities than differences, and therefore, the team shifted its focus from “gap analysis” to an exploration of common curricular challenges. To address these challenges, the team developed content for targeted instructional resources that promoted the success of all STEM students across institutions. This article contextualizes the interinstitutional collaboration and closely examines the interactive components (awareness, analysis, and action), critical tools, and productive attitudes that undergirded the curricular alignment process of the STEM Transfer Student Success Initiative (t-STEM). PMID:29657334

Trust: The Power That Binds in Team Supervision of Doctoral Students

ERIC Educational Resources Information Center

Robertson, Margaret J.

2017-01-01

Team supervision of doctoral students adds new dimensions and complexities to relationships within the teams that impact functionality of the team. Trust emerged as a significant theme in recent qualitative research into the quality of team supervision of doctoral students. Trust was cited as a key component in successful team collaborations, and…

An interprofessional service-learning course: uniting students across educational levels and promoting patient-centered care.

PubMed

Dacey, Marie; Murphy, Judy I; Anderson, Delia Castro; McCloskey, William W

2010-12-01

Recognizing the importance of interprofessional education, we developed a pilot interprofessional education course at our institution that included a total of 10 nursing, BS health psychology, premedical, and pharmacy students. Course goals were for students to: 1) learn about, practice, and enhance their skills as members of an interprofessional team, and 2) create and deliver a community-based service-learning program to help prevent or slow the progression of cardiovascular disease in older adults. Teaching methods included lecture, role-play, case studies, peer editing, oral and poster presentation, and discussion. Interprofessional student teams created and delivered two different health promotion programs at an older adult care facility. Despite barriers such as scheduling conflicts and various educational experiences, this course enabled students to gain greater respect for the contributions of other professions and made them more patient centered. In addition, inter-professional student teams positively influenced the health attitudes and behaviors of the older adults whom they encountered. Copyright 2010, SLACK Incorporated.

Around Marshall

NASA Image and Video Library

2002-05-22

Filled with anticipation, students from two local universities, the University of Alabama in Huntsville (UAH), and Alabama Agricultural Mechanical University (AM), counted down to launch the rockets they designed and built at the Army test site on Redstone Arsenal in Huntsville, Alabama. The projected two-mile high launch culminated more than a year's work and demonstrated the student team's ability to meet the challenge set by the Marshall Space Flight Center's (MSFC) Student Launch Initiative (SLI) program to apply science and math to experience, judgment, and common sense, and proved to NASA officials that they have successfully built reusable launch vehicles (RLVs), another challenge set by NASA's SLI program. MSFC's SLI program is an educational effort that aims to motivate students to pursue careers in science, math, and engineering. It provides the students with hands-on, practical aerospace experience. In this picture, a student from AM and his mentor install their payload into the launch vehicle which was built by the team of UAH students. The scientific payload, developed and built by the team of AM students, measured the amount of hydrogen produced during electroplating with nickel in a brief period of micrgravity.

Correlation Of Terrestrial gamma flashes, Electric fields, and Lightning strikes (COTEL) in thunderstorms using networked balloon payloads developed by university and community college students

NASA Astrophysics Data System (ADS)

Landry, B. J.; Blair, D.; Causey, J.; Collins, J.; Davis, A.; Fernandez-Kim, V.; Kennedy, J.; Pate, N.; Kearney, C.; Schayer, C.; Turk, E.; Cherry, M. L.; Fava, C.; Granger, D.; Stewart, M.; Guzik, T. G.

2017-12-01

High energy gamma ray flashes from terrestrial sources have been observed by satellites for decades, but the actual mechanism, assumed to be thunderstorm lightning, has yet to be fully characterized. The goal of COTEL, funded by NASA through the University Student Instrument Project (USIP) program, is to correlate in time TGF events, lightning strikes, and electric fields inside of thunderstorms. This will be accomplished using a small network of balloon-borne payloads suspended in and around thunderstorm environments. The payloads will detect and timestamp gamma radiation bursts, lightning strikes, and the intensity of localized electric fields. While in flight, data collected by the payloads will be transmitted to a ground station in real-time and will be analyzed post-flight to investigate potential correlations between lightning, TGFs, and electric fields. The COTEL student team is in its second year of effort having spent the first year developing the basic balloon payloads and ground tracking system. Currently the team is focusing on prototype electric field and gamma radiation detectors. Testing and development of these systems will continue into 2018, and flight operations will take place during the spring 2018 Louisiana thunderstorm season. The presentation, led by undergraduate Physics student Brad Landry, will cover the student team effort in developing the COTEL system, an overview of the system architecture, balloon flight tests conducted to date, preliminary results from prototype detectors, lessons learned for student-led science projects, and future plans.

Team-based learning in a preclinical removable denture prosthesis module in a United Arab Emirates dental school.

PubMed

Haj-Ali, Reem; Al Quran, Firas

2013-03-01

The purpose of this article is to describe the implementation of a team-based learning (TBL) approach in a removable denture prosthesis (RDP) module and present the results of students' performance in individual and group TBL activities and exam scores, students' experience with TBL and end of course evaluations, and faculty feedback. Course material at the College of Dentistry, University of Sharjah, United Arab Emirates, was transformed into seven conventional lectures and seven TBL sessions. Each TBL session consisted of pre-assigned reading (self-directed learning), in-class individual and group readiness tests (accountability), team problem-solving of patient RDP cases, and faculty-led class discussion (knowledge application). The course was assessed through scores from TBL session activities and course examinations, student satisfaction survey, and faculty feedback. Course grades were found to be higher using the TBL method then the traditional lecture-based method. Student evaluation data and faculty response indicated strong support for TBL as it was implemented in the course. The faculty noted a higher level of student engagement with team learning than in conventional class lecturing. TBL is an active-learning instructional strategy for courses with high student-to-faculty ratios. This approach provides regular feedback and the opportunity for students to develop higher reasoning skills.

A Qualitative Investigation into How Problem-Based Learning Impacts on the Development of Team-Working Skills in Occupational Therapy Students

ERIC Educational Resources Information Center

Seymour, Alison

2013-01-01

It has been suggested that problem-based learning (PBL) has a positive impact on the team-working skills of medical, health and social care students. These skills are important for graduates to master to enable effective collaborative working in today's diverse health and social care settings. What is not clear from the literature is how…

The implementation of multiple interprofessional integrated modules by health sciences faculty in Chile.

PubMed

Castillo-Parra, Silvana; Oyarzo Torres, Sandra; Espinoza Barrios, Mónica; Rojas-Serey, Ana María; Maya, Juan Diego; Sabaj Diez, Valeria; Aliaga Castillo, Verónica; Castillo Niño, Manuel; Romero Romero, Luis; Foster, Jennifer; Hawes Barrios, Gustavo

2017-11-01

Multiple interprofessional integrated modules (MIIM) 1 and 2 are two required, cross-curricular courses developed by a team of health professions faculty, as well as experts in education, within the Faculty of Medicine of the University of Chile. MIIM 1 focused on virtual cases requiring team decision-making in real time. MIIM 2 focused on a team-based community project. The evaluation of MIIM included student, teacher, and coordinator perspectives. To explore the perceptions of this interprofessional experience quantitative data in the form of standardised course evaluations regarding teaching methodology, interpersonal relations and the course organisation and logistics were gathered. In addition, qualitative perceptions were collected from student focus groups and meetings with tutors and coordinators. Between 2010 and 2014, 881 students enrolled in MIIM. Their evaluation scores rated interpersonal relations most highly, followed by organisation and logistics, and then teaching methodology. A key result was the learning related to interprofessional team work by the teaching coordinators, as well as the participating faculty. The strengths of this experience included student integration and construction of new knowledge, skill development in making decisions, and collective self-learning. Challenges included additional time management and tutors' role. This work requires valuation of an alternative way of learning, which is critical for the performance of future health professionals.

Dropping In a Microgravity Environment (DIME) Contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Sandi Thompson of the National Center for Microgravity Research GRC makes a final adjustment to the drop package. This image is from a digital still camera; higher resolution is not available.

Dropping In a Microgravity Environment (DIME) Contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Meredith Mendenhall of Sycamore High School, Cincinnati, Ohio, flips on a tape recorder in preparation for a drop. This image is from a digital still camera; higher resolution is not available.

Using "Facebook" to Improve Communication in Undergraduate Software Development Teams

ERIC Educational Resources Information Center

Charlton, Terence; Devlin, Marie; Drummond, Sarah

2009-01-01

As part of the CETL ALiC initiative (Centre of Excellence in Teaching and Learning: Active Learning in Computing), undergraduate computing science students at Newcastle and Durham universities participated in a cross-site team software development project. To ensure we offer adequate resources to support this collaboration, we conducted an…

The Role of the Professional Educator as the College Development Officer. Resource Paper No. 7.

ERIC Educational Resources Information Center

Wattenbarger, James L.

College developmental officers must be professional educators who work within an administrative team along with the president, dean of instruction, the student development officer, and the college business officer. While the members of this team should understand the principles of management, they must also appreciate the institution's collegiate…

Utilizing Virtual Teams in a Management Principles Course

ERIC Educational Resources Information Center

Olson-Buchanan, Julie B.; Rechner, Paula L.; Sanchez, Rudolph J.; Schmidtke, James M.

2007-01-01

Purpose: The purpose of this paper is to describe development of a component in a management principles course to develop university students' virtual team skills. There were several challenges in creating and implementing this new component. The paper aims to describe how these challenges were addressed and discusses outcomes associated with this…

Special Education and Severe Disabilities in Costa Rica: Developing Inclusion in a Developing Country.

ERIC Educational Resources Information Center

Stough, Laura M.

2003-01-01

An overview of special education in Costa Rica is provided. Costa Rica has promulgated four educational service models that extend special education expertise: consulting teachers, educational assistance teams, itinerant teams, and resource centers. Their educational classification system describes the level of modifications required by students.…

Case study: use of problem-based learning to develop students' technical and professional skills

NASA Astrophysics Data System (ADS)

Warnock, James N.; Mohammadi-Aragh, M. Jean

2016-03-01

Problem-based learning (PBL) is a pedagogy that has attracted attention for many biomedical engineering curricula. The aim of the current study was to address the research question, 'Does PBL enable students to develop desirable professional engineering skills?' The desirable skills identified were communication, teamwork, problem solving and self-directed learning. Forty-seven students enrolled in a biomedical materials course participated in the case study. Students worked in teams to complete a series of problems throughout the semester. The results showed that students made significant improvements in their problem-solving skills, written communication and self-directed learning. Students also demonstrated an ability to work in teams and communicate orally. In conclusion, this case study provides empirical evidence of the efficacy of PBL on student learning. We discuss findings from our study and provide observations of student performance and perceptions that could be useful for faculty and researchers interested in PBL for biomedical engineering education.

Fostering ICT and Inquiry Enhanced Instruction in Early Years Science Education: Creating a Model of Team Teaching

ERIC Educational Resources Information Center

Havu-Nuutinen, Sari

2017-01-01

This study aims to develop team teaching approach at elementary school science by piloting the created model of teachers' collaboration in three different stages. In the research the model of team teaching is seen as teachers' collaboration in which university teachers, elementary school teachers and teacher students are working towards…

School Response to Violence: A Case Study in Developing Crisis Response Teams

ERIC Educational Resources Information Center

Walsh, Ronald J.

2010-01-01

The purpose of this case study was to evaluate the perceptions of participants regarding their effectiveness in responding to defiant student violence as a crisis response team, following crisis response team training. The participants were a group of 10 volunteer PK-6 public school educators from western Wisconsin. The study took place during the…

Incorporating Team-Based Learning Into a Physician Assistant Clinical Pharmacology Course.

PubMed

Nguyen, Timothy; Wong, Elaine; Pham, Antony

2016-03-01

To obtain student perceptions of team-based learning and compare the effectiveness of team-based learning and traditional lecture formats in a clinical pharmacology course for physician assistant (PA) students. Clinical pharmacology is a course offered to PA students in their first year of training at LIU Brooklyn, Brooklyn, NY. In spring 2014, half of the course was offered in a traditional lecture format and the remaining half was offered in a team-based learning format. The team-based learning format had 3 components: (1) prereading assignments, (2) individual readiness assessment tests, and (3) team readiness assessment tests. So that student perceptions of the integration of team-based learning activities into the course could be evaluated, presurveys and postsurveys were administered. The effectiveness of team-based learning was evaluated by comparing overall student performance with student performance in the preceding year. Thirty-three students were enrolled in the course and completed the presurveys and postsurveys. The survey results are presented in Table 1. Comparison of student performance on examinations with performance from the previous year showed similar outcomes. Incorporating a team-based learning pedagogical approach in the PA pharmacology course yielded similar examination results to those of traditional lecture formats. Presurvey and postsurvey questionnaires yielded various student perceptions of team-based learning.

An innovative addition to team-based-learning pedagogy to enhance teaching and learning: Students' perceptions of team exams.

PubMed

Khansari, Parto S; Coyne, Leanne

The study investigates students' perceptions of the value of implementing a team exam to enhance learning prior to a summative assessment. Team exams are similar to midterm exams, except that answering questions is a team effort. Data was collected from second year pharmacy students at California Northstate University College of Pharmacy (CNUCOP) through a self-administered online survey. The survey questions included closed-ended questions to evaluate students' perception on preparedness for a summative assessment and to rank advantages and disadvantages of the team exams. Of the 40 students who completed the survey (38% response rate), 100% of participants agreed that having a team exam prior to a major exam made them feel more prepared for a major summative exam. Ninety-seven percent of students believed that the team exam helped them to identify gaps in their knowledge and 85% agreed that taking a team exam reinforced their knowledge by teaching other students. The survey results did not identify any major disadvantages to holding a team exam. Students perceived that taking a team exam prior to a midterm exam is an effective approach to review the course contents and identify areas of improvement. Copyright © 2017. Published by Elsevier Inc.

Incorporating Topics That Aren't Distance-Friendly into an Online Program: One Development Team's Experience

ERIC Educational Resources Information Center

Schaefer, Valentin; Doner, Sue; Pivnick, Janet

2013-01-01

The Native Species and Natural Processes certificate at the University of Victoria is an advanced-level online program of four courses to introduce students to state-of-the-art topics in the field of ecological restoration. The program posed some unique challenges for course developers. The development team needed to find ways to create online…

Team-based Learning Strategy in Biochemistry: Perceptions and Attitudes of Faculty and 1st-Year Medical Students

PubMed Central

Chhabra, Namrata; Kukreja, Sahiba; Chhabra, Sarah; Chhabra, Sahil; Khodabux, Sameenah; Sabane, Harshal

2017-01-01

Background: Team-based learning (TBL) strategy has been widely adapted by medical schools all over the world, but the reports regarding the perceptions and the attitudes of faculty and undergraduate medical students towards TBL approach have been conflicting. Aim: The study aimed to introduce TBL strategy in curriculum of Biochemistry after evaluating its effectiveness through perceptions and attitudes of faculty and 1st-year medical students. Materials and Methods: One hundred and fifty students of first professional M.B.B.S and five faculty members participated in the study. Their responses regarding perceptions and attitudes towards TBL strategy were collected using structured questionnaires, focus group discussions, and in-depth interviews. Data were analyzed using Wilcoxon signed-rank test, paired sample t-test, and Mann–Whitney U-test. Results: Majority of the students expressed satisfaction with team approach and reported improvement in the academic scores, learning styles, and development of problem-solving, interpersonal, and professional skills. The faculty, however, recommended a modified TBL approach to benefit all sections of the students for the overall success of this intervention. Conclusion: TBL is an effective technique to enable the students to master the core concepts and develop professional and critical thinking skills; however, for the 1st-year medical students, a modified TBL approach might be more appropriate for the effective outcomes. PMID:29344463

Comparing team-based and mixed active-learning methods in an ambulatory care elective course.

PubMed

Zingone, Michelle M; Franks, Andrea S; Guirguis, Alexander B; George, Christa M; Howard-Thompson, Amanda; Heidel, Robert E

2010-11-10

To assess students' performance and perceptions of team-based and mixed active-learning methods in 2 ambulatory care elective courses, and to describe faculty members' perceptions of team-based learning. Using the 2 teaching methods, students' grades were compared. Students' perceptions were assessed through 2 anonymous course evaluation instruments. Faculty members who taught courses using the team-based learning method were surveyed regarding their impressions of team-based learning. The ambulatory care course was offered to 64 students using team-based learning (n = 37) and mixed active learning (n = 27) formats. The mean quality points earned were 3.7 (team-based learning) and 3.3 (mixed active learning), p < 0.001. Course evaluations for both courses were favorable. All faculty members who used the team-based learning method reported that they would consider using team-based learning in another course. Students were satisfied with both teaching methods; however, student grades were significantly higher in the team-based learning course. Faculty members recognized team-based learning as an effective teaching strategy for small-group active learning.

Preservice Teacher Perspectives on Prereferral Intervention and Student Support Teams

ERIC Educational Resources Information Center

Grogg, Kathryn R.

2009-01-01

This qualitative inquiry evaluated the Student Support Team Project and its effects on preservice teachers' knowledge and perceptions of prereferral intervention and student support teams. This investigation is important because prereferral intervention and student support teams have been used increasingly to provide assistance to teachers and to…

A virtual team group process.

PubMed

Bell, Marnie; Robertson, Della; Weeks, Marlene; Yu, Deborah

2002-01-01

Virtual teams are a phenomenon of the Information Era and their existence in health care is anticipated to increase with technology enhancements such as telehealth and groupware. The mobilization and support of high performing virtual teams are important for leading knowledge-based health professionals in the 21st century. Using an adapted McGrath group development model, the four staged maturation process of a virtual team consisting of four masters students is explored in this paper. The team's development is analyzed addressing the interaction of technology with social and task dynamics. Throughout the project, leadership competencies of value to the group that emerged were demonstrated and incorporated into the development of a leadership competency assessment instrument. The demonstration of these competencies illustrated how they were valued and internalized by the group. In learning about the work of this virtual team, the reader will gain understanding of how leadership impacts virtual team performance.

Integrating Students and Teachers into Research on Adaptation to Climate Change

NASA Astrophysics Data System (ADS)

Lane, T.; Lescaze, M.; Lenorovitz, K.

2013-12-01

High school students and teachers have the opportunity to participate in current research through a Research Mentor/Teacher/Student team approach offered by the VT EPSCoR Center's for Workforce Development and Diversity (CWDD). High school teams (two students and one teacher) participate in a summer residential training week to learn about the research program and learn field and lab research skills. During the academic year they collect data for the university research project from sites near their schools, and formulate an independent research question of their own, guided by a research mentor. Through the year-long program participants develop skills in scientific methods, earth systems thinking and data analysis. Participants experience what research and being a scientist is all about. The research program benefits from a distributed data gathering network, and the high school teams become part of a research community. High school projects have researched the relationship between anticipated increase in storm intensity and frequency in the northeast as a result of climate change, to phosphorus and sediment loading in streams, land use change, and biotic communities, to name a few. This poster, authored by a teacher participants in the program, will share the experience and benefits to their students.

Design of a turbofan powered regional transport aircraft

NASA Technical Reports Server (NTRS)

1991-01-01

The majority of the market for small commercial transport aircraft is dominated by high-efficiency, propeller-driven aircraft of non-U.S. manufacture. During the past year senior student design teams at Purdue developed and then responded to a Request For Proposal (RFP) for a regional transport aircraft. The RFP development identified promising world markets and their needs. The students responded by designing aircraft with ranges of up to 1500 n.m. and passenger loads of 50 to 90. During the design project, special emphasis was placed upon keeping acquisition cost and direct operating costs at a low level while providing passengers with quality comfort levels. Twelve student teams worked for one semester developing their designs. Several of the more successful designs and those that placed a high premium on innovation are described. The depth of detail and analysis in these student efforts are also illustrated.

Student experience of a scenario-centred curriculum

NASA Astrophysics Data System (ADS)

Bell, Sarah; Galilea, Patricia; Tolouei, Reza

2010-06-01

In 2006 UCL implemented new scenario-centred degree programmes in Civil and Environmental Engineering. The new curriculum can be characterised as a hybrid of problem-based, project-based and traditional approaches to learning. Four times a year students work in teams for one week on a scenario which aims to integrate learning from lecture and laboratory classes and to develop generic skills including team working and communication. Student experience of the first two years the old and new curricula were evaluated using a modified Course Experience Questionnaire. The results showed that students on the new programme were motivated by the scenarios and perceived better generic skills development, but had a lower perception of teaching quality and the development of design skills. The results of the survey support the implementation new curriculum but highlight the importance of strong integration between conventional teaching and scenarios, and the challenges of adapting teaching styles to suit.

Enhancing teamwork using a creativity-focussed learning intervention for undergraduate nursing students - A pilot study.

PubMed

Carson, O M; Laird, E A; Reid, B B; Deeny, P G; McGarvey, H E

2018-02-22

A cohort of year two students (n = 181) was exposed to a transformational and experiential learning intervention in the form of team-led poster development workshops to enhance competence and interpersonal skills for working in teams. The aims of this study were to test the suitability of an amended TeamSTEPPS teamwork perceptions questionnaire (T-TPQ) for measuring the impact of the intervention on students' perceptions of team working, and to ascertain students' views about the experience. This was a two phase pilot study. Phase 1 was a repeated measures design to test the T-TPQ for evaluating the impact of the experiential intervention, and Phase 2 was a survey of students' views and opinions. Descriptive and statistical analysis of the data were performed. Our findings suggest that age and part-time employment mediate towards more positive teamwork perceptions. Teamwork perceptions increased from week 3 to week 9 of the experiential intervention, and students viewed the experience positively. This was the first time that the T-TPQ was tested for suitability for measuring the impact of an experiential learning intervention among nursing students. Despite limitations, our study indicates that the amended T-TPQ is sensitive to changes in teamwork perceptions in repeated measures design studies among nursing students. Copyright © 2018 Elsevier Ltd. All rights reserved.

Pairing students in clinical assignments to develop collaboration and communication skills.

PubMed

Bartges, Mali

2012-01-01

Skillful collaboration and communication among healthcare team members are associated with favorable patient outcomes. Student nurses need opportunities for supervised development of these crucial and intertwined skills. The author describes the implementation of a practice-change project for simultaneously developing collaboration and communication skills by pairing prelicensure student nurses in clinical assignments. This easily adapted strategy increases options for faculty looking to stimulate student acquisition of these professional skills.

Tutor Training in Computer Science: Tutor Opinions and Student Results.

ERIC Educational Resources Information Center

Carbone, Angela; Mitchell, Ian

Edproj, a project team of faculty from the departments of computer science, software development and education at Monash University (Australia) investigated the quality of teaching and student learning and understanding in the computer science and software development departments. Edproj's research led to the development of a training program to…

Gunn and Heid: Teaching Small Group Development with Reality TV

ERIC Educational Resources Information Center

Kopaczewski, Shana

2017-01-01

Courses: Small group communication or any courses with units on group/team work. Objective: In this single-class activity, students will use reality TV to identify Tuckman's five phases of group development: forming, storming, norming, performing, and adjourning. Students analyze how phases of group development manifest through group interaction…

"Doug C. v. Hawaii Department of Education": Parental Participation in IEP Development

ERIC Educational Resources Information Center

Yell, Mitchell L.; Katsiyannis, Antonis; Losinski, Mickey

2015-01-01

Parental participation is a crucial component of the Individuals with Disabilities Education Act. When developing students' Individualized Education Programs (IEPs), school-based teams must place a high priority on involving students' parents in a collaborative effort to develop their children's educational programs and determine their placements.…

When less is more: validating a brief scale to rate interprofessional team competencies.

PubMed

Lie, Désirée A; Richter-Lagha, Regina; Forest, Christopher P; Walsh, Anne; Lohenry, Kevin

2017-01-01

There is a need for validated and easy-to-apply behavior-based tools for assessing interprofessional team competencies in clinical settings. The seven-item observer-based Modified McMaster-Ottawa scale was developed for the Team Objective Structured Clinical Encounter (TOSCE) to assess individual and team performance in interprofessional patient encounters. We aimed to improve scale usability for clinical settings by reducing item numbers while maintaining generalizability; and to explore the minimum number of observed cases required to achieve modest generalizability for giving feedback. We administered a two-station TOSCE in April 2016 to 63 students split into 16 newly-formed teams, each consisting of four professions. The stations were of similar difficulty. We trained sixteen faculty to rate two teams each. We examined individual and team performance scores using generalizability (G) theory and principal component analysis (PCA). The seven-item scale shows modest generalizability (.75) with individual scores. PCA revealed multicollinearity and singularity among scale items and we identified three potential items for removal. Reducing items for individual scores from seven to four (measuring Collaboration, Roles, Patient/Family-centeredness, and Conflict Management) changed scale generalizability from .75 to .73. Performance assessment with two cases is associated with reasonable generalizability (.73). Students in newly-formed interprofessional teams show a learning curve after one patient encounter. Team scores from a two-station TOSCE demonstrate low generalizability whether the scale consisted of four (.53) or seven items (.55). The four-item Modified McMaster-Ottawa scale for assessing individual performance in interprofessional teams retains the generalizability and validity of the seven-item scale. Observation of students in teams interacting with two different patients provides reasonably reliable ratings for giving feedback. The four-item scale has potential for assessing individual student skills and the impact of IPE curricula in clinical practice settings. IPE: Interprofessional education; SP: Standardized patient; TOSCE: Team objective structured clinical encounter.

Straddling care and education: Developing interprofessional collaboration through a hotspotting service learning project.

PubMed

Jones, Anne C; Li, Trudy; Zomorodi, Meg; Broadhurst, Rob; Weil, Amy B

2018-06-01

Interprofessional (IP) team work has been shown to decrease burnout and improve care and decrease costs. However, institutional barriers have challenged adoption in practice and education. Faculty and students are turning to IP service-learning projects to help students gain experience and provide needed services. This paper highlights a "hotspotting" program where students from different health professions work collaboratively to improve high utilizing patients' health. Benefits, challenges and preliminary results including cost savings and student efficacy are shared. Institutions should surmount barriers that make hotspotting service-learning challenging as IP team-based experiences prepare students for the workplace and can help mitigate burnout. Copyright © 2018 Elsevier Inc. All rights reserved.

A Framework for Successful Research Experiences in the Classroom: Combining the Power of Technology and Mentors

NASA Technical Reports Server (NTRS)

Graff, Paige Valderrama; Stefanov, William L.; Willis, Kim; Runco, Susan; McCollum, Tim; Lindgren, Charles F.; Baker, Marshalyn; Mailhot, Michele

2011-01-01

Authentic research opportunities in the classroom are most impactful when they are student-driven and inquiry-based. These experiences are even more powerful when they involve technology and meaningful connections with scientists. In today's classrooms, activities are driven by state required skills, education standards, and state mandated testing. Therefore, programs that incorporate authentic research must address the needs of teachers. NASA's Expedition Earth and Beyond (EEAB) Program has developed a framework that addresses teacher needs and incorporates the use of technology and access to mentors to promote and enhance authentic research in the classroom. EEAB is a student involvement program that facilitates student investigations of Earth or planetary comparisons using NASA data. To promote student-led research, EEAB provides standards-aligned, inquiry-based curricular resources, an implementation structure to facilitate research, educator professional development, and ongoing support. This framework also provides teachers with the option to incorporate the use of technology and connect students with a mentor, both of which can enrich student research experiences. The framework is structured by a modeled 9-step process of science which helps students organize their research. With more schools gaining increased access to technology, EEAB has created an option to help schools take advantage of students' interest and comfort with technology by leveraging the use of available technologies to enhance student research. The use of technology not only allows students to collaborate and share their research, it also provides a mechanism for them to work with a mentor. This framework was tested during the 2010/2011 school year. Team workspaces hosted on Wikispaces for Educators allow students to initiate their research and refine their research question initially without external input. This allows teams to work independently and rely on the skills and interests of team members. Once teams finalize their research question, they are assigned a mentor. The mentor introduces himself/herself, acknowledges the initial work the team has conducted, and asks a focused question to help open the lines of communication. Students continue to communicate with their mentor throughout their research. As research is completed, teams can share their investigation during a virtual presentation. These live presentations allow students to share their research with their mentor, other scientists, other students, parents, and school administrators. After the initial year of testing this authentic research process, EEAB is working to address the many lessons learned. This will allow the program to refine and improve the overall process in an effort to maximize the benefits. Combined, these powerful strategies provide a successful framework to help teachers enhance the skills and motivation of their students, preparing them to become the next generation of scientists, explorers, and STEM-literate citizens of our nation.

A Framework for Successful Research Experiences in the Classroom: Combining the Power of Technology and Mentors

NASA Astrophysics Data System (ADS)

Graff, P. V.; Stefanov, W. L.; Willis, K.; Runco, S.; McCollum, T.; Lindgren, C. F.; Baker, M.; Mailhot, M.

2011-12-01

Authentic research opportunities in the classroom are most impactful when they are student-driven and inquiry-based. These experiences are even more powerful when they involve technology and meaningful connections with scientists. In today's classrooms, activities are driven by state required skills, education standards, and state mandated testing. Therefore, programs that incorporate authentic research must address the needs of teachers. NASA's Expedition Earth and Beyond (EEAB) Program has developed a framework that addresses teacher needs and incorporates the use of technology and access to mentors to promote and enhance authentic research in the classroom. EEAB is a student involvement program that facilitates student investigations of Earth or planetary comparisons using NASA data. To promote student-led research, EEAB provides standards-aligned, inquiry-based curricular resources, an implementation structure to facilitate research, educator professional development, and ongoing support. This framework also provides teachers with the option to incorporate the use of technology and connect students with a mentor, both of which can enrich student research experiences. The framework is structured by a modeled 9-step process of science which helps students organize their research. With more schools gaining increased access to technology, EEAB has created an option to help schools take advantage of students' interest and comfort with technology by leveraging the use of available technologies to enhance student research. The use of technology not only allows students to collaborate and share their research, it also provides a mechanism for them to work with a mentor. This framework was tested during the 2010/2011 school year. Team workspaces hosted on Wikispaces for Educators allow students to initiate their research and refine their research question initially without external input. This allows teams to work independently and rely on the skills and interests of team members. Once teams finalize their research question, they are assigned a mentor. The mentor introduces himself/herself, acknowledges the initial work the team has conducted, and asks a focused question to help open the lines of communication. Students continue to communicate with their mentor throughout their research. As research is completed, teams can share their investigation during a virtual presentation. These live presentations allow students to share their research with their mentor, other scientists, other students, parents, and school administrators. After the initial year of testing this authentic research process, EEAB is working to address the many lessons learned. This will allow the program to refine and improve the overall process in an effort to maximize the benefits. Combined, these powerful strategies provide a successful framework to help teachers enhance the skills and motivation of their students, preparing them to become the next generation of scientists, explorers, and STEM-literate citizens of our nation.

Dynamic Undergraduate Climate Change Affinity Program: University of Delaware Climate Program for Undergraduates (CPUG)

NASA Astrophysics Data System (ADS)

Merrill, J.

2017-12-01

Multidisciplinary undergraduate climate change education is critical for students entering any sector of the workforce. The University of Delaware has developed a new interdisciplinary affinity program—UD Climate Program for Undergraduates (CPUG)—open to undergraduate students of all majors to provide a comprehensive educational experience designed to educate skilled climate change problem-solvers for a wide range of professional careers. The program is designed to fulfill all General Education requirements, and includes a residential community commitment and experiential learning in community outreach and problem solving. Seminars will introduce current popular press and research materials and provide practice in confirming source credibility, communications training, and psychological support, as well as team building. As undergraduates, members of the UD CPUG team will define, describe, and develop a solution or solutions for a pressing local climate challenge that has the potential for global impact. The choice of a challenge and approach to addressing it will be guided by the student's advisor. Students are expected to develop a practical, multidisciplinary solution to address the challenge as defined, using their educational and experiential training. Solutions will be presented to the UD community during the spring semester of their senior year, as a collaborative team solution, with enhancement through individual portfolios from each team member. The logic model, structure, curricular and co-curricular supports for the CPUG will be provided. Mechanisms of support available through University administration will also be discussed.

The Student Spaceflight Experiments Program: Access to the ISS for K-14 Students

NASA Astrophysics Data System (ADS)

Livengood, Timothy A.; Goldstein, J. J.; Vanhala, H. A. T.; Johnson, M.; Hulslander, M.

2012-10-01

The Student Spaceflight Experiments Program (SSEP) has flown 42 experiments to space, on behalf of students from middle school through community college, on 3 missions: each of the last 2 Space Shuttle flights, and the first SpaceX resupply flight to the International Space Station (ISS). SSEP plans 2 missions to the ISS per year for the foreseeable future, and is expanding the program to include 4-year undergraduate college students and home-schooled students. SSEP experiments have explored biological, chemical, and physical phenomena within self-contained enclosures developed by NanoRacks, currently in the form of MixStix Fluid Mixing Enclosures. Over 9000 students participated in the initial 3 missions of SSEP, directly experiencing the entire lifecycle of space science experimentation through community-wide participation in SSEP, taking research from a nascent idea through developing competitive research proposals, down-selecting to three proposals from each participating community and further selection of a single proposal for flight, actual space flight, sample recovery, analysis, and reporting. The National Air and Space Museum has hosted 2 National Conferences for SSEP student teams to report results in keeping with the model of professional research. Student teams have unflinchingly reported on success, failure, and groundbased efforts to develop proposals for future flight opportunities. Community participation extends outside the sciences and the immediate proposal efforts to include design competitions for mission patches (that also fly to space). Student experimenters have rallied around successful proposal teams to support a successful experiment on behalf of the entire community. SSEP is a project of the National Center for Earth and Space Science Education enabled through NanoRacks LLC, working in partnership with NASA under a Space Act Agreement as part of the utilization of the International Space Station as a National Laboratory.

Vertical Integration: Results from a Cross-Course Student Collaboration

ERIC Educational Resources Information Center

Sloan, Thomas; Lewis, David

2011-01-01

The authors report the results of a cross-class project involving sophomore-level students in an Operations Analysis (OA) class with junior-level students in an Operations Management (OM) class. The students formed virtual teams and developed a simulation model of a call center. The OM students provided the management expertise, while the OA…

Cross-Cultural Management Learning through Innovative Pedagogy: An Exploratory Study of Globally Distributed Student Teams

ERIC Educational Resources Information Center

Bartel-Radic, Anne; Moos, J. Chris; Long, Suzanna K.

2015-01-01

This article presents an innovative pedagogy based on student participation in globally distributed project teams. The study questions the link between student learning of intercultural competence and the global teaming experience. Data was collected from 115 students participating in 22 virtual intercultural teams. Results revealed that students…

Developing "Green" Business Plans: Using Entrepreneurship to Teach Science to Business Administration Majors and Business to Biology Majors

ERIC Educational Resources Information Center

Letovsky, Robert; Banschbach, Valerie S.

2011-01-01

Biology majors team with business administration majors to develop proposals for "green" enterprise for a business plan competition. The course begins with a series of student presentations so that science students learn about the fundamentals of business, and business students learn about environmental biology. Then mixed biology-business student…

Developing Students' Functional Thinking in Algebra through Different Visualisations of a Growing Pattern's Structure

ERIC Educational Resources Information Center

Wilkie, Karina J,; Clarke, Doug

2014-01-01

This design-based research project investigated the development of functional thinking in algebra for the upper primary years of schooling. Ten teachers and their students were involved in a sequence of five cycles of collaborative planning, team-teaching, evaluating and revising five lessons on functional thinking for their students over one…

Collective Efficacy Beliefs in Student Work Teams: Relation to Self-Efficacy, Cohesion, and Performance

ERIC Educational Resources Information Center

Lent, Robert W.; Schmidt, Janet; Schmidt, Linda

2006-01-01

A measure of collective efficacy was developed and administered to undergraduates working in project teams in engineering courses. Findings in each of two samples revealed that the measure contained a single factor and was related to ratings of team cohesion and personal efficacy. Collective efficacy was also found to relate to indicators of team…

Assessment of Teams and Teamwork in the University of Maryland Libraries

ERIC Educational Resources Information Center

Baughman, M. Sue

2008-01-01

Teams play an important role in the University of Maryland (UM) Libraries. Since 1998, teams and collaborative teamwork have become the way librarians address the myriad of issues affecting the needs of UM's faculty, students, and staff. There has been much change in the UM Libraries over the past nine years, and the development is ongoing.…

Future Game Developers within a Virtual World: Learner Archetypes and Team Leader Attributes

ERIC Educational Resources Information Center

Franetovic, Marija

2016-01-01

This case study research sought to understand a subset of the next generation in reference to virtual world learning within a game development course. The students completed an ill-structured team project which was facilitated using authentic learning strategies within a virtual world over a period of seven weeks. Research findings emerged from…

Simulation Models for Developing an Individualized, Performance Criterion Learning Situation. Technical Monograph No. 21.

ERIC Educational Resources Information Center

Anderson, G. Ernest, Jr.

The mission of the simulation team of the Model Elementary Teacher Education Project, 1968-71, was to develop simulation tools and conduct appropriate studies of the anticipated operation of that project. The team focused on the experiences of individual students and on the resources necessary for these experiences to be reasonable. This report…

Student Services Revitalization/Transformation

ERIC Educational Resources Information Center

Pipitone, Brenda; Poirer, Wayne

2011-01-01

Over a two year period, a multidisciplinary team developed and implemented a plan to transform the delivery of student services at George Brown College in Toronto. It was a plan that called upon the College to fundamentally overhaul student services, but more importantly, to transform the service culture at the College through the students'…

Collaborative Learning: Students' Perspectives on How Learning Happens

ERIC Educational Resources Information Center

Almajed, Abdulaziz; Skinner, Vicki; Peterson, Ray; Winning, Tracey

2016-01-01

Collaborative learning (CL), a core component of inquiry-based learning approaches, aims to support students' development of key skills (e.g., working in multidisciplinary teams). To design effective CL activities, we need to understand students' perceptions about CL. However, few studies have examined students' understandings of CL. This…

Project LEEDS: Leadership Education To Empower Disabled Students. Final Report.

ERIC Educational Resources Information Center

Aune, Betty; And Others

This final report describes the activities of Project LEEDS (Leadership Education to Empower Disabled Students), a federally supported project designed to create student/staff teams from colleges and universities to encourage undergraduate/graduate students with disabilities to become leaders, through development of self-identity and identity with…

Predictors of Team Work Satisfaction

ERIC Educational Resources Information Center

Hamlyn-Harris, James H.; Hurst, Barbara J.; von Baggo, Karola; Bayley, Anthony J.

2006-01-01

The ability to work in teams is an attribute highly valued by employers of information technology (IT) graduates. For IT students to effectively engage in team work tasks, the process of working in teams should be satisfying for the students. This work explored whether university students who were involved in compulsory team work were satisfied…

Over the counter drugs (and dietary supplement) exercise: a team-based introduction to biochemistry for health professional students.

PubMed

Phadtare, Sangita; Abali, Emine; Brodsky, Barbara

2013-01-01

For successful delivery of basic science topics for health-professional students, it is critical to reduce apprehension and illustrate relevance to clinical settings and everyday life. At the beginning of the Biochemistry course for Physician Assistants, a team-based assignment was designed to develop an understanding of the mechanism of action, effectiveness, and toxicity of five common over the counter (OTC) drugs and dietary supplements, and place these familiar medicines in a political and historical context. The objectives of this exercise were to stimulate interest in biochemistry; to provide basic information on enzymes and enzyme inhibitors related to these drugs to be expanded upon later in the course; and to encourage active and interactive learning. Teams of five students were formed, and each student was given an information sheet on aspirin, alpha-galactosidase, orlistat, dextromethorphan, or simvastatin, a low dose statin, which was previously available without prescription at pharmacies in the UK. After each member of the team acquired information on one OTC drug/dietary supplement by reading an assigned information sheet, the team was asked to go through a series of questions, and then submit answers to a quiz as a group. A high rate of success on the quiz, an overwhelmingly positive response on formal course evaluations, and enthusiastic exchanges during class suggested this team-based session accomplished its goals. Copyright © 2013 Wiley-Liss, Inc.

Team Investment and Longitudinal Relationships: An Innovative Global Health Education Model.

PubMed

Myers, Kimberly R; Fredrick, N Benjamin

2017-12-01

Increasing student interest in global health has resulted in medical schools offering more global health opportunities. However, concerns have been raised, particularly about one-time, short-term experiences, including lack of follow-through for students and perpetuation of unintentional messages of global health heroism, neocolonialism, and disregard for existing systems and communities of care. Medical schools must develop global health programs that address these issues. The Global Health Scholars Program (GHSP) was created in 2008-2009 at Penn State College of Medicine. This four-year program is based on values of team investment and longitudinal relationships and uses the service-learning framework of preparation, service, and reflection. Teams of approximately five students, with faculty oversight, participate in two separate monthlong trips abroad to the same host community in years 1 and 4, and in campus- and Web-based activities in years 2 and 3. As of December 2016, 191 students have been accepted into the GHSP. Since inception, applications have grown by 475% and program sites have expanded from one to seven sites on four continents. The response from students has been positive, but logistical challenges persist in sustaining team investment and maintaining longitudinal relationships between student teams and host communities. Formal methods of assessment should be used to compare the GHSP model with more traditional approaches to global health education. Other medical schools with similar aims can adapt the GHSP model to expand their global health programming.

One more thing: Faculty response to increased emphasis on project teams in undergraduate engineering education

NASA Astrophysics Data System (ADS)

Hunter, Jane

Tenured and tenure-track faculty members at institutions of higher education, especially those at Research I institutions, are being asked to do more than ever before. With rapidly changing technology, significant decreases in public funding, the shift toward privately funded research, and the ever increasing expectations of students for an education that adequately prepares them for professional careers, engineering faculty are particularly challenged by the escalating demands on their time. In 1996, the primary accreditation organization for engineering programs (ABET) adopted new criteria that required, among other things, engineering programs to teach students to function on multidisciplinary teams and to communicate effectively. In response, most engineering programs utilize project teams as a strategy for teaching these skills. The purpose of this qualitative study of tenured and tenure track engineering faculty at a Research I institution in the southwestern United States was to explore the variety of ways in which the engineering faculty responded to the demands placed upon them as a result of the increased emphasis on project teams in undergraduate engineering education. Social role theory and organizational climate theory guided the study. Some faculty viewed project teams as an opportunity for students to learn important professional skills and to benefit from collaborative learning but many questioned the importance and feasibility of teaching teamwork skills and had concerns about taking time away from other essential fundamental material such as mathematics, basic sciences and engineering sciences. Although the administration of the College of Engineering articulated strong support for the use of project teams in undergraduate education, the prevailing climate did little to promote significant efforts related to effective utilization of project teams. Too often, faculty were unwilling to commit sufficient time or effort to make project teamwork a truly valuable learning opportunity because those efforts were not perceived to be valuable and were rarely rewarded. Few formal professional development opportunities were available and few incentives were in place to encourage other informal efforts to develop the necessary skills. Those who committed significant effort to project teams were challenged by concerns about team composition, student accountability and assigning individual grades for group teamwork.

A mixed methods evaluation of team-based learning for applied pathophysiology in undergraduate nursing education.

PubMed

Branney, Jonathan; Priego-Hernández, Jacqueline

2018-02-01

It is important for nurses to have a thorough understanding of the biosciences such as pathophysiology that underpin nursing care. These courses include content that can be difficult to learn. Team-based learning is emerging as a strategy for enhancing learning in nurse education due to the promotion of individual learning as well as learning in teams. In this study we sought to evaluate the use of team-based learning in the teaching of applied pathophysiology to undergraduate student nurses. A mixed methods observational study. In a year two, undergraduate nursing applied pathophysiology module circulatory shock was taught using Team-based Learning while all remaining topics were taught using traditional lectures. After the Team-based Learning intervention the students were invited to complete the Team-based Learning Student Assessment Instrument, which measures accountability, preference and satisfaction with Team-based Learning. Students were also invited to focus group discussions to gain a more thorough understanding of their experience with Team-based Learning. Exam scores for answers to questions based on Team-based Learning-taught material were compared with those from lecture-taught material. Of the 197 students enrolled on the module, 167 (85% response rate) returned the instrument, the results from which indicated a favourable experience with Team-based Learning. Most students reported higher accountability (93%) and satisfaction (92%) with Team-based Learning. Lectures that promoted active learning were viewed as an important feature of the university experience which may explain the 76% exhibiting a preference for Team-based Learning. Most students wanted to make a meaningful contribution so as not to let down their team and they saw a clear relevance between the Team-based Learning activities and their own experiences of teamwork in clinical practice. Exam scores on the question related to Team-based Learning-taught material were comparable to those related to lecture-taught material. Most students had a preference for, and reported higher accountability and satisfaction with Team-based Learning. Through contextualisation and teamwork, Team-based Learning appears to be a strategy that confers strong pedagogical benefits for teaching applied pathophysiology (bioscience) to student nurses. Copyright © 2017 The Authors. Published by Elsevier Ltd.. All rights reserved.

Faculty and Student Teams and National Laboratories: Expanding the Reach of Research Opportunities and Workforce Development

DOE Office of Scientific and Technical Information (OSTI.GOV)

Blackburn,N.; White, K.; Stegman, M.

The Faculty and Student Teams (FaST) Program, a cooperative effort between the US Department of Energy (DOE) Office of Science and the National Science Foundation (NSF), brings together collaborative research teams composed of a researcher at Brookhaven National Laboratory, and a faculty member with two or three undergraduate students from a college or university. Begun by the Department of Energy in 2000 with the primary goal of building research capacity at a faculty member's home institution, the FaST Program focuses its recruiting efforts on faculty from colleges and universities with limited research facilities and those institutions that serve populations under-representedmore » in the fields of science, engineering and technology, particularly women and minorities. Once assembled, a FaST team spends a summer engaged in hands-on research working alongside a laboratory scientist. This intensely collaborative environment fosters sustainable relationships between the faulty members and BNL that allow faculty members and their BNL colleagues to submit joint proposals to federal agencies, publish papers in peer-reviewed journals, reform local curriculum, and develop new or expand existing research labs at their home institutions.« less

Changes in Perceptions and Attitudes of Healthcare Profession Students Pre and Post Academic Course Experience of Team-Based 'Care for the Critically Ill'.

PubMed

Clark, Karen; Congdon, Heather Brennan; Macmillan, Kelley; Gonzales, Jeffrey P; Guerra, Adriana

2015-01-01

The aim of this study was to describe the development and outcomes of an interprofessional course "Interprofessional Care of the Critically Ill," involving pharmacy, nursing, social work, and respiratory therapy students from two universities. An institutional review board-approved survey was adapted from the TeamSTEPPS surveys investigating clinical practitioners' attitudes and perceptions regarding teamwork, collaboration, and interprofessional engagement. Items applicable to an academic setting were revised and resulted in a 28-statement survey and comments section. Participation was voluntary, and students were requested to participate in the survey on the first and last day of class. There was a significant increase in the perceived understanding of scope of practice of other disciplines from the beginning to end of class (24.4 to 60%, strongly agreed/agreed). Furthermore, students gained appreciation for the complexities associated with working in an interprofessional team with a significant increase in the percent agreeing and strongly agreeing that working on an interdisciplinary team is challenging (66.7 to 81%). Students and faculty gained a greater understanding and appreciation for other disciplines represented in the class and are therefore better prepared to engage in health care teams upon graduation. IPE should be embedded in curriculums and not just an add-on. Copyright © 2015 Elsevier Inc. All rights reserved.

Physics and Science Education through Project Activities of University Students and Regional Collaboration

NASA Astrophysics Data System (ADS)

Hasegawa, Makoto

A project team "Rika-Kobo" organized by university students has actively performed various science education activities at primary and secondary schools and other educational facilities as well as in science events in local areas. The activities of this student project team are related to various fields of physics and sciences. In order to provide more attractive activities, the student members prepare original experiment tools and easily-understandable presentation and explanation. Through such activities, the members can have opportunities of obtaining new knowledge and refreshing their already-obtained understandings in related fields of physics and sciences. They can also have chances of improving their skills and abilities such as presentation, problem-finding and solving, which are useful for realizing their career development. The activities of the student project team have been also welcomed by children, parents, teachers and other people in local areas because the activities provide them with opportunities of knowing and learning new knowledge in physics and sciences.

Microgravity

NASA Image and Video Library

2001-04-26

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here Jose Carrion, a lab mechanic with AKAC, starts the orange-colored drag shield, and the experiment apparatus inside, on the hoist upward to the control station at the top of the drop tower. This image is from a digital still camera; higher resolution is not available.

Team research at the biology-mathematics interface: project management perspectives.

PubMed

Milton, John G; Radunskaya, Ami E; Lee, Arthur H; de Pillis, Lisette G; Bartlett, Diana F

2010-01-01

The success of interdisciplinary research teams depends largely upon skills related to team performance. We evaluated student and team performance for undergraduate biology and mathematics students who participated in summer research projects conducted in off-campus laboratories. The student teams were composed of a student with a mathematics background and an experimentally oriented biology student. The team mentors typically ranked the students' performance very good to excellent over a range of attributes that included creativity and ability to conduct independent research. However, the research teams experienced problems meeting prespecified deadlines due to poor time and project management skills. Because time and project management skills can be readily taught and moreover typically reflect good research practices, simple modifications should be made to undergraduate curricula so that the promise of initiatives, such as MATH-BIO 2010, can be implemented.

Preparing rehabilitation healthcare providers in the 21st century: implementation of interprofessional education through an academic-clinical site partnership.

PubMed

Sheldon, Michael; Cavanaugh, James T; Croninger, William; Osgood, Wendy; Robnett, Regi; Seigle, Janice; Simonsen, Linda

2012-01-01

Health profession education programs often struggle with barriers to implementing interprofesssional educational (IPE) initiatives, limiting early and consistent exposure of students to core IPE competencies. Few published reports are available to guide the implementation of IPE programs into practice. This article describes a successful and evolving partnership between an independent university and a tertiary care hospital. The IPE goals of this partnership were to expose students to roles of other disciplines in the complex hospital environment and integrate acute care exposure throughout the Doctor of Physical Therapy and Master of Science in Occupational Therapy curricula. Faculty and students, patients and families, and occupational and physical therapy clinicians participated in a series of learning activities in an acute care setting involving interprofessional teams of students. Activities included observations of OT and PT clinicians providing standard patient care, practice conducting team patient interviews, and interactive treatment planning sessions conducted live via videoconferencing technology between a patient's hospital room and an academic classroom on the university campus. The activities generally were designed to improve student preparedness for working as part of an interprofessional team in an acute care setting. Student and clinician feedback support the early development of student IPE competencies, including the appreciation and understanding of professional roles in the team approach to patient care and the development of effective communication skills. The partnership between the academic institution and tertiary care hospital is an effective vehicle to deliver and sustain IPE educational initiatives in the acute care setting. Current and planned IPE curriculum integration are discussed along with a preliminary analysis of IPE outcomes.

A model for training medical student innovators: the Harvard Medical School Center for Primary Care Abundance Agents of Change program

PubMed Central

Duong, David B.; Sullivan, Erin E.; Minter-Jordan, Myechia; Giesen, Lindsay; Ellner, Andrew L.

2016-01-01

Background In 2013, the Harvard Medical School Center for Primary Care established the Abundance Agents of Change (AoC) program to promote interprofessional learning and innovation, increase partnership between 15 academic and community health centers (CHCs) in Boston's most under-served communities, and increase medical student interest in primary care careers. Methods The AoC is modeled in the form of a ‘grants challenge’, offering $20,000 to interprofessional student teams to develop an innovative solution that addresses a healthcare delivery need identified by CHCs. The program's initial two years were characterized by a four-stage process which included working with CHCs and crafting a request for proposals, forming interprofessional 20 student teams comprising students from across and outside of Harvard University, training students using a systems-based innovation curriculum, and performing program evaluation. Results Our evaluation data from cohorts 1 and 2 of the AoC program demonstrate that we succeeded in training students as innovators and members of interprofessional teams. We also learned valuable lessons regarding creating better alignment with CHC priorities, extending the program cycle from 12 to 18 months, and changing the way funding is disbursed to 25 students, which will be incorporated in later versions of the program. Conclusions Based on our experience and evaluation data, we believe that this program is a replicable way to train students as innovators and members of interprofessional teams to address the current complex healthcare environment. PMID:27306994

A model for training medical student innovators: the Harvard Medical School Center for Primary Care Abundance Agents of Change program.

PubMed

Duong, David B; Sullivan, Erin E; Minter-Jordan, Myechia; Giesen, Lindsay; Ellner, Andrew L

2016-01-01

Background In 2013, the Harvard Medical School Center for Primary Care established the Abundance Agents of Change (AoC) program to promote interprofessional learning and innovation, increase partnership between 15 academic and community health centers (CHCs) in Boston's most under-served communities, and increase medical student interest in primary care careers. Methods The AoC is modeled in the form of a 'grants challenge', offering $20,000 to interprofessional student teams to develop an innovative solution that addresses a healthcare delivery need identified by CHCs. The program's initial two years were characterized by a four-stage process which included working with CHCs and crafting a request for proposals, forming interprofessional 20 student teams comprising students from across and outside of Harvard University, training students using a systems-based innovation curriculum, and performing program evaluation. Results Our evaluation data from cohorts 1 and 2 of the AoC program demonstrate that we succeeded in training students as innovators and members of interprofessional teams. We also learned valuable lessons regarding creating better alignment with CHC priorities, extending the program cycle from 12 to 18 months, and changing the way funding is disbursed to 25 students, which will be incorporated in later versions of the program. Conclusions Based on our experience and evaluation data, we believe that this program is a replicable way to train students as innovators and members of interprofessional teams to address the current complex healthcare environment.

A model for training medical student innovators: the Harvard Medical School Center for Primary Care Abundance Agents of Change program.

PubMed

Duong, David B; Sullivan, Erin E; Minter-Jordan, Myechia; Giesen, Lindsay; Ellner, Andrew L

2016-01-01

In 2013, the Harvard Medical School Center for Primary Care established the Abundance Agents of Change (AoC) program to promote interprofessional learning and innovation, increase partnership between 15 academic and community health centers (CHCs) in Boston's most under-served communities, and increase medical student interest in primary care careers. The AoC is modeled in the form of a 'grants challenge', offering $20,000 to interprofessional student teams to develop an innovative solution that addresses a healthcare delivery need identified by CHCs. The program's initial two years were characterized by a four-stage process which included working with CHCs and crafting a request for proposals, forming interprofessional 20 student teams comprising students from across and outside of Harvard University, training students using a systems-based innovation curriculum, and performing program evaluation. Our evaluation data from cohorts 1 and 2 of the AoC program demonstrate that we succeeded in training students as innovators and members of interprofessional teams. We also learned valuable lessons regarding creating better alignment with CHC priorities, extending the program cycle from 12 to 18 months, and changing the way funding is disbursed to 25 students, which will be incorporated in later versions of the program. Based on our experience and evaluation data, we believe that this program is a replicable way to train students as innovators and members of interprofessional teams to address the current complex healthcare environment.

Staff Development: The Evolution of a Team.

ERIC Educational Resources Information Center

Boerner, B. Barbara

1980-01-01

The team concept, in increased professionalism of admissions staffs, is the key to successful market positioning. Results show admission staffs increased recruitment efforts by 50 percent, decreased the budget by 10 percent, and, for the past two years, have exceeded new student goals. (Author)

Enhancing Workgroup Performance.

ERIC Educational Resources Information Center

1998

This document contains four papers from a symposium on enhancing workgroup performance in human resource development (HRD). "Formation of Cross-Cultural Global Teams: Making Informed Choices on Team Composition" (Robert L. Dilworth) describes how a mixed class of U.S. and international students identified their cultural and learning…

Incorporating Health Information Technology and Pharmacy Informatics in a Pharmacy Professional Didactic Curriculum -with a Team-based Learning Approach.

PubMed

Hincapie, Ana L; Cutler, Timothy W; Fingado, Amanda R

2016-08-25

Objective. To incorporate a pharmacy informatics program in the didactic curriculum of a team-based learning institution and to assess students' knowledge of and confidence with health informatics during the course. Design. A previously developed online pharmacy informatics course was adapted and implemented into a team-based learning (TBL) 3-credit-hour drug information course for doctor of pharmacy (PharmD) students in their second didactic year. During a period of five weeks (15 contact hours), students used the online pharmacy informatics modules as part of their readiness assurance process. Additional material was developed to comply with the TBL principles. Online pre/postsurveys were administered to evaluate knowledge gained and students' perceptions of the informatics program. Assessment. Eighty-three second-year students (84% response rate) completed the surveys. Participants' knowledge of electronic health records, computerized physician order entry, pharmacy information systems, and clinical decision support was significantly improved. Additionally, their confidence significantly improved in terms of describing health informatics terminology, describing the benefits and barriers of using health information technology, and understanding reasons for systematically processing health information. Conclusion. Students responded favorably to the incorporation of pharmacy informatics content into a drug information course using a TBL approach. Students met the learning objectives of seven thematic areas and had positive attitudes toward the course after its completion.

Using a human patient simulator to study the relationship between communication and nursing students' team performance.

PubMed

Hirokawa, Randy Y; Daub, Katharyn; Lovell, Eileen; Smith, Sarah; Davis, Alice; Beck, Christine

2012-11-01

This study examined the relationship between communication and nursing students' team performance by determining whether variations in team performance are related to differences in communication regarding five task-relevant functions: assessment, diagnosis, planning, implementation, and evaluation. The study results indicate a positive relationship between nursing students' team performance and comments focused on the implementation of treatment(s) and the evaluation of treatment options. A negative relationship between nursing students' team performance and miscellaneous comments made by team members was also observed. Copyright 2012, SLACK Incorporated.

Student Action Teams: An Evaluation, 1999-2000. Working Paper 21.

ERIC Educational Resources Information Center

Holdsworth, Roger; Stafford, John; Stokes, Helen; Tyler, Debra

Student Action Teams (SATs) were established in 20 Victoria, Australia, secondary schools in 1999, with 11 of those schools continuing with their teams in 2000. The Student Action Teams are comprised of groups of students who identify a school or community issue, research it, make plans and proposals about it, and take action on it. Such…

EPO for the NASA SDO Extreme Ultraviolet Variability Experiment (EVE) Learning Suite for Educators

NASA Astrophysics Data System (ADS)

Kellagher, Emily; Scherrer, D. K.

2013-07-01

EVE Education and Public Outreach (EPO) promotes an understanding of the process of science and concepts within solar science and sun-earth connections. EVE EPO also features working scientists, current research and career awareness. One of the highlights for of this years projects is the digitization of solar lessons and the collaboration with the other instrument teams to develop new resources for students and educators. Digital lesson suite: EVE EPO has taken the best solar lessons and reworked then to make then more engaging, to reflect SDO data and made them SMARTboard compatible. We are creating a website that Students and teachers can access these lesson and use them online or download them. Project team collaboration: The SDO instruments (EVE, AIA and HMI) teams have created a comic book series for upper elementary and middle school students with the SDO mascot Camilla. These comics may be printed or read on mobile devices. Many teachers are looking for resources to use with their students via the Ipad so our collaboration helps supply teachers with a great resource that teachers about solar concepts and helps dispel solar misconceptions.Abstract (2,250 Maximum Characters): EVE Education and Public Outreach (EPO) promotes an understanding of the process of science and concepts within solar science and sun-earth connections. EVE EPO also features working scientists, current research and career awareness. One of the highlights for of this years projects is the digitization of solar lessons and the collaboration with the other instrument teams to develop new resources for students and educators. Digital lesson suite: EVE EPO has taken the best solar lessons and reworked then to make then more engaging, to reflect SDO data and made them SMARTboard compatible. We are creating a website that Students and teachers can access these lesson and use them online or download them. Project team collaboration: The SDO instruments (EVE, AIA and HMI) teams have created a comic book series for upper elementary and middle school students with the SDO mascot Camilla. These comics may be printed or read on mobile devices. Many teachers are looking for resources to use with their students via the Ipad so our collaboration helps supply teachers with a great resource that teachers about solar concepts and helps dispel solar misconceptions.

Interprofessional collaboration: three best practice models of interprofessional education

PubMed Central

Bridges, Diane R.; Davidson, Richard A.; Odegard, Peggy Soule; Maki, Ian V.; Tomkowiak, John

2011-01-01

Interprofessional education is a collaborative approach to develop healthcare students as future interprofessional team members and a recommendation suggested by the Institute of Medicine. Complex medical issues can be best addressed by interprofessional teams. Training future healthcare providers to work in such teams will help facilitate this model resulting in improved healthcare outcomes for patients. In this paper, three universities, the Rosalind Franklin University of Medicine and Science, the University of Florida and the University of Washington describe their training curricula models of collaborative and interprofessional education. The models represent a didactic program, a community-based experience and an interprofessional-simulation experience. The didactic program emphasizes interprofessional team building skills, knowledge of professions, patient centered care, service learning, the impact of culture on healthcare delivery and an interprofessional clinical component. The community-based experience demonstrates how interprofessional collaborations provide service to patients and how the environment and availability of resources impact one's health status. The interprofessional-simulation experience describes clinical team skills training in both formative and summative simulations used to develop skills in communication and leadership. One common theme leading to a successful experience among these three interprofessional models included helping students to understand their own professional identity while gaining an understanding of other professional's roles on the health care team. Commitment from departments and colleges, diverse calendar agreements, curricular mapping, mentor and faculty training, a sense of community, adequate physical space, technology, and community relationships were all identified as critical resources for a successful program. Summary recommendations for best practices included the need for administrative support, interprofessional programmatic infrastructure, committed faculty, and the recognition of student participation as key components to success for anyone developing an IPE centered program. PMID:21519399

Interprofessional collaboration: three best practice models of interprofessional education.

PubMed

Bridges, Diane R; Davidson, Richard A; Odegard, Peggy Soule; Maki, Ian V; Tomkowiak, John

2011-04-08

Interprofessional education is a collaborative approach to develop healthcare students as future interprofessional team members and a recommendation suggested by the Institute of Medicine. Complex medical issues can be best addressed by interprofessional teams. Training future healthcare providers to work in such teams will help facilitate this model resulting in improved healthcare outcomes for patients. In this paper, three universities, the Rosalind Franklin University of Medicine and Science, the University of Florida and the University of Washington describe their training curricula models of collaborative and interprofessional education.The models represent a didactic program, a community-based experience and an interprofessional-simulation experience. The didactic program emphasizes interprofessional team building skills, knowledge of professions, patient centered care, service learning, the impact of culture on healthcare delivery and an interprofessional clinical component. The community-based experience demonstrates how interprofessional collaborations provide service to patients and how the environment and availability of resources impact one's health status. The interprofessional-simulation experience describes clinical team skills training in both formative and summative simulations used to develop skills in communication and leadership.One common theme leading to a successful experience among these three interprofessional models included helping students to understand their own professional identity while gaining an understanding of other professional's roles on the health care team. Commitment from departments and colleges, diverse calendar agreements, curricular mapping, mentor and faculty training, a sense of community, adequate physical space, technology, and community relationships were all identified as critical resources for a successful program. Summary recommendations for best practices included the need for administrative support, interprofessional programmatic infrastructure, committed faculty, and the recognition of student participation as key components to success for anyone developing an IPE centered program.

The implementation of an elementary STEM learning team and the effect on teacher self-efficacy: An action research study

NASA Astrophysics Data System (ADS)

Hernandez, Jennifer F.

Science, technology, engineering, and math (STEM) education is part of a national movement to prepare students for the demands of a 21st century workforce. STEM uses an integrated, real-world problem solving approach to increase the levels of collaboration, communication, critical, and creative thinking in students. If expectations for students have increased to stay competitive in a global market, teachers must be equipped to meet the needs of the new 21st century learners in their classrooms. To that end, professional learning for educators is essential to ensure they are equipped with the tools necessary for success. While there are many approaches to teacher development, professional learning teams, based on the work of Garmston and Wellman, focus on teachers' instructional delivery, targeted student learning needs, planning, implementing new strategies, collaboration, and reflective dialogue. The purpose of the study is to improve instructional practice providing quality STEM instruction to students and increase teacher self-efficacy---a teachers' perception of his or her ability to instruct students in the STEM disciplines. Theoretical implications of a study on an elementary STEM learning team could affect the way schools deliver STEM professional learning opportunities to teachers and the way students are delivered a quality STEM education. Research has shown that Model I behavior would limit the change process of professional learning through a surface inspection of the issues; however model II behaviors would benefit the teachers, students and organization because teachers would be collaborating on specific objectives to develop a knowledge base and skill set to meet students' needs. Extending professional development by engaging stakeholders in a collaborative process to build model II behaviors will create an organizational structure that facilitates learning.

Effects of Team-Skills Guidance on Accounting Students with Lone Wolf Tendencies

ERIC Educational Resources Information Center

Seow, Jean Lin; Gowri Shankar, Premila

2018-01-01

We investigate whether short-term in-class team-skills guidance impacts the perceptions of accounting students with lone wolf tendencies on team work, and peer evaluation systems adopted in team work. We find that students with greater lone wolf tendencies see fewer benefits from engaging in team work and are also less comfortable with peer…

Educating Tomorrow's Aerrospace Engineers by Developing and Launching Liquid-Propelled Rockets

NASA Astrophysics Data System (ADS)

Besnard, Eric; Garvey, John; Holleman, Tom; Mueller, Tom

2002-01-01

conducted at California State University, Long Beach (CSULB), in which engineering students develop and launch liquid propelled rockets. The program is articulated around two main activities, each with specific objectives. The first component of CALVEIN is a systems integration laboratory where students develop/improve vehicle subsystems and integrate them into a vehicle (Prospector-2 - P-2 - for the 2001-02 academic year - AY). This component has three main objectives: (1) Develop hands- on skills for incoming students and expose them to aerospace hardware; (2) allow for upper division students who have been involved in the program to mentor incoming students and manage small teams; and (3) provide students from various disciplines within the College of Engineering - and other universities - with the chance to develop/improve subsystems on the vehicle. Among recent student projects conducted as part of this component are: a new 1000 lbf thrust engine using pintle injector technology, which was successfully tested on Dec. 1, 2001 and flown on Prospector-2 in Feb. 2002 (developed by CSULB Mechanical and Aerospace Engineering students); a digital flight telemetry package (developed by CSULB Electrical Engineering students); a new recovery system where a mechanical system replaces pyrotechnics for parachute release (developed by CSULB Mechanical and Aerospace Engineering students); and a 1-ft payload bay to accommodate experimental payloads (e.g. "CANSATS" developed by Stanford University students). The second component of CALVEIN is a formal Aerospace System Design curriculum. In the first-semester, from top-level system requirements, the students perform functional analysis, define the various subsystems and derive their requirements. These are presented at the Systems Functional and Requirement Reviews (SFR &SRR). The methods used for validation and verification are determined. Specifications and Interface Control Documents (ICD) are generated by the student team(s). Trade studies are identified and conducted, leading to a Preliminary Design Review (PDR) at the end of the first semester. A detailed design follows, culminating in a Critical Design Review (CDR), etc. A general process suitable for a two-semester course sequence will be outlined. The project is conducted in an Integrated Product Team (IPT) environment, which includes a project manager, a systems engineer, and the various disciplines needed for the project (propulsion, aerodynamics, structures and materials, mass, CAD, thermal, fluids, etc.). Each student works with a Faculty member or industry advisor who is a specialist in his/her area. This design curriculum enhances the education of the graduates and provides future employers with engineers cognizant of and experienced in the application of Systems Engineering to a full-scale project over the entire product development cycle. For the AY01-02, the curriculum is being applied to the development of a gimbaled aerospike engine and its integration into P-3, scheduled to fly in May 2002. The paper ends with a summary of "lessons learned" from this experience. Budget issues are also addressed to demonstrate the ability to replicate such projects at other institutions with minimal costs, provided that it can be taken advantages of possible synergies between existing programs, in-house resources, and cooperation with other institutions or organizations.

Evaluating Peer-Led Team Learning: A Study of Long-Term Effects on Former Workshop Peer Leaders

NASA Astrophysics Data System (ADS)

Gafney, Leo; Varma-Nelson, Pratibha

2007-03-01

Peer-led team learning (PLTL) is a program of small-group workshops, attached to a course, under the direction of trained peer leaders who have completed the course. Peer leaders ensure that team members engage with the materials and with each other, they help build commitment and confidence, and they encourage discussion. Studies of PLTL have found that grades and retention improve, and students value the workshops as important in their learning. With a ten-year history, it was possible to study the impact of PLTL on former leaders as they took subsequent steps into graduate work and careers. A survey was developed, piloted, revised, and placed online. Nearly 600 former leaders from nine institutions were contacted; 119 completed surveys were received. Respondents reported that leading the workshops reinforced the breadth and depth of their own learning, helped them develop personal qualities such as confidence and perseverance, and fostered a variety of presentation and team-related skills. The respondents offered rich insights into issues in implementing workshops. This study contributes to the literature on involvement theory in the academic development of college students.

Lyme Disease Frequently Asked Questions (FAQ)

MedlinePlus

... dedicated to developing a talented, committed team of students and residents who provide Lyme disease education and ... community-based. Members are medical and public health students chosen annually from a selected university system in ...

Virtual gaming to develop students' pediatric nursing skills: A usability test.

PubMed

Verkuyl, Margaret; Atack, Lynda; Mastrilli, Paula; Romaniuk, Daria

2016-11-01

As competition for specialty clinical placements increases, there is an urgent need to create safe, stimulating, alternative learning environments for students. To address that clinical gap, our team developed a virtual game-based simulation to help nursing students develop their pediatric nursing skills. A usability study was conducted using the Technology Acceptance Model as a research framework. The study was conducted at a community college and included nursing students, nursing faculty/clinicians and two gaming experts. The two experts evaluated the game using a heuristic checklist after playing the game. Participants engaged in a think-aloud activity while playing the game and completed a survey and interview based on the Technology Acceptance Model to explore ease of use and utility of the game. We found a high degree of user satisfaction with the game. Students reported that they had learned about pediatric care, they had become immersed in the game and they were keen to keep playing. Several design changes were recommended. Usability testing is critical in the early stages of simulation development and the study provided useful direction for the development team in the next stage of game development. Copyright © 2016 Elsevier Ltd. All rights reserved.

KSC-99pp0289

NASA Image and Video Library

1999-03-06

At the award ceremony for the 1999 FIRST Southeastern Regional robotic competition held at KSC, the Space Coast FIRST Team walks past the greeting line. In the middle, shaking hands with the team, are KSC's Director of Engineering Development Sterling Walker (left) and Center Director Roy Bridges (right). The Space Coast Team included Rockledge, Cocoa Beach and Merritt Island High Schools. FIRST is a nonprofit organization, For Inspiration and Recognition of Science and Technology, that sponsors the event pitting gladiator robots against each other in an athletic-style competition. The FIRST robotics competition is designed to provide students with a hands-on, inside look at engineering and other professional careers, pairing high school students with engineer mentors and corporations. The regional event comprised 27 teams. Along with the championship award, which went to high school teams from Miami and San German, Puerto Rico, 15 other awards were presented

A Model for the Development of Web-Based, Student-Centered Science Education Resources.

ERIC Educational Resources Information Center

Murfin, Brian; Go, Vanessa

The purpose of this study was to evaluate The Student Genome Project, an experiment in web-based genetics education. Over a two-year period, a team from New York University worked with a biology teacher and 33 high school students (N=33), and a middle school science teacher and a class of students (N=21) to develop a World Wide Web site intended…

Measuring Responsibility and Cooperation in Learning Teams in the University Setting: Validation of a Questionnaire.

PubMed

León-Del-Barco, Benito; Mendo-Lázaro, Santiago; Felipe-Castaño, Elena; Fajardo-Bullón, Fernando; Iglesias-Gallego, Damián

2018-01-01

Cooperative learning are being used increasingly in the university classroom, in order to promote teamwork among students, improve performance and develop interpersonal competences. Responsibility and cooperation are two fundamental pillars of cooperative learning. Team members' responsibility is a necessary condition for the team's success in the assigned tasks. Students must be aware that they depend on each other and should make their maximum effort. On the other hand, in efficient groups, the members cooperate and pool their efforts to achieve the proposed goals. In this research, we propose to create a Questionnaire of Group Responsibility and Cooperation in Learning Teams (CRCG) . Participants in this work were 375 students from the Faculty of Teacher Training of the University of Extremadura (Spain). The CRCG has very acceptable psychometric characteristics, good internal consistency, and temporal reliability. Moreover, structural equation analysis allowed us to verify that the latent variables in the two factors found are well defined and, therefore, their assessment is adequate. Besides, we found high significant correlations between the Learning Team Potency Questionnaire (CPEA) and the total score and the factors of the CRCG. This tool will evaluate cooperative skills and offer faculty information in order to prepare students for teamwork and conflict resolution.

Looking Forward to Look Backward: Technology and King Arthur

ERIC Educational Resources Information Center

Thomas, Jennifer D. E.; Driver, Martha; Coppola, Jean F.; Thomas, Barbara A.

2008-01-01

This article discusses students' perceptions of the impact of technology integration in an interdisciplinary medieval English literature and multimedia course on developing higher-order thinking skills and team-building skills. The results indicate that undergraduate students in this course perceived generally strong support for development of…

Developing Assessment through Lesson Study

ERIC Educational Resources Information Center

Fischman, Davida; Wasserman, Kelli

2017-01-01

Lesson study cultivates teachers' capacity for formative assessment by placing student thinking front and center throughout. Lesson study is a form of professional development in which a team of teachers determines a mathematical focus, collaboratively studies student thinking about the topic, designs a lesson about this content, implements the…

DEVELOP Students

NASA Image and Video Library

2007-07-03

DEVELOP team members at Stennis Space Center for the summer 2007 term are (from left): front row, students Deirdra Boley, Jason Jones, Lauren Childs, Craig Matthews and Denise Spindel; back row, advisers Cheri Miller of NASA, Kenton Ross of Science Systems and Applications Inc., Andra Johnson of Southern University and Roxzana Moore, SSAI.

Brown & Smith Communication Solutions: A Staffing System Simulation

ERIC Educational Resources Information Center

Small, Erika E.; Doll, Jessica L.; Bergman, Shawn M.; Heggestad, Eric D.

2018-01-01

Developing students' practical skills in strategic staffing and selection within the classroom can be challenging. This article describes a staffing system simulation designed to engage students and develop applied skills in strategic recruiting, assessment, and evaluation of job applicants. Instructors looking for a multifaceted team project…

A hitchhiker's guide to an ISS experiment in under 9 months.

PubMed

Nadir, Andrei James; Sato, Kevin

2017-01-01

The International Space Station National Laboratory gives students a platform to conduct space-flight science experiments. To successfully take advantage of this opportunity, students and their mentors must have an understanding of how to develop and then conduct a science project on international space station within a school year. Many factors influence the speed in which a project progresses. The first step is to develop a science plan, including defining a hypothesis, developing science objectives, and defining a concept of operation for conducting the flight experiment. The next step is to translate the plan into well-defined requirements for payload development. The last step is a rapid development process. Included in this step is identifying problems early and negotiating appropriate trade-offs between science and implementation complexity. Organizing the team and keeping players motivated is an equally important task, as is employing the right mentors. The project team must understand the flight experiment infrastructure, which includes the international space station environment, payload resource requirements and available components, fail-safe operations, system logs, and payload data. Without this understanding, project development can be impacted, resulting in schedule delays, added costs, undiagnosed problems, and data misinterpretation. The information and processes for conducting low-cost, rapidly developed student-based international space station experiments are presented, including insight into the system operations, the development environment, effective team organization, and data analysis. The details are based on the Valley Christian Schools (VCS, San Jose, CA) fluidic density experiment and penicillin experiment, which were developed by 13- and 14-year-old students and flown on ISS.

The Effect of Using Team Teaching on Jordanian EFL Eleventh Grade Students' Reading Comprehension and Their Attitudes towards This Strategy

ERIC Educational Resources Information Center

Migdadi, Ali Ibrahim Mohammad; Baniabdelrahman, Abdallah

2016-01-01

This study aimed to investigate the effectiveness of using team-teaching strategy on EFL students' reading comprehension. It also aimed to find out whether Team-Teaching strategy can improve EFL students' English language reading comprehension and to investigate the students' attitudes towards the use of team teaching. The study used the…

Exploring Impact of Self-Selected Student Teams and Academic Potential on Student Satisfaction

ERIC Educational Resources Information Center

Matta, Vic; Luce, Thom; Ciavarro, Gina

2011-01-01

Creation of teams in professional and student contexts has been well researched and written about. The research landscape can be divided into instructor selected and student selected teams, both of which have advantages and disadvantages. The purpose of this paper is to combine the two techniques for creating teams in an effort to maximize the…

Student Teachers' Team Teaching: How Do Learners in the Classroom Experience Team-Taught Lessons by Student Teachers?

ERIC Educational Resources Information Center

Baeten, Marlies; Simons, Mathea

2016-01-01

This study focuses on student teachers' team teaching. Two team teaching models (sequential and parallel teaching) were applied by 14 student teachers in a quasi-experimental design. When implementing new teaching models, it is important to take into account the perspectives of all actors involved. Although learners are key actors in the teaching…

NORSTAR Project: Norfolk public schools student team for acoustical research

NASA Technical Reports Server (NTRS)

Fortunato, Ronald C.

1987-01-01

Development of the NORSTAR (Norfolk Public Student Team for Acoustical Research) Project includes the definition, design, fabrication, testing, analysis, and publishing the results of an acoustical experiment. The student-run program is based on a space flight organization similar to the Viking Project. The experiment will measure the scattering transfer of momentum from a sound field to spheres in a liquid medium. It is hoped that the experimental results will shed light on a difficult physics problem - the difference in scattering cross section (the overall effect of the sound wave scattering) for solid spheres and hollow spheres of differing wall thicknesses.

The relationship between vertical teaming in science and student achievement as reported in the Academic Excellence Indicator System (AEIS) at selected public schools in Bexar County, Texas

NASA Astrophysics Data System (ADS)

Arteaga, Veronica Hernandez

The purpose of this study was to examine the relationship between vertical teaming in science and student achievement. This study compared student achievement of campuses implementing vertical teaming with schools that do not practice vertical teaming. In addition, this study explored the relationship between selected demographic variables and vertical teaming using Grade 5 Science TAKS results in the Academic Excellence Indicator System (AEIS). Campus demographic variables such as economically disadvantaged, minority students, English language learners, student mobility, and experienced teachers were researched. A call-out yielded 168 responses. With the exclusion of the 12 campuses, a total of 156 participating campuses from 18 traditional school districts remained. Campuses employing vertical teaming were self-identified on the basis of having implemented the process for two or more years. The gain in percent mastered for Science TAKS scores from 2004 to 2007 was used as the Science TAKS score variable. Results indicated that there was no significant difference in student achievement in science for campuses practicing vertical teaming and campuses that did not. The two-way ANOVA was used to measure the relationship between the independent variables (vertical teaming and campus demographic variables) on the dependent variable (student achievement on Science TAKS). The results suggested that campuses having low percentages of economically disadvantaged students statistically gained more on the Science TAKS than campuses that have high percentages of economically disadvantaged students irrespective of vertical teaming practices. In addition, campuses that have low percentages of minority students statistically gained more on the Science TAKS than campuses that have high percentages of minority students despite vertical teaming participation. Recommendations include districts, state, and federal agencies providing campuses with a high percent of economically disadvantaged students with more resources and more flexibility in using those resources. Recommendations for further study included a replication of the study that takes into account the degree of implementation of vertical teaming.

An Innovative Teaching Method To Promote Active Learning: Team-Based Learning

NASA Astrophysics Data System (ADS)

Balasubramanian, R.

2007-12-01

Traditional teaching practice based on the textbook-whiteboard- lecture-homework-test paradigm is not very effective in helping students with diverse academic backgrounds achieve higher-order critical thinking skills such as analysis, synthesis, and evaluation. Consequently, there is a critical need for developing a new pedagogical approach to create a collaborative and interactive learning environment in which students with complementary academic backgrounds and learning skills can work together to enhance their learning outcomes. In this presentation, I will discuss an innovative teaching method ('Team-Based Learning (TBL)") which I recently developed at National University of Singapore to promote active learning among students in the environmental engineering program with learning abilities. I implemented this new educational activity in a graduate course. Student feedback indicates that this pedagogical approach is appealing to most students, and promotes active & interactive learning in class. Data will be presented to show that the innovative teaching method has contributed to improved student learning and achievement.

West Philly Hybrid X Team

NASA Image and Video Library

2010-06-06

NASA Chief Technologist Bobby Braun talks with student members of the West Philly Hybrid X Team at West Philadelphia High School in Philadelphia, Monday, June 7, 2010. The prize-winning West Philly Hybrid X Team has drawn international recognition as the only high school among 22 finalists in the Progressive Insurance Automotive X Prize (PIAXP) competition to develop cars that achieve over 100 MPG. Photo Credit: (NASA/Bill Ingalls)

Report on an interdisciplinary program for allied health.

PubMed

Peloquin, S M; Cavazos, H; Marion, R; Stephenson, K S; Pearrow, D

2007-11-01

A central recommendation from the Pew Health Commission to educators has been to empower future care providers to function effectively as teams. Administrators and faculty members within a school of allied health sciences thus established an interdisciplinary program where students would learn to function as team members and demonstrate competencies required for practice in diverse, demanding, and continually changing health care environments. Students from five disciplines have participated in featured events, mentored activities and capstone projects, earning credit in an interdisciplinary course of study that complements offerings in their home disciplines. This follow-up article reports on the progress and development since 2002 of an interdisciplinary program known as Team IDEAL. Formative evaluation measures used to assess satisfaction with the program are presented alongside a discussion of new directions. Team IDEAL will move forward in a streamlined form that reflects its central aim. IDEAL leadership will remain cognizant of the effects of discipline-specific curricular changes, complex programming, and student perspectives on the process interdisciplinary education.

Simulating the multi-disciplinary care team approach: Enhancing student understanding of anatomy through an ultrasound-anchored interprofessional session.

PubMed

Luetmer, Marianne T; Cloud, Beth A; Youdas, James W; Pawlina, Wojciech; Lachman, Nirusha

2018-01-01

Quality of healthcare delivery is dependent on collaboration between professional disciplines. Integrating opportunities for interprofessional learning in health science education programs prepares future clinicians to function as effective members of a multi-disciplinary care team. This study aimed to create a modified team-based learning (TBL) environment utilizing ultrasound technology during an interprofessional learning activity to enhance musculoskeletal anatomy knowledge of first year medical (MD) and physical therapy (PT) students. An ultrasound demonstration of structures of the upper limb was incorporated into the gross anatomy courses for first-year MD (n = 53) and PT (n = 28) students. Immediately before the learning experience, all students took an individual readiness assurance test (iRAT) based on clinical concepts regarding the assigned study material. Students observed while a physical medicine and rehabilitation physician demonstrated the use of ultrasound as a diagnostic and procedural tool for the shoulder and elbow. Following the demonstration, students worked within interprofessional teams (n = 14 teams, 5-6 students per team) to review the related anatomy on dissected specimens. At the end of the session, students worked within interprofessional teams to complete a collaborative clinical case-based multiple choice post-test. Team scores were compared to the mean individual score within each team with the Wilcoxon signed-rank test. Students scored higher on the collaborative post-test (95.2 ±10.2%) than on the iRAT (66.1 ± 13.9% for MD students and 76.2 ±14.2% for PT students, P < 0.0001). Results suggest that this interprofessional team activity facilitated an improved understanding and clinical application of anatomy. Anat Sci Educ 11: 94-99. © 2017 American Association of Anatomists. © 2017 American Association of Anatomists.

"Module 9": A New Course to Help Students Develop Interdisciplinary Projects Using the Framework of Experiential Learning Theory

ERIC Educational Resources Information Center

Canboy, Basak; Montalvo, Adolfo; Buganza, M. Carmen; Emmerling, Robert J.

2016-01-01

This paper offers an example of how to introduce student-centred knowledge creation and competency development in a systematic way into a master's programme. The curriculum of a new course called Module 9 was framed according to experiential learning theory. While student teams work on self-selected projects, their learning processes are…

Using collaborative research to facilitate student learning.

PubMed

Thompson, C J; McNeill, J A; Sherwood, G D; Starck, P L

2001-08-01

Developing research partnerships between academia and the service sector is an innovative way to meet the demand for high-quality, cost-effective, and clinically oriented research. Undergraduate student participation in clinical research is an educational strategy to facilitate positive mindsets toward research. This article outlines the methodological steps in recruiting and training undergraduate students for clinical research teams to benefit nurse educators, nurse researchers, students, and institutional partners. Student volunteers collected data for a study examining patient satisfaction with pain management practices. The research proposal was used to demonstrate principles of the research process and to familiarize the students with the study. A detailed study protocol guided the entire team through the project. Student sensitivity to pain assessment and management was enhanced. Learning the research process and the students' appreciation for the rigors of research were reinforced using this experiential model. Student evaluation of the research experience is presented.

Competency-Based Framework and Continuing Education for Preparing a Skilled School Health Workforce for Asthma Care: The Colorado Experience

ERIC Educational Resources Information Center

Cicutto, Lisa; Gleason, Melanie; Haas-Howard, Christy; Jenkins-Nygren, Lynn; Labonde, Susan; Patrick, Kathy

2017-01-01

School health teams commonly address the needs of students with asthma, which requires specific knowledge and skills. To develop a skilled school health team, a competency-based framework for managing asthma in schools was developed. A modified Delphi with 31 panelists was completed. Consensus (=80% agreement) was reached for all 148 items…

Evaluating the High School Lunar Research Projects Program

NASA Astrophysics Data System (ADS)

Shaner, A. J.; Shipp, S. S.; Allen, J.; Kring, D. A.

2012-12-01

The Center for Lunar Science and Exploration (CLSE), a collaboration between the Lunar and Planetary Institute and NASA's Johnson Space Center, is one of seven member teams of the NASA Lunar Science Institute (NLSI). In addition to research and exploration activities, the CLSE team is deeply invested in education and outreach. In support of NASA's and NLSI's objective to train the next generation of scientists, CLSE's High School Lunar Research Projects program is a conduit through which high school students can actively participate in lunar science and learn about pathways into scientific careers. The objectives of the program are to enhance 1) student views of the nature of science; 2) student attitudes toward science and science careers; and 3) student knowledge of lunar science. In its first three years, approximately 140 students and 28 teachers from across the United States have participated in the program. Before beginning their research, students undertake Moon 101, a guided-inquiry activity designed to familiarize them with lunar science and exploration. Following Moon 101, and guided by a lunar scientist mentor, teams choose a research topic, ask their own research question, and design their own research approach to direct their investigation. At the conclusion of their research, teams present their results to a panel of lunar scientists. This panel selects four posters to be presented at the annual Lunar Science Forum held at NASA Ames. The top scoring team travels to the forum to present their research. Three instruments have been developed or modified to evaluate the extent to which the High School Lunar Research Projects meets its objectives. These three instruments measure changes in student views of the nature of science, attitudes towards science and science careers, and knowledge of lunar science. Exit surveys for teachers, students, and mentors were also developed to elicit general feedback about the program and its impact. The nature of science instrument is an open-ended, modified version of the Views of Nature of Science questionnaire. The science attitudes Likert-scale instrument is a modified version of the Attitudes Toward Science Inventory. The lunar science content instrument was developed by CLSE education staff. All three of these instruments are administered to students before and after their research experience to measure the program's impact on student views of the nature of science, attitudes toward science, and knowledge of lunar science. All instruments are administered online via Survey Monkey®. When asked if the program changed the way they view the Moon, 77.4% of students (n=53) replied "yes" and described their increase in knowledge of the formation of the Moon, lunar surface processes, etc. Just under half (41.5%) of the students reported that their experience in the program has contributed to their consideration of a career in science. When asked about obstacles teams had to overcome, teachers described issues with time, student motivation and technology. However, every teacher enthusiastically agreed that the authentic research experience was worthwhile to their students. Detailed evaluation results for the 2011-2012 program will be presented.

Interprofessional education in team communication: working together to improve patient safety.

PubMed

Brock, Douglas; Abu-Rish, Erin; Chiu, Chia-Ru; Hammer, Dana; Wilson, Sharon; Vorvick, Linda; Blondon, Katherine; Schaad, Douglas; Liner, Debra; Zierler, Brenda

2013-05-01

Communication failures in healthcare teams are associated with medical errors and negative health outcomes. These findings have increased emphasis on training future health professionals to work effectively within teams. The Team Strategies and Tools to Enhance Performance and Patient Safety (TeamSTEPPS) communication training model, widely employed to train healthcare teams, has been less commonly used to train student interprofessional teams. The present study reports the effectiveness of a simulation-based interprofessional TeamSTEPPS training in impacting student attitudes, knowledge and skills around interprofessional communication. Three hundred and six fourth-year medical, third-year nursing, second-year pharmacy and second-year physician assistant students took part in a 4 h training that included a 1 h TeamSTEPPS didactic session and three 1 h team simulation and feedback sessions. Students worked in groups balanced by a professional programme in a self-selected focal area (adult acute, paediatric, obstetrics). Preassessments and postassessments were used for examining attitudes, beliefs and reported opportunities to observe or participate in team communication behaviours. One hundred and forty-nine students (48.7%) completed the preassessments and postassessments. Significant differences were found for attitudes toward team communication (p<0.001), motivation (p<0.001), utility of training (p<0.001) and self-efficacy (p=0.005). Significant attitudinal shifts for TeamSTEPPS skills included, team structure (p=0.002), situation monitoring (p<0.001), mutual support (p=0.003) and communication (p=0.002). Significant shifts were reported for knowledge of TeamSTEPPS (p<0.001), advocating for patients (p<0.001) and communicating in interprofessional teams (p<0.001). Effective team communication is important in patient safety. We demonstrate positive attitudinal and knowledge effects in a large-scale interprofessional TeamSTEPPS-based training involving four student professions.

Interprofessional education in team communication: working together to improve patient safety.

PubMed

Brock, Douglas; Abu-Rish, Erin; Chiu, Chia-Ru; Hammer, Dana; Wilson, Sharon; Vorvick, Linda; Blondon, Katherine; Schaad, Douglas; Liner, Debra; Zierler, Brenda

2013-11-01

Communication failures in healthcare teams are associated with medical errors and negative health outcomes. These findings have increased emphasis on training future health professionals to work effectively within teams. The Team Strategies and Tools to Enhance Performance and Patient Safety (TeamSTEPPS) communication training model, widely employed to train healthcare teams, has been less commonly used to train student interprofessional teams. The present study reports the effectiveness of a simulation-based interprofessional TeamSTEPPS training in impacting student attitudes, knowledge and skills around interprofessional communication. Three hundred and six fourth-year medical, third-year nursing, second-year pharmacy and second-year physician assistant students took part in a 4 h training that included a 1 h TeamSTEPPS didactic session and three 1 h team simulation and feedback sessions. Students worked in groups balanced by a professional programme in a self-selected focal area (adult acute, paediatric, obstetrics). Preassessments and postassessments were used for examining attitudes, beliefs and reported opportunities to observe or participate in team communication behaviours. One hundred and forty-nine students (48.7%) completed the preassessments and postassessments. Significant differences were found for attitudes toward team communication (p<0.001), motivation (p<0.001), utility of training (p<0.001) and self-efficacy (p=0.005). Significant attitudinal shifts for TeamSTEPPS skills included, team structure (p=0.002), situation monitoring (p<0.001), mutual support (p=0.003) and communication (p=0.002). Significant shifts were reported for knowledge of TeamSTEPPS (p<0.001), advocating for patients (p<0.001) and communicating in interprofessional teams (p<0.001). Effective team communication is important in patient safety. We demonstrate positive attitudinal and knowledge effects in a large-scale interprofessional TeamSTEPPS-based training involving four student professions.

Entrepreneurial Thinking in Interdisciplinary Student Teams

ERIC Educational Resources Information Center

Neumeyer, Xaver; McKenna, Ann

2016-01-01

Our work investigates students' perception of collaborative expertise and the role of inquiry-based learning in the context of team-based entrepreneurship education. Specifically, we examine students' perception of communication, division of work, shared goals, team conflicts and leadership in their respective teams. In addition, we look at the…

Evaluation of a Modified Debate Exercise Adapted to the Pedagogy of Team-Based Learning

PubMed Central

Yang, Haoshu; Gupta, Vasudha

2018-01-01

Objective. To assess the impact of a debate exercise on self-reported evidence of student learning in literature evaluation, evidence-based decision making, and oral presentation. Methods. Third-year pharmacy students in a required infectious disease therapeutics course participated in a modified debate exercise that included a reading assignment and readiness assessment tests consistent with team-based learning (TBL) pedagogy. Peer and faculty assessment of student learning was accomplished with a standardized rubric. A pre- and post-debate survey was used to assess self-reported perceptions of abilities to perform skills outlined by the learning objectives. Results. The average individual readiness assessment score was 93.5% and all teams scored 100% on their team readiness assessments. Overall student performance on the debates was also high with an average score of 88.2% prior to extra credit points. Of the 95 students, 88 completed both pre- and post-surveys (93% participation rate). All learning objectives were associated with a statistically significant difference between pre- and post-debate surveys with the majority of students reporting an improvement in self-perceived abilities. Approximately two-thirds of students enjoyed the debates exercise and believed it improved their ability to make and defend clinical decisions. Conclusion. A debate format adapted to the pedagogy of TBL was well-received by students, documented high achievement in assessment of skills, and improved students’ self-reported perceptions of abilities to evaluate the literature, develop evidence-based clinical decisions, and deliver an effective oral presentation.

Teamwork education improves trauma team performance in undergraduate health professional students.

PubMed

Baker, Valerie O'Toole; Cuzzola, Ronald; Knox, Carolyn; Liotta, Cynthia; Cornfield, Charles S; Tarkowski, Robert D; Masters, Carolynn; McCarthy, Michael; Sturdivant, Suzanne; Carlson, Jestin N

2015-01-01

Effective trauma resuscitation requires efficient and coordinated care from a team of providers; however, providers are rarely instructed on how to be effective members of trauma teams. Team-based learning using Team Strategies and Tools to Enhance Performance and Patient Safety (TeamSTEPPS) has been shown to improve team dynamics among practicing professionals, including physicians and nurses. The impact of TeamSTEPPS on students being trained in trauma management in an undergraduate health professional program is currently unknown. We sought to determine the impact of TeamSTEPPS on team dynamics among undergraduate students being trained in trauma resuscitation. We enrolled teams of undergraduate health professional students from four programs: nursing, physician assistant, radiologic science, and respiratory care. After completing an online training on trauma resuscitation principles, the participants completed a trauma resuscitation scenario. The participants then received teamwork training using TeamSTEPPS and completed a second trauma resuscitation scenario identical to the first. All resuscitations were recorded and scored offline by two blinded research assistants using both the Team Emergency Assessment Measure (TEAM) and Trauma Team Performance Observation Tool (TPOT) scoring systems. Pre-test and post-test TEAM and TPOT scores were compared. We enrolled a total of 48 students in 12 teams. Team leadership, situational monitoring, and overall communication improved with TeamSTEPPS training (P=0.04, P=0.02, and P=0.03, respectively), as assessed by the TPOT scoring system. TeamSTEPPS also improved the team's ability to prioritize tasks and work together to complete tasks in a rapid manner (P<0.01 and P=0.02, respectively) as measured by TEAM. Incorporating TeamSTEPPS into trauma team education leads to improved TEAM and TPOT scores among undergraduate health professionals.

Broadening participation in Research Experiences for Undergraduates (REU) programs: an evaluation of the team research model for undergraduate research experiences

NASA Astrophysics Data System (ADS)

Berthelote, A. R.; Geraghty Ward, E. M.; Dalbotten, D. M.

2014-12-01

The REU site on sustainable land and water resources has a goal of broadening participation in the geosciences by underrepresented groups and particularly Native American students. We are evaluating modifications to the traditional REU model in order to better support these students. First, we review a team research model for REU students, where students are placed on teams and work together in peer groups supported by a team of mentors. Second, the REU takes place in locations that have high populations of Native American students to remove barriers to participation for non-traditional students. Finally, the teams do research on issues related to local concerns with cultural focus. Traditional REU models (1 faculty to 1 student/on campus) have been shown to be effective in supporting student movement into graduate programs but often fail to attract a diverse group of candidates. In addition, they rely for success on the relationship between faculty and student, which can often be undermined by unrealistic expectations on the part of the student about the mentor relationship, and can be exacerbated by cultural misunderstanding, conflicting discourse, or students' personal or family issues. At this REU site, peer mentorship and support plays a large role. Students work together to select their research question, follow the project to completion and present the results. Students from both native and non-native backgrounds learn about the culture of the partner reservations and work on a project that is of immediate local concern. The REU also teaches students protocols for working on Native American lands that support good relations between reservation and University. Analysis of participant data gathered from surveys and interview over the course of our 3-year program indicates that the team approach is successful. Students noted that collaborating with other teams was rewarding and mentors reported positively about their roles in providing guidance for the student's future plans. While there are still challenges to this approach (e.g. optimal team size and structure, interpersonal conflicts among team members, geographically dispersed teams), the model has proven effective in recruiting and retaining students from culturally, geographically, and economically diverse backgrounds.

Medicine as It Should Be: Teaching Team and Teamwork during a Palliative Care Clerkship.

PubMed

Head, Barbara A; Furman, Christian Davis; Lally, Andrew M; Leake, Kimberly; Pfeifer, Mark

2018-05-01

Interprofessional Education (IPE) is an important component of medical education. Rotations with palliative care interdisciplinary teams (IDTs) provide an optimal environment for IPE and teaching teamwork skills. Our objective was to assess the learning of senior medical students during a palliative care rotation. A constant comparison method based on grounded theory was used in this qualitative study. Senior medical students completed a semi-structured reflective writing exercise after a required one-week palliative care clerkship. Sixty randomly selected reflective writings were analyzed. The reflective writings were analyzed to evaluate the student's experiences. Dominant themes identified were related to teams and teamwork. Eight specific themes were identified: value of IDT for team members; value of IDT for patient/family; importance of each team member; reliance on other team members; roles of team members; how teams work; team communication; and interdisciplinary assessment and care planning. Students described exposure to novel experiences and planned to incorporate newly learned behaviors in their future practice. By participating in palliative care IDTs, medical students consistently learned about teamwork within healthcare. Additionally, they learned the importance of such teamwork to patients and the team itself. Rotations with palliative care IDTs have a significant role to play in IPE and preparing medical students to practice on teams.

Insight into team competence in medical, nursing and respiratory therapy students.

PubMed

Sigalet, Elaine L; Donnon, Tyrone L; Grant, Vincent

2015-01-01

This study provides information for educators about levels of competence in teams comprised of medical, nursing and respiratory therapy students after receiving a simulation-based team-training (SBT) curriculum with and without an additional formalized 30-min team-training (TT) module. A two-group pre- and post-test research design was used to evaluate team competence with respect to leadership, roles and responsibilities, communication, situation awareness and resource utilization. All scenarios were digitally recorded and evaluated using the KidSIM Team Performance Scale by six experts from medicine, nursing and respiratory therapy. The lowest scores occurred for items that reflected situation awareness. All teams improved their aggregate scores from Time 1 to Time 2 (p < 0.05). Student teams in the intervention group achieved significantly higher performance scores at Time 1 (Cohen's d = 0.92, p < 0.001) and Time 2 (d = 0.61, p < 0.01). All student teams demonstrated significant improvement in their ability to work more effectively by Time 2. The results suggest that situational awareness is an advanced expectation for the undergraduate student team. The provision of a formalized TT module prior to engaging student teams in a simulation-based TT curriculum led to significantly higher performances at Time 1 and 2.

Student Perceptions of Team-based Learning vs Traditional Lecture-based Learning

PubMed Central

Frame, Tracy R.; Cailor, Stephanie M.; Chen, Aleda M.; Kiersma, Mary E.; Sheppard, Lorin

2015-01-01

Objective. To evaluate pharmacy student perceptions of team-based learning (TBL) vs traditional lecture-based learning formats. Methods. First professional year pharmacy students (N=111) at two universities used TBL in different courses during different semesters (fall vs spring). Students completed a 22-item team perceptions instrument before and after the fall semester. A 14-item teaching style preference instrument was completed at the end of the spring semester. Data were analyzed using Wilcoxon signed rank test and Mann-Whitney U test. Results. Students who experienced TBL in the fall and went back to traditional format in the spring reported improved perceptions of teams and preferred TBL format over a traditional format more than students who experienced a traditional format followed by TBL. Students at both universities agreed that the TBL format assists with critical-thinking, problem-solving, and examination preparation. Students also agreed that teams should consist of individuals with different personalities and learning styles. Conclusion. When building teams, faculty members should consider ways to diversify teams by considering different views, perspectives, and strengths. Offering TBL early in the curriculum prior to traditional lecture-based formats is better received by students, as evidenced by anecdotal reports from students possibly because it allows students time to realize the benefits and assist them in building teamwork-related skills. PMID:26089560

Student Perceptions of Team-based Learning vs Traditional Lecture-based Learning.

PubMed

Frame, Tracy R; Cailor, Stephanie M; Gryka, Rebecca J; Chen, Aleda M; Kiersma, Mary E; Sheppard, Lorin

2015-05-25

To evaluate pharmacy student perceptions of team-based learning (TBL) vs traditional lecture-based learning formats. First professional year pharmacy students (N=111) at two universities used TBL in different courses during different semesters (fall vs spring). Students completed a 22-item team perceptions instrument before and after the fall semester. A 14-item teaching style preference instrument was completed at the end of the spring semester. Data were analyzed using Wilcoxon signed rank test and Mann-Whitney U test. Students who experienced TBL in the fall and went back to traditional format in the spring reported improved perceptions of teams and preferred TBL format over a traditional format more than students who experienced a traditional format followed by TBL. Students at both universities agreed that the TBL format assists with critical-thinking, problem-solving, and examination preparation. Students also agreed that teams should consist of individuals with different personalities and learning styles. When building teams, faculty members should consider ways to diversify teams by considering different views, perspectives, and strengths. Offering TBL early in the curriculum prior to traditional lecture-based formats is better received by students, as evidenced by anecdotal reports from students possibly because it allows students time to realize the benefits and assist them in building teamwork-related skills.

Forming Student Online Teams for Maximum Performance

ERIC Educational Resources Information Center

Olson, Joel D.; Ringhand, Darlene G.; Kalinski, Ray C.; Ziegler, James G.

2015-01-01

What is the best way to assign graduate business students to online team-based projects? Team assignments are frequently made on the basis of alphabet, time zones or previous performance. This study reviews personality as an indicator of student online team performance. The personality assessment IDE (Insights Discovery Evaluator) was administered…

Effects of an interdisciplinary volunteer experience on students' knowledge of and attitudes toward the health care team.

PubMed

Gallagher, Heather; Cooper, Maryann; Durand, Cheryl

2010-01-01

To assess the effect of an interdisciplinary, volunteer clinical experience completed by physician assistant (PA), pharmacy, and nursing students and whether the experience will change students' knowledge of, or attitudes toward, a team approach to health care. Surveys were conducted before and after the project using a 5-point Likert scale that measured the impact of the project on a nonrandom sample of PA, pharmacy, and nursing students who completed a minimum of four hours of service at Head Start preschool sites in southern New Hampshire. Students were recruited through email announcements and a lunchtime information session describing the program. Presurveys were completed using Blackboard before the student's scheduled participation day. Postsurveys were completed onsite at the end of the volunteer time. Surveys were blinded using a number and letter code. Students' knowledge (survey questions 1-4) and attitudes (survey questions 5-7) toward the health care team were evaluated in several areas including the importance of working in a team, knowledge level of other team members, awareness of community agencies as part of the team, and the importance of communication within the health care team. Paired t-tests were used to determine whether significant changes occurred in attitudes or knowledge as a result of the interdisciplinary volunteer experience. Approval of the study protocol was granted by the college's institutional review board. Statistically significant increases were noted in awareness of community resources, understanding of the strengths and skills of other members of the health care team, and experiences in working with other disciplines. Student attitudes toward a team approach to health care did not significantly change as a result of this experience. Enabling students to interact with other disciplines and to provide care to patients significantly increased students' awareness of community resources as well as their understanding of the strengths and skills of other members of the health care team. Students also gained experience working in a health care team. This demonstrates that a volunteer experience involving interdisciplinary collaboration can be used to enhance students' knowledge of the health care team.

Groups Meet . . . Teams Improve: Building Teams That Learn

ERIC Educational Resources Information Center

Hillier, Janet; Dunn-Jensen, Linda M.

2013-01-01

Although most business students participate in team-based projects during undergraduate or graduate course work, the team experience does not always teach team skills or capture the team members' potential: Students complete the task at hand but the explicit process of becoming a team is often not learned. Drawing from organizational learning…

Swarmathon 2018

NASA Image and Video Library

2018-04-17

Students from Montgomery College in Rockville in Maryland, follow the progress of their Swarmie robots during the Swarmathon competition at the Kennedy Space Center Visitor Complex. Students were asked to develop computer code for the small robots, programming them to look for "resources" in the form of AprilTag cubes, similar to barcodes. Teams developed search algorithms for the Swarmies to operate autonomously, communicating and interacting as a collective swarm similar to ants foraging for food. In the spaceport's third annual Swarmathon, 23 teams represented 24 minority serving universities and community colleges were invited to develop software code to operate these innovative robots known as "Swarmies" to help find resources when astronauts explore distant locations, such as the Moon or Mars.

Developing a Watershed Challenge

ERIC Educational Resources Information Center

Roman, Harry T.

2010-01-01

This article presents a watershed challenge that gives students an opportunity to investigate the challenge of using a watershed area as a site for development, examining the many aspects of this multifaceted problem. This design challenge could work well in a team-based format, with students taking on specific aspects of the challenges and…

Developing Culturally Competent Teachers: An International Student Teaching Field Experience

ERIC Educational Resources Information Center

Salmona, Michelle; Partlo, Margaret; Kaczynski, Dan; Leonard, Simon N.

2015-01-01

This study offers a theoretical construct for better understanding how experiential learning enables student teachers to acquire social and cultural variation skills, develop cultural empathy in the K-12 classroom, and the transference of these skills to new educational situations. An Australian and United States research team used a…

Team-Based Learning Enhances Performance in Introductory Biology

ERIC Educational Resources Information Center

Carmichael, Jeffrey

2009-01-01

Given the problems associated with the traditional lecture method, the constraints associated with large classes, and the effectiveness of active learning, continued development and testing of efficient student-centered learning approaches are needed. This study explores the effectiveness of team-based learning (TBL) in a large-enrollment…

Exercising Trust to Power Technology.

ERIC Educational Resources Information Center

Winkler, Carol Ann K.

1998-01-01

Recounts the Nerinx Hall High School New Frontiers team's apprehension in the 1992 New Frontiers for Catholic Schools workshop, convened to write technology plans for Catholic schools. Describes faculty and student success in incorporating new multimedia technology into the curriculum, after the team developed a plan for the school. (VWC)

Team Culture and Business Strategy Simulation Performance

ERIC Educational Resources Information Center

Ritchie, William J.; Fornaciari, Charles J.; Drew, Stephen A. W.; Marlin, Dan

2013-01-01

Many capstone strategic management courses use computer-based simulations as core pedagogical tools. Simulations are touted as assisting students in developing much-valued skills in strategy formation, implementation, and team management in the pursuit of superior strategic performance. However, despite their rich nature, little is known regarding…

Teaching a Biotechnology Unit in High School General Biology.

ERIC Educational Resources Information Center

Hays, Lana

1994-01-01

Describes a unit in biotechnology for average and below average high school students. Students developed productive team membership, used math and communication skills to solve problems, and used the scientific method to learn about biotechnology. Students separated DNA, transformed bacterial cells, interpreted DNA fingerprints, completed creative…

Dropping In a Microgravity Environment (DIME) contest

NASA Technical Reports Server (NTRS)

2001-01-01

The first NASA Dropping In a Microgravity Environment (DIME) student competition pilot project came to a conclusion at the Glenn Research Center in April 2001. The competition involved high-school student teams who developed the concept for a microgravity experiment and prepared an experiment proposal. The two student teams - COSI Academy, sponsored by the Columbus Center of Science and Industry, and another team from Cincinnati, Ohio's Sycamore High School, designed a microgravity experiment, fabricated the experimental apparatus, and visited NASA Glenn to operate their experiment in the 2.2 Second Drop Tower. Here Jose Carrion, a lab mechanic with AKAC, starts the orange-colored drag shield, and the experiment apparatus inside, on the hoist upward to the control station at the top of the drop tower. This image is from a digital still camera; higher resolution is not available.

Project-based Modules from two STEM Learning Teams in Howard County, Maryland

NASA Astrophysics Data System (ADS)

Griffiths, L. N.; Bradley, L. A.

2011-12-01

In 2009, two Maryland school districts-Howard County Public School System and Prince George's County Public Schools-and the Goddard Space Flight Center of the National Aeronautics and Space Administration (NASA) partnered with the National Commission on Teaching and America's Future (NCTAF) to develop NASA 21st Century Learning Studios. In 2010, NCTAF expanded the program to include Learning Studios at two additional Maryland school districts (Anne Arundel County Public Schools and Baltimore County Public Schools), partnering with the United States Naval Academy and the University of Maryland. Overall, the focus of these Learning Studios is to combine the expertise of scientists with that of educators through Learning Teams to improve teaching and learning in science, technology, engineering and mathematics (STEM) fields, while delivering project-based modules to be implemented in other school districts. The focus of this paper is to summarize the experience and outcomes from two Learning Teams from the Howard County Public School System. STEM Learning Teams were established at Centennial High School and Hammond High School in Maryland. Each Team worked together for two years to create interdisciplinary units of study for their students with a focus on Earth Science. To maximize student interest, teachers worked with NASA scientists five times a year to develop four learning modules using practical examples and incorporating real scientific observations. A weathering and erosion module challenges students to collect appropriate field observations and determine erosion and deposition rates in a nearby lake. A plate tectonics module requires students to use measures of plate motion from the National Oceanic and Atmospheric Administration to estimate rates of convergence in southern Asia. A third module for lessons in climate change requires students to find open source climate data, determine changes in the atmosphere and estimate anthropogenic impacts. A follow-up exercise challenges students to find ways to alter their schools, homes and individual activities for reducing carbon footprints. A fourth module requires students to model solar and lunar eclipses in different ways, and to combine this understanding with the personal experiences of a NASA scientist. The intended outcomes from an implementation of these four modules are: to present real-world practical problems to be solved by the students; to expose students to areas of active research; and to expose students to careers in STEM. Such experience should improve their preparations for new opportunities after high school.

Getting a head start: high-fidelity, simulation-based operating room team training of interprofessional students.

PubMed

Paige, John T; Garbee, Deborah D; Kozmenko, Valeriy; Yu, Qingzhao; Kozmenko, Lyubov; Yang, Tong; Bonanno, Laura; Swartz, William

2014-01-01

Effective teamwork in the operating room (OR) is often undermined by the "silo mentality" of the differing professions. Such thinking is formed early in one's professional experience and is fostered by undergraduate medical and nursing curricula lacking interprofessional education. We investigated the immediate impact of conducting interprofessional student OR team training using high-fidelity simulation (HFS) on students' team-related attitudes and behaviors. Ten HFS OR interprofessional student team training sessions were conducted involving 2 standardized HFS scenarios, each of which was followed by a structured debriefing that targeted team-based competencies. Pre- and post-session mean scores were calculated and analyzed for 15 Likert-type items measuring self-efficacy in teamwork competencies using the t-test. Additionally, mean scores of observer ratings of team performance after each scenario and participant ratings after the second scenario for an 11-item Likert-type teamwork scale were calculated and analyzed using one-way ANOVA and t-test. Eighteen nursing students, 20 nurse anesthetist students, and 28 medical students participated in the training. Statistically significant gains from mean pre- to post-training scores occurred on 11 of the 15 self-efficacy items. Statistically significant gains in mean observer performance scores were present on all 3 subscales of the teamwork scale from the first scenario to the second. A statistically significant difference was found in comparisons of mean observer scores with mean participant scores for the team-based behaviors subscale. High-fidelity simulation OR interprofessional student team training improves students' team-based attitudes and behaviors. Students tend to overestimate their team-based behaviors. Copyright © 2014 American College of Surgeons. Published by Elsevier Inc. All rights reserved.

Healthcare students as innovative partners in the development of future healthcare services: An action research approach.

PubMed

Norbye, Bente

2016-11-01

Health care systems in Norway and the western world have experienced extensive changes due to patients living longer with complex conditions that require coordinated care. A Norwegian healthcare reform has led to significant restructuring in service delivery as a devolution of services to municipalities. Partners from three rural healthcare services, students from four professional programmes, and one lecturer from each of the professional programmes used a collaborative approach to obtain new knowledge through interprofessional practice. Using an action research design, the research group facilitated democratic processes through dialogues with healthcare services and students. The design is visualised as a cyclical process in which each cycle contributes to improvements, innovations, and increased understanding. A total of 32 students and 3 supervisors were interviewed before and after the clinical practice experiences. Fieldwork was conducted during three clinical periods. Interprofessional student groups formed small healthcare teams and assessed patients with chronic and long-term conditions. Students prepared and negotiated patient follow-up. The teams' responsibilities led to reflective practices that enhanced their professional knowledge. The teams achieved a new understanding of patient situations, which influenced "second opinions" for patients with complex conditions and led to innovative practices. The change in perception of patient needs led to a changed professional approach. The students' perceptions changed as they learned from and about each other and in collaboration with the health service; this led to more coordinated care of patients with complex conditions. Interprofessional learning in community settings provided a platform to improve both healthcare education and rural healthcare services. This research contributes to knowledge of how students' placement in interprofessional teams can enhance students learning from, with and about each other. The student teams promoted new ways of approaching and delivering complex patient treatment and care in community healthcare service. Collaborative partnerships in interprofessional learning have potential in the wider international arena as a means for practice improvement. Copyright © 2016 Elsevier Ltd. All rights reserved.

Dental and Dental Hygiene Intraprofessional Education: A Pilot Program and Assessment of Students' and Patients' Satisfaction.

PubMed

Jones, Vickie E; Karydis, Anastasios; Hottel, Timothy L

2017-10-01

Interprofessional and intraprofessional education (when students from two or more professions or within the same profession, respectively, learn about, from, and/or with each other) is crucial for effective interdisciplinary collaboration. The aims of this study were to assess the effectiveness of a clinical intraprofessional education program for dental and dental hygiene students, based on students' expectations and satisfaction with the program and patients' satisfaction with the team-based care. The pilot program was developed at the University of Tennessee Health Science Center College of Dentistry, where dental hygiene students were paired randomly with dental students scheduled for prophylaxis, scaling and root planing, or periodontal maintenance. Surveys with questions about the students' expectations and satisfaction were distributed to 89 senior dental students and 27 senior dental hygiene students before and after team-based procedures. Another survey was distributed to 17 patients asking about their satisfaction with the team-based care. All 27 dental hygiene students (100% response rate), 51 dental students (57.3% response rate), and all 17 patients (100% response rate) participated in the surveys. The results showed that both the dental and dental hygiene students had high expectations and were overall satisfied with the intraprofessional education. The students' expectations and perceived educational gap (difference between expectations and satisfaction) differed for the dental and dental hygiene students (p<0.001). The male dental students were also more satisfied than the female dental students (p<0.01). Overall, the program met or exceeded the students' expectations, and the patients were overwhelmingly satisfied with the team-based care. These results suggest that this intraprofessional practice model provided an effective educational experience for both dental and dental hygiene students and patients. The differences between the dental hygiene and dental students' expectations will help in the design of more effective training that promotes intraprofessional and interprofessional teamwork.

Does Team Formation Impact Student Performance, Effort and Attitudes in a College Course Employing Collaborative Learning?

ERIC Educational Resources Information Center

Pociask, Sarah; Gross, David; Shih, Mei-Yau

2017-01-01

The literature on team-based learning emphasizes the importance of team composition and team design, and it is recommended that instructors organize teams to ensure diversity of team members and optimal team performance. But does the method of team formation actually impact student performance? The goal of the present study was to examine whether…

Organizational structure, team process, and future directions of interprofessional health care teams.

PubMed

Cole, Kenneth D; Waite, Martha S; Nichols, Linda O

2003-01-01

For a nationwide Geriatric Interdisciplinary Team Training (GITT) program evaluation of 8 sites and 26 teams, team evaluators developed a quantitative and qualitative team observation scale (TOS), examining structure, process, and outcome, with specific focus on the training function. Qualitative data provided an important expansion of quantitative data, highlighting positive effects that were not statistically significant, such as role modeling and training occurring within the clinical team. Qualitative data could also identify "too much" of a coded variable, such as time spent in individual team members' assessments and treatment plans. As healthcare organizations have increasing demands for productivity and changing reimbursement, traditional models of teamwork, with large teams and structured meetings, may no longer be as functional as they once were. To meet these constraints and to train students in teamwork, teams of the future will have to make choices, from developing and setting specific models to increasing the use of information technology to create virtual teams. Both quantitative and qualitative data will be needed to evaluate these new types of teams and the important outcomes they produce.

Correlations Between Clinical Judgement and Learning Style Preferences of Nursing Students in the Simulation Room.

PubMed

Hallin, Karin; Haggstrom, Marie; Backstrom, Britt; Kristiansen, Lisbeth Porskrog

2015-09-28

Health care educators account for variables affecting patient safety and are responsible for developing the highly complex process of education planning. Clinical judgement is a multidimensional process, which may be affected by learning styles. The aim was to explore three specific hypotheses to test correlations between nursing students' team achievements in clinical judgement and emotional, sociological and physiological learning style preferences. A descriptive cross-sectional study was conducted with Swedish university nursing students in 2012-2013. Convenience sampling was used with 60 teams with 173 nursing students in the final semester of a three-year Bachelor of Science in nursing programme. Data collection included questionnaires of personal characteristics, learning style preferences, determined by the Dunn and Dunn Productivity Environmental Preference Survey, and videotaped complex nursing simulation scenarios. Comparison with Lasater Clinical Judgement Rubric and Non-parametric analyses were performed. Three significant correlations were found between the team achievements and the students' learning style preferences: significant negative correlation with 'Structure' and 'Kinesthetic' at the individual level, and positive correlation with the 'Tactile' variable. No significant correlations with students' 'Motivation', 'Persistence', 'Wish to learn alone' and 'Wish for an authoritative person present' were seen. There were multiple complex interactions between the tested learning style preferences and the team achievements of clinical judgement in the simulation room, which provides important information for the becoming nurses. Several factors may have influenced the results that should be acknowledged when designing further research. We suggest conducting mixed methods to determine further relationships between team achievements, learning style preferences, cognitive learning outcomes and group processes.

Simulation Exploration Experience 2018 Overview

NASA Technical Reports Server (NTRS)

Paglialonga, Stephen; Elfrey, Priscilla; Crues, Edwin Z.

2018-01-01

The Simulation Exploration Experience (SEE) joins students, industry, professional associations, and faculty together for an annual modeling and simulation (M&S) challenge. SEE champions collaborative collegiate-level modeling and simulation by providing a venue for students to work in highly dispersed inter-university teams to design, develop, test, and execute simulated missions associated with space exploration. Participating teams gain valuable knowledge, skills, and increased employability by working closely with industry professionals, NASA, and faculty advisors. This presentation gives and overview of the SEE and the upcoming 2018 SEE event.

Enhancing Interprofessional Education With Team-Based Learning.

PubMed

Buhse, Marijean; Della Ratta, Carol

Interprofessional education (IPE) has gained momentum across health profession schools in simulation and clinical settings. Exploring interprofessional experiences in the classroom setting may further enhance collaborative skills while advancing clinical knowledge. The authors describe an innovative approach to IPE to teach chronic care concepts to graduate nursing, physician assistant, and public health students. Enhancing IPE with a team-based learning approach resulted in improved knowledge of chronic care management, student perceptions of mutual respect, and perceived development of communication and teamwork skills.

Interprofessional teamwork skills as predictors of clinical outcomes in a simulated healthcare setting.

PubMed

Shrader, Sarah; Kern, Donna; Zoller, James; Blue, Amy

2013-01-01

Teaching interprofessional (IP) teamwork skills is a goal of interprofessional education. The purpose of this study was to examine the relationship between IP teamwork skills, attitudes and clinical outcomes in a simulated clinical setting. One hundred-twenty health professions students (medicine, pharmacy, physician assistant) worked in interprofessional teams to manage a "patient" in a health care simulation setting. Students completed the Interdisciplinary Education Perception Scale (IEPS) attitudinal survey instrument. Students' responses were averaged by team to create an IEPS attitudes score. Teamwork skills for each team were rated by trained observers using a checklist to calculate a teamwork score (TWS). Clinical outcome scores (COS) were determined by summation of completed clinical tasks performed by the team based on an expert developed checklist. Regression analyses were conducted to determine the relationship of IEPS and TWS with COS. IEPS score was not a significant predictor of COS (p=0.054), but TWS was a significant predictor (p<0.001) of COS. Results suggest that in a simulated clinical setting, students' interprofessional teamwork skills are significant predictors of positive clinical outcomes. Interprofessional curricular models that produce effective teamwork skills can improve student performance in clinical environments and likely improve teamwork practice to positively affect patient care outcomes.

Alpha Project. Townsight Canada. Project Canada West.

ERIC Educational Resources Information Center

Western Curriculum Project on Canada Studies, Edmonton (Alberta).

In order to acquaint students with other environments and to develop an awareness of their own community, the study of a small community in Canada was undertaken by this project development team. The Alpha students studied Chilliwack the first year (ED 066 352) and this second report covers their study of Powell River. The aim of the developers is…

A Capstone Course on Agile Software Development Using Scrum

ERIC Educational Resources Information Center

Mahnic, V.

2012-01-01

In this paper, an undergraduate capstone course in software engineering is described that not only exposes students to agile software development, but also makes it possible to observe the behavior of developers using Scrum for the first time. The course requires students to work as Scrum Teams, responsible for the implementation of a set of user…

Raising the Bar: Challenging Students in a Capstone Project Course with an Android and Mobile Web Parallel Development Team Project

ERIC Educational Resources Information Center

Wong, Wilson; Pepe, James; Englander, Irv

2017-01-01

Information systems capstone projects aim to prepare students for what they will encounter in the industry after graduation. Corporate application development is often a complex endeavor that requires coordination between related products. For example, software development in the mobile application sector may require a coordinated parallel…

Pharmacy students' attitudes towards physician-pharmacist collaboration: Intervention effect of integrating cooperative learning into an interprofessional team-based community service.

PubMed

Wang, Jun; Hu, Xiamin; Liu, Juan; Li, Lei

2016-09-01

The aim of this study was to evaluate the attitudes towards physician-pharmacist collaboration among pharmacy students in order to develop an interprofessional education (IPE) opportunity through integrating cooperative learning (CL) into a team-based student-supported community service event. The study also aimed to assess the change in students' attitudes towards interprofessional collaboration after participation in the event. A bilingual version of the Scale of Attitudes Toward Physician-Pharmacist Collaboration (SATP(2)C) in English and Chinese was completed by pharmacy students enrolled in Wuhan University of Science and Technology, China. Sixty-four students (32 pharmacy students and 32 medical students) in the third year of their degree volunteered to participate in the IPE opportunity for community-based diabetes and hypertension self-management education. We found the mean score of SATP(2)C among 235 Chinese pharmacy students was 51.44. Cronbach's alpha coefficient was 0.90. Our key finding was a significant increase in positive attitudes towards interprofessional collaboration after participation in the IPE activity. These data suggest that there is an opportunity to deliver IPE in Chinese pharmacy education. It appears that the integration of CL into an interprofessional team-based community service offers a useful approach for IPE.

The impact of leadership and team behavior on standard of care delivered during human patient simulation: a pilot study for undergraduate medical students.

PubMed

Carlson, Jim; Min, Elana; Bridges, Diane

2009-01-01

Methodology to train team behavior during simulation has received increased attention, but standard performance measures are lacking, especially at the undergraduate level. Our purposes were to develop a reliable team behavior measurement tool and explore the relationship between team behavior and the delivery of an appropriate standard of care specific to the simulated case. Authors developed a unique team measurement tool based on previous work. Trainees participated in a simulated event involving the presentation of acute dyspnea. Performance was rated by separate raters using the team behavior measurement tool. Interrater reliability was assessed. The relationship between team behavior and the standard of care delivered was explored. The instrument proved to be reliable for this case and group of raters. Team behaviors had a positive relationship with the standard of medical care delivered specific to the simulated case. The methods used provide a possible method for training and assessing team performance during simulation.

Perfecting Scientists' Collaboration and Problem-Solving Skills in the Virtual Team Environment

NASA Astrophysics Data System (ADS)

Jabro, A.; Jabro, J.

2012-04-01

PPerfecting Scientists' Collaboration and Problem-Solving Skills in the Virtual Team Environment Numerous factors have contributed to the proliferation of conducting work in virtual teams at the domestic, national, and global levels: innovations in technology, critical developments in software, co-located research partners and diverse funding sources, dynamic economic and political environments, and a changing workforce. Today's scientists must be prepared to not only perform work in the virtual team environment, but to work effectively and efficiently despite physical and cultural barriers. Research supports that students who have been exposed to virtual team experiences are desirable in the professional and academic arenas. Research supports establishing and maintaining established protocols for communication behavior prior to task discussion provides for successful team outcomes. Research conducted on graduate and undergraduate virtual teams' behaviors led to the development of successful pedagogic practices and assessment strategies.

Creating and sustaining an academic-practice Partnership Engagement Model.

PubMed

Schaffer, Marjorie A; Schoon, Patricia M; Brueshoff, Bonnie L

2017-11-01

Public health clinical educators and practicing public health nurses (PHNs) are experiencing challenges in creating meaningful clinical learning experiences for nursing students due to an increase in nursing programs and greater workload responsibilities for both nursing faculty and PHNs. The Henry Street Consortium (HSC), a collaborative group of PHNs and nursing faculty, conducted a project to identify best practices for public health nursing student clinical learning experiences. Project leaders surveyed HSC members about preferences for teaching-learning strategies, facilitated development of resources and tools to guide learning, organized faculty/PHN pilot teams to test resources and tools with students, and evaluated the pilot team experiences through two focus groups. The analysis of the outcomes of the partnership engagement project led to the development of the Partnership Engagement Model (PEM), which may be used by nursing faculty and their public health practice partners to guide building relationships and sustainable partnerships for educating nursing students. © 2017 Wiley Periodicals, Inc.

Mutual benefit for foreign medical students and Chinese postgraduates: A mixed team-based learning method overcomes communication problems in hematology clerkship.

PubMed

Chen, Xianling; Chen, Buyuan; Li, Xiaofan; Song, Qingxiao; Chen, Yuanzhong

2017-03-04

Hematology is difficult for students to learn. A beneficial education method for hematology clerkship training is required to help students develop clinical skills. Foreign medical students often encounter communication issues in China. To address this issue, Chinese post-graduates from our institute are willing to assist with educating foreign students. Therefore, we propose a mixed team-based learning method (MTBL) which might overcome communication problems in hematology clerkship. Twenty-two foreign medical Students attended a 2-week hematology clerkship in Fujian Medical University Union Hospital. Twenty-one foreign African medical students were assigned randomly into two groups. Fourteen foreign African medical students were assigned to MTBL group. Each MTBL team included two foreign African medical students and one Chinese post-graduate. Seven foreign African medical students were assigned to lecture-based learning method (LBL) group, which had a foreign medical classmate from Hong Kong or Chinese intern volunteers to serve as translators. The practice test scores of MTBL were significantly higher than LBL group (p < 0.05). The MTBL group had increased motivation to prepare before class, an engaged classroom atmosphere, and an improvement in their understanding of difficult topics. Interestingly, the Chinese post-graduates also benefited from this setting, as they found that this interaction improved their communication in the English language. The mixed team-based learning method overcomes communication problems in hematology clerkship. Foreign medical students and Chinese post-graduates alike can benefit from MTBL. © 2016 by The International Union of Biochemistry and Molecular Biology, 45(2):93-96, 2017. © 2016 The International Union of Biochemistry and Molecular Biology.

Exploring Students' Acceptance of Team Messaging Services: The Roles of Social Presence and Motivation

ERIC Educational Resources Information Center

Huang, Yong-Ming

2017-01-01

Team messaging services represent a type of cloud computing applications that support not only the messaging among users but also the collaboration in a team. Accordingly, team messaging services have great potential to facilitate students' collaboration. However, only few studies utilized such services to support students' collaboration and…

Active-learning assignments to integrate basic science and clinical course material.

PubMed

Marshall, Leisa L; Nykamp, Diane

2010-09-10

To develop, implement, and evaluate active-learning exercises requiring the integration and application of pathophysiology, medicinal chemistry, pharmacology, and therapeutics knowledge of osteoarthritis and rheumatoid arthritis to formulate therapeutic recommendations for patients with musculoskeletal disorders. Two team-based case study exercises, one evaluating a patient with osteoarthritis and the second, a patient with rheumatoid arthritis, were developed, incorporating material and questions from pathophysiology, medicinal chemistry, pharmacology, and therapeutics. The learning assignments were implemented in a required pharmacotherapy module. Student learning was evaluated using performance on the team-based case study exercises and on 2 examinations. A standard student course evaluation was used to assess students' impressions of the learning activity. The mean student grades for the osteoarthritis and rheumatoid arthritis activities were 9.1 and 8.9, respectively, on a 10-point scale. The majority of students indicated that the learning exercises were more than adequate to excellent in helping students learn. The addition of active-learning activities was successful in teaching pharmacy students the knowledge needed to formulate therapeutic recommendations for patients with musculoskeletal disorders.

Do commencing nursing and paramedicine students differ in interprofessional learning and practice attitudes: evaluating course, socio-demographic and individual personality effects.

PubMed

Hallam, Karen T; Livesay, Karen; Morda, Romana; Sharples, Jenny; Jones, Andi; de Courten, Maximilian

2016-03-03

Interprofessional education (IPE) requires health students to learn with, from and about each other in order to develop a modern workforce with client-centred care at its core. Despite the client centred focus of IPE, training programs often utilize standard approaches across student cohorts without consideration of discipline, sociodemographic and personality variability that attract students to different health disciplines. Knowing the students who engage in IPE to tailor training may prove as beneficial as knowing the client to delivered individualized client centred care in interprofessional practice (IPP). This research investigates whether students commencing undergraduate nursing and paramedicine degrees ener training with existing demographic and personality differences and, if these are associated with different attitudes towards health care teams and interprofessional education. This online study recruited 160 nursing and 50 paramedicine students in their first week of their undergraduate course. Students completed questionnaires regarding their background, personality (General Perceived Self Esteem Scale, International Mini Markers) and the attitudes towards health care teams scale (ATHCTS) and interprofessional education perception scale (IEPS). Results show that commencing nursing and paramedicine students are demographically different on education, gender, speaking a language other than English at home (LOTE) and their own experience with healthcare. The results further demonstrate that LOTE, discipline being studied and personality factors play a role in perceptions regarding interprofessional training whilst discipline being studied impacted on attitudes towards health care teams in the workforce. These results highlight a number of existing personal and psychological differences between individuals who choose to train in these selected professions. This suggests a need for tertiary education IPE programs to move towards tailoring their education to value this student diversity in the same client centred manner that students are asked to develop clinically.

Internet Investigations: Mixing Talent with Teachers and Telecommunications.

ERIC Educational Resources Information Center

Brown, Mark E.; Riley, Tracy L.

1998-01-01

Describes how teams of grade 4-9 gifted students investigated unsolved mysteries like Bigfoot, aliens and UFOs, the Loch Ness Monster, and Stonehenge to develop Internet and research skills. Highlights student observations on difficulties encountered using the Internet for research, notes student evaluation of the workshop, and provides addresses…

Using POGIL to Help Students Learn to Program

ERIC Educational Resources Information Center

Hu, Helen H.; Shepherd, Tricia D.

2013-01-01

POGIL has been successfully implemented in a scientific computing course to teach science students how to program in Python. Following POGIL guidelines, the authors have developed guided inquiry activities that lead student teams to discover and understand programming concepts. With each iteration of the scientific computing course, the authors…

Ah-choo! Increased Risk of Pollen Allergies in the Northern Hemisphere

ERIC Educational Resources Information Center

Constible, Juanita; Sandro, Luke

2008-01-01

In this problem-based learning activity designed for nonscience majors, students assume the roles of scientists working for a public relations firm. Teams of students design communication products illustrating links between climate change and pollen allergies. Students develop a variety of process skills critical to scientists, including working…

Students at Risk: The Teachers' Call to Action!

ERIC Educational Resources Information Center

Bonilla, Carlos A., Ed.; Goss, Joyce, Ed.

Written by a team of graduate student teachers, this collection of papers focuses on the challenges of teaching at-risk students and the development of successful classroom strategies. The first chapter, "Kids in Need: The Teachers' Perspective," addresses Hispanic children in poverty, the effects of poverty on academic achievement, and…

Designing Interdisciplinary Assessments in Sciences for College Students: An Example on Osmosis

ERIC Educational Resources Information Center

Shen, Ji; Liu, Ou Lydia; Sung, Shannon

2014-01-01

College science education needs to foster students' habit of mind beyond disciplinary constraints. However, little research has been devoted to assessing students' interdisciplinary understanding. To address this problem, we formed a team of experts from different disciplines to develop interdisciplinary assessments that target…

A Case Study in Project-Based Learning: An International Partnership

ERIC Educational Resources Information Center

Smith, Rachel Korfhage

2010-01-01

As our world becomes more integrated, international business students should develop skills that match corporations' needs. Moreover, students need hands-on, problem-solving, team-based, critical-thinking skills that companies demand. Students need international business experience but many of them lack the funds or support to study or intern…

The twelfth annual Intelligent Ground Vehicle Competition: team approaches to intelligent vehicles

NASA Astrophysics Data System (ADS)

Theisen, Bernard L.; Maslach, Daniel

2004-10-01

The Intelligent Ground Vehicle Competition (IGVC) is one of three, unmanned systems, student competitions that were founded by the Association for Unmanned Vehicle Systems International (AUVSI) in the 1990s. The IGVC is a multidisciplinary exercise in product realization that challenges college engineering student teams to integrate advanced control theory, machine vision, vehicular electronics, and mobile platform fundamentals to design and build an unmanned system. Both U.S. and international teams focus on developing a suite of dual-use technologies to equip ground vehicles of the future with intelligent driving capabilities. Over the past 12 years, the competition has challenged undergraduate, graduate and Ph.D. students with real world applications in intelligent transportation systems, the military and manufacturing automation. To date, teams from over 43 universities and colleges have participated. This paper describes some of the applications of the technologies required by this competition and discusses the educational benefits. The primary goal of the IGVC is to advance engineering education in intelligent vehicles and related technologies. The employment and professional networking opportunities created for students and industrial sponsors through a series of technical events over the three-day competition are highlighted. Finally, an assessment of the competition based on participant feedback is presented.

An IYPT-based undergraduate physics tournament in China

NASA Astrophysics Data System (ADS)

Li, Chuanyong; Song, Feng; Liu, Yubin; Sun, Qian

2013-03-01

International Young Physicists' Tournament (IYPT) is a team-oriented scientific competition of secondary school students. The participants present their solutions to scientific problems they have prepared over several months and discuss their solutions with other teams. It can also be implemented in university level as its physics problems are all open questions and have no standard answers, especially suitable for undergraduates' ability training in China. The annual tournament of physics learning of undergraduates in our school of physics was started in 2008. Each year, there are 15-18 teams, 20 more student volunteers and 30 more faculty jurors involved. The students benefited in different ways. It is project-based, requiring students to solve the problems in a research way. Team work is developed in both experimenting and discussing stages. The knowledge learned in classrooms can be used to solve these practical and life-related problems, raising their interest and initiative in physics learning. Finally, they are building up their skills in scientific presentation and communication. An IYPT-based program called CUPT (China undergraduate physics tournament) was launched in 2010 and annually attracts about 40 universities to attend. It gains its important role in physics education. National Fund for Talent Training in Basic Sciences (J1103208)

Undergraduate Peer Learning and Public Digital Humanities Research

ERIC Educational Resources Information Center

Draxler, Bridget; Hsieh, Haowei; Dudley, Nicole; Winet, Jon

2012-01-01

In conjunction with Iowa City's 2008 designation as a UNESCO City of Literature, an interdisciplinary team of University of Iowa faculty, graduate and undergraduate student researchers formed UCOL--the University of Iowa UNESCO City of Literature Mobile Application Development Team. The project brings together community partners, faculty, students…

Design and Development of an Interactive Web-Based Curriculum in Support of the Space Science Education Initiative: Mars Millennium.

ERIC Educational Resources Information Center

Hunt, Leslie; Karl, Rita

This paper provides an account of the instructional design and development process used by a team of students enrolled in a graduate level course in distance education as the team members conceptualized and created two prototype World Wide Web-based instructional modules, aimed at grades 5 through 12, for the Lunar and Planetary Institute's Mars…

A trial of team-based versus small-group learning for second-year medical students: does the size of the small group make a difference?

PubMed

Willett, Laura Rees; Rosevear, G Craig; Kim, Sarang

2011-01-01

Team-based learning is a large-group instructional modality intended to provide active learning with modest faculty resources. The goal is to determine if team-based learning could be substituted for small-group learning in case sessions without compromising test performance or satisfaction. One hundred and sixty-seven students were assigned to team-based or small-group learning for 6 case discussion sessions. Examination scores and student satisfaction were compared. Instruction modality had no meaningful effect on examination score, 81.7% team based versus 79.7% small-group, p=.56 after multivariate adjustment. Student satisfaction was lower with team-based learning, 2.45 versus 3.74 on a 5-point scale, p<.001. Survey responses suggested that the very small size (8-10 students) of our small groups influenced the preference for small-group learning. Team-based learning does not adversely affect examination performance. However, student satisfaction may be inferior, especially if compared to instruction in very small groups of 10 or fewer students.

An international model for staffing maternal and child health research: the use of undergraduate students.

PubMed

Wallis, Anne Baber; Chereches, Răzvan; Oprescu, Florin; Brînzaniuc, Alexandra; Dungy, Claibourne I

2007-09-01

Constrained resources in Central and Eastern Europe limit the capacity of local and national health ministries to study breastfeeding practices or implement evidence-based breastfeeding support programs. This paper describes an innovative model for studying an important maternal and child health (MCH) problem by training undergraduate students to strengthen local capacity for research. An international team of researchers from Romania and the United States designed a study conducted at Babeş-Bolyai University and two academic maternity hospitals in Cluj-Napoca, Romania. The objectives were to (1) spark interest in breastfeeding research among undergraduates, (2) develop empirical knowledge about breastfeeding, and (3) train a team of undergraduate students to collect, manage, and enter study data. A team of carefully selected undergraduate students was trained in survey design, data collection, data entry, and interviewing skills. Internet technology was used to facilitate communication and to transfer data. The project resulted in a trained cadre of undergraduate students able to conduct survey research on breastfeeding practices with skills ranging from questionnaire design and implementation to descriptive data analysis. Empirical data obtained from the study will be used for student projects, to stimulate new breastfeeding support policies and programs, and to apply for research grants. Undergraduate students in developing countries in Central and Eastern Europe are a valuable, untapped resource for expanding MCH capacity. We recommend adoption of this cost-effective approach to foster high-quality MCH research.

Planning in context: A situated view of children's management of science projects

NASA Astrophysics Data System (ADS)

Marshall, Susan Katharine

This study investigated children's collaborative planning of a complex, long-term software design project. Using sociocultural methods, it examined over time the development of design teams' planning negotiations and tools to document the coconstruction of cultural frameworks to organize teams' shared understanding of what and how to plan. Results indicated that student teams developed frameworks to address a set of common planning functions that included design planning, project metaplanning (things such as division of labor or sharing of computer resources) and team collaboration management planning. There were also some between-team variations in planning frameworks, within a bandwidth of options. Teams engaged in opportunistic planning, which reflected shifts in strategies in response to new circumstances over time. Team members with past design project experience ("oldtimers") demonstrated the transfer of their planning framework to the current design task, and they supported the developing participation of "newcomers." Teams constructed physical tools (e.g. planning boards) that acted as visual representations of teams' planning frameworks, and inscriptions of team thinking. The assigned functions of the tools also shifted over time with changing project circumstances. The discussion reexamines current approaches to the study of planning and discusses their educational implications.

The Effect of Online Co-Regulated Learning in the Implementation of Team-Based Learning on Improving Students' Involvement

ERIC Educational Resources Information Center

Tsai, Chia-Wen

2015-01-01

Many education institutions and teachers are recognizing and applying online learning and related educational technologies to help students achieve satisfactory learning performance. Due to the free entertainment on the Internet that may distract students' attention from online courses and with the purpose of developing students' teamwork…

Students with Disabilities in Higher Education: A Biographical-Narrative Approach to the Role of Lecturers

ERIC Educational Resources Information Center

Moriña Díez, Anabel; Gavira, Rosario López; Molina, Víctor M.

2015-01-01

This article presents an analysis of how lecturers respond to students with disabilities, the initial question being: do lecturers aid or hinder students? Findings pertain to a broader research project being developed by a multidisciplinary team employing a non-usual research methodology in higher education (HE) research and students with…

Team-based learning for midwifery education.

PubMed

Moore-Davis, Tonia L; Schorn, Mavis N; Collins, Michelle R; Phillippi, Julia; Holley, Sharon

2015-01-01

Many US health care and education stakeholder groups, recognizing the need to prepare learners for collaborative practice in complex care environments, have called for innovative approaches in health care education. Team-based learning is an educational method that relies on in-depth student preparation prior to class, individual and team knowledge assessment, and use of small-group learning to apply knowledge to complex scenarios. Although team-based learning has been studied as an approach to health care education, its application to midwifery education is not well described. A master's-level, nurse-midwifery, didactic antepartum course was revised to a team-based learning format. Student grades, course evaluations, and aggregate American Midwifery Certification Board examination pass rates for 3 student cohorts participating in the team-based course were compared with 3 student cohorts receiving traditional, lecture-based instruction. Students had mixed responses to the team-based learning format. Student evaluations improved when faculty added recorded lectures as part of student preclass preparation. Statistical comparisons were limited by variations across cohorts; however, student grades and certification examination pass rates did not change substantially after the course revision. Although initial course revision was time-consuming for faculty, subsequent iterations of the course required less effort. Team-based learning provides students with more opportunity to interact during on-site classes and may spur application of knowledge into practice. However, it is difficult to assess the effect of the team-based learning approach with current measures. Further research is needed to determine the effects of team-based learning on communication and collaboration skills, as well as long-term performance in clinical practice. This article is part of a special series of articles that address midwifery innovations in clinical practice, education, interprofessional collaboration, health policy, and global health. © 2015 by the American College of Nurse-Midwives.

The Effects of a Team Charter on Student Team Behaviors

ERIC Educational Resources Information Center

Aaron, Joshua R.; McDowell, William C.; Herdman, Andrew O.

2014-01-01

The authors contribute to growing evidence that team charters contribute positively to performance by empirically testing their effects on key team process outcomes. Using a sample of business students in a team-based task requiring significant cooperative and coordinative behavior, the authors compare emergent team norms under a variety of team…

The Effects of Team Personality Awareness Exercises on Team Satisfaction and Performance: The Context of Marketing Course Projects

ERIC Educational Resources Information Center

Lancellotti, Matthew P.; Boyd, Thomas

2008-01-01

Marketing courses heavily utilize team projects that can enhance student learning and make students more desirable to recruiters seeking greater teamwork skills and experience from students. Unfortunately team projects that provide opportunities to learn and improve such skills can also be great sources of frustration and dissatisfaction for…

Attitudes of pharmacy and nutrition students towards team-based care after first exposure to interprofessional education in Qatar.

PubMed

Wilby, Kyle John; Al-Abdi, Tamara; Hassan, Abdelmonem; Brown, Marian Amanda; Paravattil, Bridget; Khalifa, Sherief Ibrahim

2015-01-01

Little is known regarding attitudes of healthcare professional students towards team-based care in the Middle East. As modernization of health systems is rapidly occurring across the Gulf Cooperation Council countries, it is important for students to engage in interprofessional education (IPE) activities. The objective of this study was to assess pre-clinical students' attitudes towards interprofessional healthcare teams after completion of their first IPE activity. A previously validated questionnaire was distributed to 25 pharmacy and 17 nutrition students at Qatar University after participation in an IPE event. Questions related to quality of team-based care and physician centricity. Results showed high agreement regarding high quality care provided by teams yet students were unsure of the value of team-based care when considering required time for implementation. Results provide baseline data for future studies to assess student attitudes throughout the professional programs and give valuable insight for future IPE program design in the Middle East.

We're all in this together now: group performance feedback to increase classroom team data collection.

PubMed

Pellecchia, Melanie; Connell, James E; Eisenhart, Donald; Kane, Meghan; Schoener, Christine; Turkel, Kimberly; Riley, Megan; Mandell, David S

2011-08-01

This study's primary goal was to evaluate the use of performance feedback procedures delivered to a classroom team to increase daily data collection. Performance feedback (PFB) was delivered to four classroom teams responsible for the daily collection of data representing student performance during prescribed instructional activities. Using a multiple-baseline design, the effects of the team performance-feedback were evaluated for the target student, and for generalization to data collection for all classroom students. A secondary question evaluated if student on-task behavior correlated with increased data collection. Finally, social validity was investigated to evaluate team satisfaction with the PFB intervention. The results demonstrate improved data collection across all four classroom teams for the target student in each classroom and generalization within classrooms to all remaining students. Slight increases in student on-task behavior were observed in three of the four classrooms, and teacher satisfaction ratings were high. Copyright © 2011 Society for the Study of School Psychology. Published by Elsevier Ltd. All rights reserved.

Information Technology Team Projects in Higher Education: An International Viewpoint

ERIC Educational Resources Information Center

Lynch, Kathy; Heinze, Aleksej; Scott, Elsje

2007-01-01

It is common to find final or near final year undergraduate Information Technology students undertaking a substantial development project; a project where the students have the opportunity to be fully involved in the analysis, design, and development of an information technology service or product. This involvement has been catalyzed and prepared…

Problem Solving and Collaboration Using Mobile Serious Games

ERIC Educational Resources Information Center

Sanchez, Jaime; Olivares, Ruby

2011-01-01

This paper presents the results obtained with the implementation of a series of learning activities based on Mobile Serious Games (MSGs) for the development of problem solving and collaborative skills in Chilean 8th grade students. Three MSGs were developed and played by teams of four students in order to solve problems collaboratively. A…

Using Theater to Increase Empathy Training in Medical Students

ERIC Educational Resources Information Center

Reilly, Jo Marie; Trial, Janet; Piver, Debra E.; Schaff, Pamela B.

2012-01-01

Abstract: Developing and nurturing empathy in medical trainees has been recognized as an essential element of medical education. Theater may be a unique instructional modality to increase empathy training. Methods: A multi-disciplinary team developed a theater workshop for first year medical students. Through the use of theater games, art images…

Students Develop Real-World Web and Pervasive Computing Systems.

ERIC Educational Resources Information Center

Tappert, Charles C.

In the academic year 2001-2002, Pace University (New York) Computer Science and Information Systems (CSIS) students developed real-world Web and pervasive computing systems for actual customers. This paper describes the general use of team projects in CSIS at Pace University, the real-world projects from this academic year, the benefits of…

Involvement of Students with Disabilities in the New American Schools Development Corporation Projects. Project FORUM.

ERIC Educational Resources Information Center

Ahearn, Eileen M.

This study examined the involvement of students with disabilities in the New American Schools Development Corporation (NASDC) projects. The report begins with a description of the competition to select demonstration projects that would create teams to design, implement, and disseminate "break-the-mold" schools to bring about educational…

How we developed and piloted an electronic key features examination for the internal medicine clerkship based on a US national curriculum.

PubMed

Bronander, Kirk A; Lang, Valerie J; Nixon, L James; Harrell, Heather E; Kovach, Regina; Hingle, Susan; Berman, Norman

2015-01-01

Key features examinations (KFEs) have been used to assess clinical decision making in medical education, yet there are no reports of an online KFE-based on a national curriculum for the internal medicine clerkship. What we did: The authors developed and pilot tested an electronic KFE based on the US Clerkship Directors in Internal Medicine core curriculum. Teams, with expert oversight and peer review, developed key features (KFs) and cases. The exam was pilot tested at eight medical schools with 162 third and fourth year medical students, of whom 96 (59.3%) responded to a survey. While most students reported that the exam was more difficult than a multiple choice question exam, 61 (83.3%) students agreed that it reflected problems seen in clinical practice and 51 (69.9%) students reported that it more accurately assessed the ability to make clinical decisions. The development of an electronic KFs exam is a time-intensive process. A team approach offers built-in peer review and accountability. Students, although not familiar with this format in the US, recognized it as authentically assessing clinical decision-making for problems commonly seen in the clerkship.

Exposure and attitudes toward interprofessional teams: a three-year prospective study of longitudinal integrated clerkship versus rotation-based clerkship students.

PubMed

Myhre, Douglas L; Woloschuk, Wayne; Pedersen, Jeanette Somlak

2014-05-01

This study explored exposure to, and attitudes toward, interprofessional (IP) teams between third-year longitudinal integrated clerkship (LIC) and traditional rotation-based clerkship (RBC) students at the University of Calgary medical school. Students completed a survey pre-post 32-week LIC or 6-week rural, regional or urban RBC family medicine rotations. Pre and post rotation surveys were completed by 213 (48%) students (LIC = 33/34; rural = 76/152; regional = 24/46; urban = 80/208). More LIC students (76%) reported participating on six or more IP teams than RBC students (rural = 38%; regional = 25%; urban = 21%). At pre rotation, the mean attitude to IP teams score of LIC and rural RBC students was high and did not differ. At post rotation, the mean attitude score of LIC students was significantly greater than the mean reported by rural RBC students. Only LIC students reported a significant pre-post rotation increase in attitude. Exposure to IP teams, possibly facilitated by a longer duration of rotation, appears to be an important factor in affecting attitude to IP teams.

Climate Science across the Liberal Arts Curriculum at Gustavus Adolphus College

NASA Astrophysics Data System (ADS)

Bartley, J. K.; Triplett, L.; Dontje, J.; Huber, T.; Koomen, M.; Jeremiason, J.; La Frenierre, J.; Niederriter, C.; Versluis, A.

2014-12-01

The human and social dimensions of climate change are addressed in courses in humanities, social sciences, and arts disciplines. However, faculty members in these disciplines are not climate science experts and thus may feel uncomfortable discussing the science that underpins our understanding of climate change. In addition, many students are interested in the connections between climate change and their program of study, but not all students take courses that address climate science as a principal goal. At Gustavus Adolphus College, the Climate Science Project aims to help non-geoscience faculty introduce climate science content in their courses in order to increase climate science literacy among students and inform discussions of the implications of climate change. We assembled an interdisciplinary team of faculty with climate science expertise to develop climate science modules for use in non-geoscience courses. Faculty from the social sciences, humanities, arts, education, and natural sciences attended workshops in which they developed plans to include climate science in their courses. Based on these workshops, members of the development team created short modules for use by participating faculty that introduce climate science concepts to a non-specialist audience. Each module was tested and modified prior to classroom implementation by a team of faculty and geoscience students. Faculty and student learning are assessed throughout the process, and participating faculty members are interviewed to improve the module development process. The Climate Science Project at Gustavus Adolphus College aims to increase climate science literacy in both faculty members and students by creating accessible climate science content and supporting non-specialist faculty in learning key climate science concepts. In this way, climate science becomes embedded in current course offerings, including non-science courses, reaching many more students than new courses or enhanced content in the geosciences can reach. In addition, this model can be adopted by institutions with limited geoscience course offerings to increase geoscience literacy among a broad cross-section of students.

Physical activity and sports team participation: associations with academic outcomes in middle school and high school students.

PubMed

Fox, Claudia K; Barr-Anderson, Daheia; Neumark-Sztainer, Dianne; Wall, Melanie

2010-01-01

Previous studies have found that higher physical activity levels are associated with greater academic achievement among students. However, it remains unclear whether associations are due to the physical activity itself or sports team participation, which may involve requirements for maintaining certain grades, for example. The purpose of this study is to examine the associations between sports team participation, physical activity, and academic outcomes in middle and high school students. Data were drawn from Project EAT (Eating Among Teens), a survey of middle and high school students (n = 4746). Students self-reported their weekly hours of physical activity, sports team participation, and academic letter grades. Two statistical models were considered: first, 2 separate regression analyses with grade point average (GPA) as the outcome and either sports team participation or physical activity as the predictor; second, a single regression with GPA as the outcome and both sports team participation and physical activity as the simultaneous predictors. For high school girls, both physical activity and sports team participation were each independently associated with a higher GPA. For high school boys, only sports team participation was independently associated with a higher GPA. For middle school students, the positive association between physical activity and GPA could not be separated from the relationship between sports team participation and a higher GPA. Regardless of whether academic success was related to the physical activity itself or to participation on sports teams, findings indicated positive associations between physical activity involvement and academic achievement among students.

High-school Student Teams in a National NASA Microgravity Science Competition

NASA Technical Reports Server (NTRS)

DeLombard, Richard; Hodanbosi, Carol; Stocker, Dennis

2003-01-01

The Dropping In a Microgravity Environment or DIME competition for high-school-aged student teams has completed the first year for nationwide eligibility after two regional pilot years. With the expanded geographic participation and increased complexity of experiments, new lessons were learned by the DIME staff. A team participating in DIME will research the field of microgravity, develop a hypothesis, and prepare a proposal for an experiment to be conducted in a NASA microgravity drop tower. A team of NASA scientists and engineers will select the top proposals and then the selected teams will design and build their experiment apparatus. When completed, team representatives will visit NASA Glenn in Cleveland, Ohio to operate their experiment in the 2.2 Second Drop Tower and participate in workshops and center tours. NASA participates in a wide variety of educational activities including competitive events. There are competitive events sponsored by NASA (e.g. NASA Student Involvement Program) and student teams mentored by NASA centers (e.g. For Inspiration and Recognition of Science and Technology Robotics Competition). This participation by NASA in these public forums serves to bring the excitement of aerospace science to students and educators.Researchers from academic institutions, NASA, and industry utilize the 2.2 Second Drop Tower at NASA Glenn Research Center in Cleveland, Ohio for microgravity research. The researcher may be able to complete the suite of experiments in the drop tower but many experiments are precursor experiments for spaceflight experiments. The short turnaround time for an experiment's operations (45 minutes) and ready access to experiment carriers makes the facility amenable for use in a student program. The pilot year for DIME was conducted during the 2000-2001 school year with invitations sent out to Ohio- based schools and organizations. A second pilot year was conducted during the 2001-2002 school year for teams in the six-state region of Illinois, Indiana, Michigan, Minnesota, Ohio, and Wisconsin. The third year for DIME was conducted during the 2002-2003 school year for teams from the fifty United States, the District of Columbia, and Puerto Rico. An annual national DIME program is planned for the foreseeable future. Presented in this paper will be a description of DIME, an overview of the planning and execution of such a program, results from the first three years, and lessons learned from the first national competition.

Teaching medical students to recognise their strengths and limitations in leadership, teamwork and communication by military led tutorials.

PubMed

Clark, James; Hall, T Falconer; O'Mahony, K

2013-12-01

The General Medical Council has stipulated that greater importance must be placed on undergraduate students developing their ability to lead and work effectively as part of a team. Wales Universities' Officer Training Corps have attempted to meet this requirement through a third year interactive tutorial which aims to encourage students to recognise their strengths and limitations in the six outcomes of leadership, teamwork, accountability, management, feedback and communication. 16 tutorial groups of 10-15 students were each led by one officer who divided the tutorial group into three teams. The teams worked on complex planning exercises with an intrateam constructive feedback discussion to raise students' awareness of their strengths and limitations as individuals during the task, as perceived by others. The student perception was that all six learning outcomes were achieved by the session. 163 students returned feedback questionnaires and learning outcomes 1-4 were felt to have been addressed effectively or very effectively by 90%, 91%, 90% and 86% respondents, respectively. The fifth and sixth outcomes were less well achieved with only 66% and 64% respondents agreeing that the outcomes were achieved effectively or very effectively. Students commended the instructor's demonstration of leadership and the novel teaching method but improvements could be made in reinforcing why these skills are important.

The Student Spaceflight Experiments Program: Access to the ISS for K-14 Students

NASA Astrophysics Data System (ADS)

Livengood, Timothy A.; Goldstein, J. J.; Hamel, S.; Manber, J.; Hulslander, M.

2013-10-01

The Student Spaceflight Experiments Program (SSEP) has flown 53 experiments to space, on behalf of students from middle school through community college, on 4 missions: each of the last 2 Space Shuttle flights, the first SpaceX demonstration flight to the International Space Station (ISS), and on SpaceX-1 to ISS. Two more missions to ISS have payloads flying in Fall 2013. SSEP plans 2 missions to the ISS per year for the foreseeable future, and is expanding the program to include 4-year undergraduate college students and home-schooled students. SSEP experiments have explored biological, chemical, and physical phenomena within self-contained enclosures developed by NanoRacks, currently in the form of MixStix Fluid Mixing Enclosures. 21,600 students participated in the initial 6 missions of SSEP, directly experiencing the entire lifecycle of space science experimentation through community-wide participation in SSEP, taking research from a nascent idea through developing competitive research proposals, down-selecting to three proposals from each participating community and further selection of a single proposal for flight, actual space flight, sample recovery, analysis, and reporting. The National Air and Space Museum has hosted 3 National Conferences for SSEP student teams to report results in keeping with the model of professional research. Student teams have unflinchingly reported on success, failure, and groundbased efforts to develop proposals for future flight opportunities. Community participation extends outside the sciences and the immediate proposal efforts to include design competitions for mission patches, which also fly to space. Student experimenters have rallied around successful proposal teams to support a successful experiment on behalf of the entire community. SSEP is a project of the National Center for Earth and Space Science Education enabled through NanoRacks LLC, working in partnership with NASA under a Space Act Agreement as part of the utilization of the International Space Station as a National Laboratory.

Tools for Tomorrow's Science and Technology Workforce: MATE's 2006 ROV Competition Sets Students' Sights on Ocean Observing Systems

NASA Technical Reports Server (NTRS)

Zande, Jill; Meeson, Blanche; Cook, Susan; Matsumoto, George

2006-01-01

Teams participating in the 2006 ROV competition organized by the Marine Advanced Technology Education (MATE) Center and the Marine Technology Society's (MTS) ROV Committee experienced first-hand the scientific and technical challenges that many ocean scientists, technicians, and engineers face every day. The competition tasked more than 1,000 middle and high school, college, and university students from Newfoundland to Hong Kong with designing and building ROVs to support the next generation of ocean observing systems. Teaming up with the National Office for Integrated and Sustained Ocean Observations, Ocean. US, and the Ocean Research Interactive Observatory Networks (ORION) Program, the competition highlighted ocean observing systems and the careers, organizations, and technologies associated with ocean observatories. The student teams were challenged to develop vehicles that can deploy, install, and maintain networks of instruments as well as to explore the practical applications and the research questions made possible by observing systems.

MIT Clean Energy Prize: Final Technical Report May 12, 2010 - May 11, 2011

DOE Office of Scientific and Technical Information (OSTI.GOV)

Snyder, Chris; Campbell, Georgina; Salony, Jason

2011-08-09

The MIT Clean Energy Prize (MIT CEP) is a venture creation and innovation competition to encourage innovation in the energy space, specifically with regard to clean energy. The Competition invited student teams from any US university to submit student-led ventures that demonstrate a high potential of successfully making clean energy more affordable, with a positive impact on the environment. By focusing on student ventures, the MIT CEP aims to educate the next generation of clean energy entrepreneurs. Teams receive valuable mentoring and hard deadlines that complement the cash prize to accelerate development of ventures. The competition is a year-long educationalmore » process that culminates in the selection of five category finalists and a Grand Prize winner and the distribution of cash prizes to each of those teams. Each entry was submitted in one of five clean energy categories: Renewables, Clean Non-Renewables, Energy Efficiency, Transportation, and Deployment.« less

[Experience of a nursing student in an interdisciplinary team: factory of ideas].

PubMed

Vaie, S; Barros, S

2001-06-01

The experience of the Curricular Training in a mental health work attendance to out-patients, CAPS, lead to this study development in the attempt to understand and characterize interdisciplinary team in this institution, as well as to understand the admittance of a nursing student in this team. The analysis of the replies disclosed that in the reports is found the concept of interdiscipline as well as of the multidiscipline (work in compartments). The conception which has of the model of assistance and of the admittance of the project in it is compatible with the conceptions that establish the description of the work: flexibility, the projects inter-relation the enlarged practice and the psychosocial rehabilitation. The fact that the service has a Program of lecturing--Assistance Integration, "naturalizes" and validates the participation of a nursing student in the projects of assistance or sociability.

West Philly Hybrid X Team

NASA Image and Video Library

2010-06-06

NASA Chief Technologist Bobby Braun, left, and Congressman Chaka Fattah (D-PA), right, talk to student members of the West Philly Hybrid X Team at West Philadelphia High School in Philadelphia, Monday, June 7, 2010. The prize-winning West Philly Hybrid X Team has drawn international recognition as the only high school among 22 finalists in the Progressive Insurance Automotive X Prize (PIAXP) competition to develop cars that achieve over 100 MPG. Photo Credit: (NASA/Bill Ingalls)

West Philly Hybrid X Team

NASA Image and Video Library

2010-06-06

NASA Chief Technologist Bobby Braun, left, and Pennsylvania State Representative Jim Roebuck talk with students of the West Philly Hybrid X Team at West Philadelphia High School in Philadelphia, Monday, June 7, 2010. The prize-winning West Philly Hybrid X Team has drawn international recognition as the only high school among 22 finalists in the Progressive Insurance Automotive X Prize (PIAXP) competition to develop cars that achieve over 100 MPG. Photo Credit: (NASA/Bill Ingalls)

Team versus individual sport participation as a modifying factor in the development of post-concussion syndrome after first concussion: A pilot study.

PubMed

Jeckell, Aaron S; Brett, Benjamin L; Totten, Douglas J; Solomon, Gary S

2018-01-19

Identification of modifying factors that influence the development of post-concussion syndrome (PCS) following sport-related concussion (SRC) has drawn considerable interest. In this pilot study, we investigate the effect of team vs. individual sport participation on the development of PCS in a sample of 136 high school and college student-athletes. Controlling for several confounding variables, we employed a binary logistic regression and chi-squared test. Results of this pilot study indicate that participation in team versus individual sport is not a significant factor in the development of PCS. The identification of other forms of protective mechanisms is discussed.

An Interprofessional Learning Module on Asthma Health Promotion

PubMed Central

Shah, Smita; Kearey, Phoebe; Bosnic-Anticevich, Sinthia; Grootjans, John; Armour, Carol

2011-01-01

Objective To develop, implement, and evaluate a new interprofessional learning module that focused on asthma health promotion called Taking Action Together for Asthma. Design Faculty members in medicine, nursing, and pharmacy courses recruited 10 students each to participate in a 3-day interprofessional learning module. Students received extensive materials including a workbook to document their expectations and experience; completed a 1-day interprofessional workshop; received training in the Triple A (Adolescent Asthma Action) program; and went into high schools and taught the Triple A program to students in interprofessional teams. Assessment Before and after participating in the module, students completed a questionnaire consisting of 3 previously validated instruments: the Asthma Knowledge for Health Professionals Scale, Attitudes Toward Health Care Teams Scale, and Readiness for Interprofessional Learning Scale (RIPLS). Seventeen students completed both the pre- and post-module scales and significant changes were seen only in means scores for the Attitude Toward Healthcare Teams (81.0 ± 4.7 to 85.2 ± 5.9) and the Teamwork and Collaboration subscale of the RIPLS (41.4 ± 2.7 to 43.2 ± 2.7). Conclusion Health promotion activities offer a viable mechanism for fostering interprofessional learning among health professions students. PMID:21519420

An interprofessional learning module on asthma health promotion.

PubMed

Saini, Bandana; Shah, Smita; Kearey, Phoebe; Bosnic-Anticevich, Sinthia; Grootjans, John; Armour, Carol

2011-03-10

To develop, implement, and evaluate a new interprofessional learning module that focused on asthma health promotion called Taking Action Together for Asthma. Faculty members in medicine, nursing, and pharmacy courses recruited 10 students each to participate in a 3-day interprofessional learning module. Students received extensive materials including a workbook to document their expectations and experience; completed a 1-day interprofessional workshop; received training in the Triple A (Adolescent Asthma Action) program; and went into high schools and taught the Triple A program to students in interprofessional teams. Before and after participating in the module, students completed a questionnaire consisting of 3 previously validated instruments: the Asthma Knowledge for Health Professionals Scale, Attitudes Toward Health Care Teams Scale, and Readiness for Interprofessional Learning Scale (RIPLS). Seventeen students completed both the pre- and post-module scales and significant changes were seen only in means scores for the Attitude Toward Healthcare Teams (81.0 ± 4.7 to 85.2 ± 5.9) and the Teamwork and Collaboration subscale of the RIPLS (41.4 ± 2.7 to 43.2 ± 2.7). Health promotion activities offer a viable mechanism for fostering interprofessional learning among health professions students.

Comparison of answer-until-correct and full-credit assessments in a team-based learning course.

PubMed

Farland, Michelle Z; Barlow, Patrick B; Levi Lancaster, T; Franks, Andrea S

2015-03-25

To assess the impact of awarding partial credit to team assessments on team performance and on quality of team interactions using an answer-until-correct method compared to traditional methods of grading (multiple-choice, full-credit). Subjects were students from 3 different offerings of an ambulatory care elective course, taught using team-based learning. The control group (full-credit) consisted of those enrolled in the course when traditional methods of assessment were used (2 course offerings). The intervention group consisted of those enrolled in the course when answer-until-correct method was used for team assessments (1 course offering). Study outcomes included student performance on individual and team readiness assurance tests (iRATs and tRATs), individual and team final examinations, and student assessment of quality of team interactions using the Team Performance Scale. Eighty-four students enrolled in the courses were included in the analysis (full-credit, n=54; answer-until-correct, n=30). Students who used traditional methods of assessment performed better on iRATs (full-credit mean 88.7 (5.9), answer-until-correct mean 82.8 (10.7), p<0.001). Students who used answer-until-correct method of assessment performed better on the team final examination (full-credit mean 45.8 (1.5), answer-until-correct 47.8 (1.4), p<0.001). There was no significant difference in performance on tRATs and the individual final examination. Students who used the answer-until-correct method had higher quality of team interaction ratings (full-credit 97.1 (9.1), answer-until-correct 103.0 (7.8), p=0.004). Answer-until-correct assessment method compared to traditional, full-credit methods resulted in significantly lower scores for iRATs, similar scores on tRATs and individual final examinations, improved scores on team final examinations, and improved perceptions of the quality of team interactions.

Students' Perceptions of Terrascope, A Project-Based Freshman Learning Community

NASA Astrophysics Data System (ADS)

Lipson, Alberta; Epstein, Ari W.; Bras, Rafael; Hodges, Kip

2007-08-01

We present a descriptive case study of Terrascope, an innovative, year-long, project-based learning community at MIT. Each year, Terrascope students study a particular environmental or Earth-system problem from a multidisciplinary perspective. Terrascope includes both academic and non-academic components; this paper focuses on the academic components. The objectives of the academic subjects, and of the program as a whole, involve helping students develop their team-building, communication, problem-solving, and self-regulatory learning skills. This study focuses on cohorts of students from the first and second years of the program (2002-2003 and 2003-2004); it is based on end-of-semester surveys and focus groups, and on additional focus groups conducted when these students were upperclassmen. Students felt Terrascope helped them make significant improvements in their ability to work in teams and to take on complex, multidisciplinary problems. They felt that the program's two-semester structure gave them an opportunity to develop and nurture these skills, and that the program prepared them well for their later work at MIT. They also felt that being engaged, as freshmen, in a distinct learning community, significantly eased their transition into MIT. We describe lessons learned in the development of Terrascope and offer suggestions for other institutions planning to develop similar programs.

Navigating the Role of Graduate Student on the Teaching Team: Life in the Incubator

ERIC Educational Resources Information Center

Richmond, Laurel P.; Anderson, Mallory A.; Tucker, Teresa W.; Powell, Gwynn M.

2013-01-01

Pride, fear, and stress exist on the roller coaster that is the work-life of a graduate student functioning in the role of team member in a mixed-level, collaborative teaching team. These emotions are not uncommon to faculty/graduate student work relationships, but given the power differential, the interdependent team dynamic adds an incubator…

Improving Engineering Student Team Collaborative Discussions by Moving Them Online: An Investigation of Synchronous Chat and Face-to-Face Team Conversations

ERIC Educational Resources Information Center

Fowler, Robin Revette

2014-01-01

Collaborative learning, particularly in the context of team-based, project-based learning, is common in undergraduate engineering education and is associated with deeper learning and enhanced student motivation and retention. However, grouping students in teams for project-based learning sometimes has negative outcomes, which can include lowered…

Social Consequences of Academic Teaming in Middle School: The Influence of Shared Course-Taking on Peer Victimization

PubMed Central

Echols, Leslie

2014-01-01

This study examined the influence of academic teaming (i.e., sharing academic classes with the same classmates) on the relationship between social preference and peer victimization among 6th grade students in middle school. Approximately 1,000 participants were drawn from 5 middle schools that varied in their practice of academic teaming. A novel methodology for measuring academic teaming at the individual level was employed, in which students received their own teaming score based on the unique set of classmates with whom they shared academic courses in their class schedule. Using both peer- and self-reports of victimization, the results of two path models indicated that students with low social preference in highly teamed classroom environments were more victimized than low preference students who experienced less teaming throughout the school day. This effect was exaggerated in higher performing classrooms. Implications for the practice of academic teaming were discussed. PMID:25937668

Using multimedia tools and high-fidelity simulations to improve medical students' resuscitation performance: an observational study

PubMed Central

Wang, Candice; Huang, Chin-Chou; Lin, Shing-Jong; Chen, Jaw-Wen

2016-01-01

Objectives The goal of our study was to shed light on educational methods to strengthen medical students' cardiopulmonary resuscitation (CPR) leadership and team skills in order to optimise CPR understanding and success using didactic videos and high-fidelity simulations. Design An observational study. Setting A tertiary medical centre in Northern Taiwan. Participants A total of 104 5–7th year medical students, including 72 men and 32 women. Interventions We provided the medical students with a 2-hour training session on advanced CPR. During each class, we divided the students into 1–2 groups; each group consisted of 4–6 team members. Medical student teams were trained by using either method A or B. Method A started with an instructional CPR video followed by a first CPR simulation. Method B started with a first CPR simulation followed by an instructional CPR video. All students then participated in a second CPR simulation. Outcome measures Student teams were assessed with checklist rating scores in leadership, teamwork and team member skills, global rating scores by an attending physician and video-recording evaluation by 2 independent individuals. Results The 104 medical students were divided into 22 teams. We trained 11 teams using method A and 11 using method B. Total second CPR simulation scores were significantly higher than first CPR simulation scores in leadership (p<0.001), teamwork (p<0.001) and team member skills (p<0.001). For methods A and B students' first CPR simulation scores were similar, but method A students' second CPR simulation scores were significantly higher than those of method B in leadership skills (p=0.034), specifically in the support subcategory (p=0.049). Conclusions Although both teaching strategies improved leadership, teamwork and team member performance, video exposure followed by CPR simulation further increased students' leadership skills compared with CPR simulation followed by video exposure. PMID:27678539

Field Geophysics at SAGE: Strategies for Effective Education

NASA Astrophysics Data System (ADS)

Braile, L. W.; Baldridge, W. S.; Jiracek, G. R.; Biehler, S.; Ferguson, J. F.; Pellerin, L.; McPhee, D. K.; Bedrosian, P. A.; Snelson, C. M.; Hasterok, D. P.

2011-12-01

SAGE (Summer of Applied Geophysical Experience) is a unique program of education and research in geophysical field methods for undergraduate and graduate students from any university and for professionals. The core program is held for 4 weeks each summer in New Mexico and for an additional week in the following academic year in San Diego for U.S. undergraduates supported by the NSF Research Experience for Undergraduates (REU) program. Since SAGE was initiated in 1983, 730 students have participated in the program. NSF REU funding for SAGE began in 1990 and 319 REU students have completed SAGE through 2011. The primary objectives of SAGE are to teach the major geophysical exploration methods (seismic, gravity, magnetics, electromagnetics); apply these methods to the solution of specific problems (environmental, archaeological, hydrologic, geologic structure and stratigraphy); gain experience in processing, modeling and interpretation of geophysical data; and integrate the geophysical models and interpretations with geology. Additional objectives of SAGE include conducting research on the Rio Grande rift of northern New Mexico, and providing information on geophysics careers and professional development experiences to SAGE participants. Successful education, field and research strategies that we have implemented over the years include: 1. learn by doing; 2. mix lecture/discussion, field work, data processing and analysis, modeling and interpretation, and presentation of results; 3. a two-tier team approach - method/technique oriented teams and interpretation/integration teams (where each team includes persons representing different methods), provides focus, in-depth study, opportunity for innovation, and promotes teamwork and a multi-disciplinary approach; 4. emphasis on presentations/reports - each team (and all team members) make presentation, each student completes a written report; 5. experiment design discussion - students help design field program and consider issues - safety, constraints, data quality/quantity, research objective, educational experience, survey parameters, why multidisciplinary?, etc.; 6. knowledge of multiple geophysical field methods (each student works with all methods); 7. information on geophysics careers and networking provided by industry visitors; 8. measures of success of the program include high rate of continuation to graduate school and careers in geophysics, support and feedback from industry participants and visitors, student evaluations at end of program, presentations at professional meetings, publications, and faculty evaluation of student work.

What Principals Should Know about Building and Maintaining Teams

ERIC Educational Resources Information Center

Turk, Randall L.; Wolff, Krista; Waterbury, Christopher; Zumalt, Jon

2002-01-01

A field study conducted by 8 students and a faculty supervisor of a principal preparation program determined that individual and team reflection resulted in shared learning from team training and ongoing team activities. An industrial concept known as value-chain teams has implications for monitoring student progress from kindergarten through…

Cohesion in Online Student Teams versus Traditional Teams

ERIC Educational Resources Information Center

Hansen, David E.

2016-01-01

Researchers have found that the electronic methods in use for online team communication today increase communication quality in project-based work situations. Because communication quality is known to influence group cohesion, the present research examined whether online student project teams are more cohesive than traditional teams. We tested…

Group Work and Undergraduate Accounting Students: A Bourdieusian Analysis

ERIC Educational Resources Information Center

Teviotdale, Wilma W.; Clancy, David; Fisher, Roy; Hill, Pat

2017-01-01

This study investigated students' views and experiences of group work in a vocationally oriented undergraduate accounting and finance degree course in an English post-1992 university. In this context tutors prepare students for the profession and for the workplace, and the development of team-working skills is a core element in the curriculum.…

Critical Elements of Student Assistance Programs: A Qualitative Study

ERIC Educational Resources Information Center

Torres-Rodriguez, Leslie; Beyard, Karen; Goldstein, Marc B.

2010-01-01

Student assistance programs (SAPs) are one approach for using teams to respond to student needs, but there is little research on SAP implementation and whether SAPs function as intended. The authors present findings from a study of two SAPs that use a model developed by Connecticut's Governor's Prevention Partnership. The study focused on…

Intentional Mental Processing: Student Thinking as a Habit of Mind

ERIC Educational Resources Information Center

Wiersema, Janice A.; Licklider, Barbara L.

2009-01-01

Most college students do not habitually do the deep thinking that will allow them to take their learning beyond the acquisition of knowledge. This paper examines the findings from a phenomenological study of 8 students involved in an interdisciplinary community focused on developing responsible, life-long learners and effective team members.…

[Feedback on the training and supervision of student nurses].

PubMed

Papas, Anne; Bourgois, Monique

2015-03-01

In order to harmonise the supervision of student nurses in the different departments of the same unit, a Parisian hospital team has created a working group. An IT tool for supervising the students to be used by the whole unit is also under development. Copyright © 2014 Elsevier Masson SAS. All rights reserved.

Cyber Peer-Led Team Learning (cPLTL): Development and Implementation

ERIC Educational Resources Information Center

Mauser, Kevin; Sours, John; Banks, Julianna; Newbrough, Randy; Janke, Tom; Shuck, Lorie; Zhu, Lin; Ammerman, Gina; Varma-Nelson, Pratibha

2011-01-01

The type and amount of student interaction with major socializing agents on campus--faculty and their peers--determine the impact of college on students. Much of the research on postsecondary education links the quality of peer interactions directly to student learning outcomes and satisfaction with the college experience, and Alexander Astin went…

Beyond Simple Participation: Providing a Reliable Informal Assessment Tool of Student Engagement for Teachers

ERIC Educational Resources Information Center

Wagetti, Rebecca J.; Johnston, Patricia; Jones, Leslie B.

2017-01-01

Educators have realized the importance of engaging students in learning. Teachers often see participatory behaviors like "hand raising" as evidence of students being engaged in an activity. These indications of engagement do not capture motivational factors behind true engagement. A research team developed a five item scale to easily…

School Counselors: Untapped Resources for Safe Schools.

ERIC Educational Resources Information Center

Callahan, Connie J.

2000-01-01

Principals should consider redirecting school counselors' responsibilities to include directing safe-school teams; establishing networks to identify at-risk students and violent behavior signs; developing conflict-resolution activities; assessing and counseling misbehaving students; devising crisis- management plans; and helping staff predict and…

Student Generated Rubrics: An Assessment Model To Help All Students Succeed. Assessment Bookshelf Series.

ERIC Educational Resources Information Center

Ainsworth, Larry; Christinson, Jan

The assessment model described in this guide was initially developed by a team of fifth-grade teachers who wrote objectives of integrating social studies and language arts. It helps the teacher guide students to create a task-specific rubric that they use to evaluate their own and peers' work. Teachers review the student evaluations, determine the…

Mutual Benefit for Foreign Medical Students and Chinese Postgraduates: A Mixed Team-Based Learning Method Overcomes Communication Problems in Hematology Clerkship

ERIC Educational Resources Information Center

Chen, Xianling; Chen, Buyuan; Li, Xiaofan; Song, Qingxiao; Chen, Yuanzhong

2017-01-01

Hematology is difficult for students to learn. A beneficial education method for hematology clerkship training is required to help students develop clinical skills. Foreign medical students often encounter communication issues in China. To address this issue, Chinese post-graduates from our institute are willing to assist with educating foreign…

Student Behavior Management: School Leader's Role in the Eyes of the Teachers and Students

ERIC Educational Resources Information Center

Nooruddin, Shirin; Baig, Shariffullah

2014-01-01

This study explored the perspectives and viewpoints of the teachers and students in relation to the influence of the head teacher and senior leadership team on students' behavior management in the form of policies, procedures and support mechanisms in a secondary school in Karachi Pakistan. Two surveys were developed and employed, one for the…

The Role of Cultural Background and Team Divisions in Developing Social Learning Relations in the Classroom

ERIC Educational Resources Information Center

Rienties, Bart; Nanclares, Núria Hernández; Jindal-Snape, Divya; Alcott, Peter

2013-01-01

A common assumption is that students prefer to work together with students from similar cultural backgrounds. In a group work context, students from different cultural backgrounds are "forced" to work together. This might lead to stress and anxiety but at the same time may allow students to learn from different perspectives. The prime…

Virtual Teams in Higher Education: The Light and Dark Side

ERIC Educational Resources Information Center

Grinnell, Lynn; Sauers, Amy; Appunn, Frank; Mack, Larry

2012-01-01

Students and faculty are grappling with learning teams in the online environment - more than half of all higher education organizations offer online courses (Hoffman, 2006). As online course developers try to replicate the best practices of traditional classrooms, the asynchronous technology of the Internet has added great capability while also…

SYMLOG in the Communication Classroom: Applications for Small Group Communication Behavior Awareness.

ERIC Educational Resources Information Center

Hillmer, Barbara Hoehn; Blubaugh, Jon A.

The development of skills for group evaluation and facilitation in today's team environment is an essential component of the learning process for the student of communication. Until recently there has been no integrated model for the consideration of small groups and teams that incorporated findings from psychology, social psychology, management…

The Mayo Innovation Scholars Program: Undergraduates Explore the Science and Economics of Medical Innovations

ERIC Educational Resources Information Center

Pellegrini, John J.; Jansen, Elizabeth

2013-01-01

The Mayo Innovation Scholars Program introduces undergraduates to technology transfer in biomedical sciences by having teams of students from multiple disciplines (e.g., biology, chemistry, economics, and business) analyze inventions in development at the Mayo Clinic. Over 6 months, teams consult with inventors, intellectual property experts, and…

Papayas and Pedagogy: Geographically Dispersed Teams and Internet Self-Efficacy.

ERIC Educational Resources Information Center

O'Malley, Michelle; Kelleher, Tom

2002-01-01

Describes how public relations (PR) students' Internet self-efficacy (e-mail, bulletin board system, real-time chat, and Web research) was measured before, immediately after, and 7 weeks after they worked in either geographically dispersed (Kansas and Hawaii) or local (Kansas only) teams to develop a PR issue statement. Finds Internet efficacy…

Pathways to Leadership and Professional Development: Inspiring Novice Special Educators

ERIC Educational Resources Information Center

Kaufman, Roberta C.; Ring, Mary

2011-01-01

Well-trained new special education teachers know that the individualized education program (IEP) team is the crux of the special education program. The IEP team addresses academic goals and behavior intervention plans for the student but rarely addresses in depth the social environment of the school, classroom, or family. Important aspects of the…

Reflections on an Interdisciplinary, Community-Based, Team-Taught Adventure

ERIC Educational Resources Information Center

Fauvel, Anne Marie; Miller, Lisa K.; Lane, Paul; Farris, John

2010-01-01

A new team-taught course focused on interdisciplinary teaching and integrative learning was offered at Grand Valley State University during the Summer of 2008 at a regional campus in Holland, Michigan. Faculty from Engineering and Business developed this community-based, alternative-format course to engage students in the question: "What will…

Teamwork: a study of Australian and US student speech-language pathologists.

PubMed

Morrison, Susan C; Lincoln, Michelle A; Reed, Vicki A

2009-05-01

In the discipline of speech-language pathology little is known about the explicit and implicit team skills taught within university curricula. This study surveyed 281 speech-language pathology students to determine a baseline of their perceived ability to participate in interprofessional teams. The students were enrolled in programs in Australia and the USA and were surveyed about their perceptions of their attitudes, knowledge and skills in teamwork. MANCOVA analysis for main effects of age, university program and clinical experience showed that age was not significant, negating the perception that life experiences improve perceived team skills. Clinical experience was significant in that students with more clinical experience rated themselves more highly on their team abilities. Post Hoc analysis revealed that Australian students rated themselves higher than their US counterparts on their knowledge about working on teams, but lower on attitudes to teams; all students perceived that they had the skills to work on teams. These results provide insight about teamwork training components in current speech-language pathology curricula. Implications are discussed with reference to enhancing university training programs.

Prevalence and social-environmental correlates of sports team participation among alternative high school students.

PubMed

Johnson, Karen E; Kubik, Martha Y; McMorris, Barbara J

2011-07-01

Alternative high school (AHS) students have low levels of physical activity (PA) and high rates of overweight/obesity. Sports team participation, a specific form of PA, is associated with increased PA and decreased overweight/obesity in general adolescent populations. However, little is known about the prevalence and correlates of sports team participation among AHS students. In 2006, students (n = 145; mean age = 17 years; 52% male; 61% minorities; 64% low-income) attending 6 AHS in Minneapolis/St. Paul completed self-administered surveys. Mixed model logistic regression was used to examine cross-sectional associations between sports team participation and school staff support for PA, friend support for PA, and perceived barriers to PA. Among students, 40% participated on ≥ 1 sports teams. Odds of participating on a sports team were positively associated with support for PA from school staff (OR = 1.12, P = .014) and friends (OR = 1.15, P = .005), but inversely associated with perceived barriers to PA (OR = 0.95, P = .014). Results suggest that efforts to increase sports team participation among AHS students should target social-environmental factors. Further study is warranted.

Are Nursing Students Appropriate Partners for the Interdisciplinary Training of Surgery Residents?

PubMed

Stefanidis, Dimitrios; Ingram, Katherine M; Williams, Kristy H; Bencken, Crystal L; Swiderski, Dawn

2015-01-01

Interdisciplinary team training in a simulation center recreates clinical team interactions and holds promise in improving teamwork of clinicians by breaking down educational silos. The objective of our study was to assess the appropriateness of interdisciplinary training with general surgery residents and nursing students. Over 2 consecutive academic years (2012-2013 and 2013-2014), general surgery residents participated in interdisciplinary team-training simulation-based sessions with senior nursing students. Scenario objectives included demonstration of appropriate teamwork and communication, and clinical decision making; sessions incorporated interdisciplinary debriefing of the scenarios. Participants were asked to assess their team-training experience and the appropriateness of their team-training partner. Responses were compared. A total of 16 team-training sessions were conducted during the study period. Overall, 12 surgery residents (67%) and 44 nursing students (63%) who had participated in at least 1 session responded to the survey. Although both residents and nursing students indicated that the knowledge and team skills acquired during these sessions were useful to them in clinical practice (73% vs 86%, respectively; p = not significant), residents rated their educational value lower (3.3 vs 4.3 on a 5-point scale, respectively; p < 0.01) and only 18% of the residents felt that these sessions should be continued compared with 90% of nursing students (p < 0.05). Most useful components of the sessions were participation in the scenario (73%) and debriefing (54%) for residents and for the nursing students, debriefing (91%), observation of others (68%), and interaction with resident physicians (66%) ranked highest; 48% of student nurses preferred residents as team-training partners whereas 100% residents preferred practicing nurses and 0% with nursing students owing to their limited clinical experience. Interdisciplinary team training and debriefing of surgery residents with nursing students is feasible and highly valued by nursing students. Nevertheless, our experience indicates that residents do not prefer nursing students as team-training partners owing to their limited clinical experience and would rather train with experienced nurses. Copyright © 2015 Association of Program Directors in Surgery. Published by Elsevier Inc. All rights reserved.

Biomedical engineering education through global engineering teams.

PubMed

Scheffer, C; Blanckenberg, M; Garth-Davis, B; Eisenberg, M

2012-01-01

Most industrial projects require a team of engineers from a variety of disciplines. The team members are often culturally diverse and geographically dispersed. Many students do not acquire sufficient skills from typical university courses to function efficiently in such an environment. The Global Engineering Teams (GET) programme was designed to prepare students such a scenario in industry. This paper discusses five biomedical engineering themed projects completed by GET students. The benefits and success of the programme in educating students in the field of biomedical engineering are discussed.

Team Massachusetts & Central America Solar Decathlon 2015 Final Technical Report

DOE Office of Scientific and Technical Information (OSTI.GOV)

Lee, Kenneth

Our team was Team MASSCA (Massachusetts and Central America), which was a partnership of Western New England University (WNE) located in Massachusetts USA, The Technological University of Panama (UTP), and Central American Technological University (UNITEC) of Honduras. Together we had a group of 6 faculty members and approximately 30 undergraduate students. Our house is ‘The EASI’ House, which stands for Efficient, Affordable, Solar Innovation. The EASI house is rectangular with two bedrooms and one bath, and offers a total square footage of 680. Based on competition estimates, The EASI house costs roughly $121,000. The EASI house has a 5kW solarmore » system. Faculty and students from all three institutions were represented at the competition in Irvine California. Team MASSCA did well considering this was our first entry in the Solar Decathlon competition. Team MASSCA won the following awards: First Place – Affordability Contest Second Place – Energy Balance Contest. The competition provided a great experience for our students (and faculty as well). This competition provided leadership, endurance, and technical knowledge/skills for our students, and was the single most important hands-on experience during their undergraduate years. We are extremely pleased with the awards we received. At the same time we have learned from our efforts and would do better if we were to compete in the future. Furthermore, as a result of our team’s Inter-Americas collaborative effort, UTP and WNE have partnered to form Team PANAMASS (PANAma and MASSachusetts) and have developed The 3 SMART House for the inaugural Solar Decathlon Latin America & Caribbean competition held in Colombia.« less

Around Marshall

NASA Image and Video Library

2002-04-13

Students from across the United States and as far away as Puerto Rico and South America came to Huntsville, Alabama for the 9th annual Great Moonbuggy Race at the U.S. Space Rocket Center. Seventy-seven teams, representing high schools and colleges from 21 states, Puerto Rico, and Columbia, raced human powered vehicles over a lunar-like terrain. A team from Cornell University in Ithaca, New York, took the first place honor in the college division. This photograph shows the Cornell #2 team driving their vehicle through the course. The team finished the race in second place in the college division. Vehicles powered by two team members, one male and one female, raced one at a time over a half-mile obstacle course of simulated moonscape terrain. The competition is inspired by development, some 30 years ago, of the Lunar Roving Vehicle (LRV), a program managed by the Marshall Space Flight Center. The LRV team had to design a compact, lightweight, all-terrain vehicle, that could be transported to the Moon in the small Apollo spacecraft. The Great Moonbuggy Race challenges students to design and build a human powered vehicle so they will learn how to deal with real-world engineering problems, similar to those faced by the actual NASA LRV team.

Team-based learning in therapeutics workshop sessions.

PubMed

Beatty, Stuart J; Kelley, Katherine A; Metzger, Anne H; Bellebaum, Katherine L; McAuley, James W

2009-10-01

To implement team-based learning in the workshop portion of a pathophysiology and therapeutics sequence of courses to promote integration of concepts across the pharmacy curriculum, provide a consistent problem-solving approach to patient care, and determine the impact on student perceptions of professionalism and teamwork. Team-based learning was incorporated into the workshop portion of 3 of 6 pathophysiology and therapeutics courses. Assignments that promoted team-building and application of key concepts were created. Readiness assurance tests were used to assess individual and team understanding of course materials. Students consistently scored 20% higher on team assessments compared with individual assessments. Mean professionalism and teamwork scores were significantly higher after implementation of team-based learning; however, this improvement was not considered educationally significant. Approximately 91% of students felt team-based learning improved understanding of course materials and 93% of students felt teamwork should continue in workshops. Team-based learning is an effective teaching method to ensure a consistent approach to problem-solving and curriculum integration in workshop sessions for a pathophysiology and therapeutics course sequence.

Laying the foundation for successful team performance trajectories: The roles of team charters and performance strategies.

PubMed

Mathieu, John E; Rapp, Tammy L

2009-01-01

This study examined the influences of team charters and performance strategies on the performance trajectories of 32 teams of master's of business administration students competing in a business strategy simulation over time. The authors extended existing theory on team development by demonstrating that devoting time to laying a foundation for both teamwork (i.e., team charters) and taskwork (performance strategies) can pay dividends in terms of more effective team performance over time. Using random coefficients growth modeling techniques, they found that teams with high-quality performance strategies outperformed teams with poorer quality strategies. However, a significant interaction between quality of the charters of teams and their performance strategies was found, such that the highest sustained performances were exhibited by teams that were high on both features. (PsycINFO Database Record (c) 2009 APA, all rights reserved).

Team Learning: New Insights Through a Temporal Lens.

PubMed

Lehmann-Willenbrock, Nale

2017-04-01

Team learning is a complex social phenomenon that develops and changes over time. Hence, to promote understanding of the fine-grained dynamics of team learning, research should account for the temporal patterns of team learning behavior. Taking important steps in this direction, this special issue offers novel insights into the dynamics of team learning by advocating a temporal perspective. Based on a symposium presented at the 2016 Interdisciplinary Network for Group Research (INGRoup) Conference in Helsinki, the four empirical articles in this special issue showcase four different and innovative approaches to implementing a temporal perspective in team learning research. Specifically, the contributions highlight team learning dynamics in student teams, self-managing teams, teacher teams, and command and control teams. The articles cover a broad range of methods and designs, including both qualitative and quantitative methodologies, and longitudinal as well as micro-temporal approaches. The contributors represent four countries and five different disciplines in group research.

An Interdisciplinary Team Project: Psychology and Computer Science Students Create Online Cognitive Tasks

ERIC Educational Resources Information Center

Flannery, Kathleen A.; Malita, Mihaela

2014-01-01

We present our case study of an interdisciplinary team project for students taking either a psychology or computer science (CS) course. The project required psychology and CS students to combine their knowledge and skills to create an online cognitive task. Each interdisciplinary project team included two psychology students who conducted library…

Team-Based Learning's Effects on Standardized Test Scores and Student Reactions

ERIC Educational Resources Information Center

Ulrich, Deborah L.; Brewer, Tracy; Steele-Johnson, Deborah; Juvina, Ion; Peyton, Elizabeth; Hammond, Crystal

2017-01-01

We examined the effects of team-based learning (TBL) versus traditional and enhanced lecture-based instruction over time (Study 1; N = 532 nursing students) and the psychometric properties of the Team Based Learning Student Assessment Instrument (TBL-SAI), a popular measure of reactions to TBL (Study 2; N = 323 nursing and medical students).…

Peer Evaluation in Blended Team Project-Based Learning: What Do Students Find Important?

ERIC Educational Resources Information Center

Lee, Hye-Jung; Lim, Cheolil

2012-01-01

Team project-based learning is reputed to be an appropriate way to activate interactions among students and to encourage knowledge building through collaborative learning. Peer evaluation is an effective way for each student to participate actively in a team project. This article investigates the issues that are important to students when…

The Influence of Learning Styles on Student Perception and Satisfaction in a Highly Collaborative Team Taught Course

ERIC Educational Resources Information Center

Sullivan, Daniel; Colburn, Michael; Fox, Daniel E.

2013-01-01

Team teaching an undergraduate business capstone course has the potential of providing students with an enhanced learning experience in a number of ways. This study examines the relationship between faculty and student learning styles and their impact on student perception and satisfaction in a highly collaborative team taught undergraduate…

The Use of Team-Based Learning as an Approach to Increased Engagement and Learning for Marketing Students: A Case Study

ERIC Educational Resources Information Center

Chad, Paul

2012-01-01

Marketing educators are often faced with poor preclass preparation by students, declining student interest in attending classes as the semester progresses, and student complaints regarding previous bad experiences with team assessment activities. Team-based learning (TBL) is an innovative teaching strategy using semiformalized guidelines aimed to…

Team Knowledge Sharing Intervention Effects on Team Shared Mental Models and Student Performance in an Undergraduate Science Course

ERIC Educational Resources Information Center

Sikorski, Eric G.; Johnson, Tristan E.; Ruscher, Paul H.

2012-01-01

The purpose of this study was to examine the effects of a shared mental model (SMM) based intervention on student team mental model similarity and ultimately team performance in an undergraduate meteorology course. The team knowledge sharing (TKS) intervention was designed to promote team reflection, communication, and improvement planning.…

Live theater on a virtual stage: incorporating soft skills and teamwork in computer graphics education.

PubMed

Schweppe, M; Geigel, J

2011-01-01

Industry has increasingly emphasized the need for "soft" or interpersonal skills development and team-building experience in the college curriculum. Here, we discuss our experiences with providing such opportunities via a collaborative project called the Virtual Theater. In this joint project between the Rochester Institute of Technology's School of Design and Department of Computer Science, the goal is to enable live performance in a virtual space with participants in different physical locales. Students work in teams, collaborating with other students in and out of their disciplines.

The effect of interprofessional team-based learning among nursing students: A quasi-experimental study.

PubMed

Wong, Arkers Kwan Ching; Wong, Frances Kam Yuet; Chan, Lap Ki; Chan, Namkiu; Ganotice, Fraide A; Ho, Jacqueline

2017-06-01

Although interprofessional education has received attention in recent years as a means of providing opportunities for health-care professionals to learn with, from and about other disciplines and enhance the quality of patient care, evidence of its effectiveness is limited. Interprofessional team-based learning was introduced to make it possible for students in different healthcare disciplines to interact with each other, and to prepare them to function effectively within a team in their future career. To examine the effects of interprofessional team-based learning for undergraduate nursing students in terms of knowledge level, readiness for interprofessional learning, attitude towards various aspects of team learning, and perceived collective efficacy. The study employed a one-group pretest-posttest quasi-experimental design. An interprofessional education program was given to students from two universities in Hong Kong who were in different healthcare disciplines including medicine, nursing, pharmacy, biomedical science, and Chinese medicine programs. The program was based on four phases of student learning- individual readiness assessment test, ice breaking session, team readiness assessment test, and application exercise. Nursing students involved in the program were invited to complete anonymous questionnaires to evaluate their interprofessional team experience. A total of 40 nursing students (9 male, 31 female) participated in the study. A statistically significant improvement was identified in their knowledge level (p<0.001), attitude towards readiness for interprofessional learning, team learning, and perceived collective efficacy (p<0.001). This study suggests that interprofessional team-based learning can enhance cross-disciplinary learning and outcomes resulting from team efforts. Copyright © 2017 Elsevier Ltd. All rights reserved.

Interprofessional education in a primary care teaching clinic: findings from a study involving pharmacy and medical students.

PubMed

Sicat, Brigitte Luong; Huynh, Christine; Willett, Rita; Polich, Susan; Mayer, Sallie

2014-01-01

Interprofessional education (IPE) can be hindered by the lack of infrastructure required to support it. We developed a clinical IPE experience for medical and pharmacy students built upon an existing infrastructure. We created tools to orient students to IPE and had students participate in pharmacist-led and physician-led IPE clinics. Results from the surveys indicated that after participating in the IPE experience, there were no significant changes in attitudes toward interprofessional teamwork or attitudes toward different members of the healthcare team. Students found less value in tools outlining roles and responsibilities of team members, on-line modules about the other profession, and IPE group discussion. They placed more value on the actual clinical experience. Themes derived from analysis of open-ended survey questions reflected the value that students placed on interprofessional interaction in the setting of direct patient care.

A health promotion practicum targeting the college-age population.

PubMed

Diebold, C M; Chappell, H W; Robinson, M K

2000-01-01

Senior and sophomore baccalaureate nursing students at the University of Kentucky developed a health promotion exposition that targeted college students. This experience gave senior students the opportunity to practice leadership and management skills, such as planning, organizing, collaborating, delegating, evaluating, and time management and conflict resolution. Sophomore students developed teaching abilities, practiced assessment and communication techniques, and increased their knowledge of health-promoting behaviors. Both groups experienced team building and demonstrated accountability. Students reported a positive learning experience that met various course objectives in an innovative way.

When Teams Fail to Self-Regulate: Predictors and Outcomes of Team Procrastination Among Debating Teams.

PubMed

Van Hooft, Edwin A J; Van Mierlo, Heleen

2018-01-01

Models of team development have indicated that teams typically engage in task delay during the first stages of the team's life cycle. An important question is to what extent this equally applies to all teams, or whether there is variation across teams in the amount of task delay. The present study introduces the concept of team procrastination as a lens through which we can examine whether teams collectively engage in unplanned, voluntary, and irrational delay of team tasks. Based on theory and research on self-regulation, team processes, and team motivation we developed a conceptual multilevel model of predictors and outcomes of team procrastination. In a sample of 209 student debating teams, we investigated whether and why teams engage in collective procrastination as a team, and what consequences team procrastination has in terms of team member well-being and team performance. The results supported the existence of team procrastination as a team-level construct that has some stability over time. The teams' composition in terms of individual-level trait procrastination, as well as the teams' motivational states (i.e., team learning goal orientation, team performance-approach goal orientation in interaction with team efficacy) predicted team procrastination. Team procrastination related positively to team members' stress levels, especially for those low on trait procrastination. Furthermore, team procrastination had an indirect negative relationship with team performance, through teams' collective stress levels. These findings add to the theoretical understanding of self-regulatory processes of teams, and highlight the practical importance of paying attention to team-level states and processes such as team goal orientation and team procrastination.