Making a Difference in Science Education: The Impact of Undergraduate Research Programs

PubMed Central

Eagan, M. Kevin; Hurtado, Sylvia; Chang, Mitchell J.; Garcia, Gina A.; Herrera, Felisha A.; Garibay, Juan C.

2014-01-01

To increase the numbers of underrepresented racial minority students in science, technology, engineering, and mathematics (STEM), federal and private agencies have allocated significant funding to undergraduate research programs, which have been shown to students’ intentions of enrolling in graduate or professional school. Analyzing a longitudinal sample of 4,152 aspiring STEM majors who completed the 2004 Freshman Survey and 2008 College Senior Survey, this study utilizes multinomial hierarchical generalized linear modeling (HGLM) and propensity score matching techniques to examine how participation in undergraduate research affects STEM students’ intentions to enroll in STEM and non-STEM graduate and professional programs. Findings indicate that participation in an undergraduate research program significantly improved students’ probability of indicating plans to enroll in a STEM graduate program. PMID:25190821

Pathway to STEM: Using Outreach Initiatives as a Method of Identifying, Educating and Recruiting the Next Generation of Scientists and Engineers

NASA Astrophysics Data System (ADS)

Ortiz-Arias, Deedee; Zwicker, Andrew; Dominguez, Arturo; Greco, Shannon

2017-10-01

The Princeton Plasma Physics Laboratory (PPPL) uses a host of outreach initiatives to inform the general population: the Young Women's Conference, Science Bowl, Science Undergraduate Laboratory Internship, My Brother's Keeper, a variety of workshops for university faculty and undergraduate students, public and scheduled lab tours, school and community interactive plasma science demonstrations. In addition to informing and educating the public about the laboratory's important work in the areas of Plasma and Fusion, these outreach initiatives, are also used as an opportunity to identify/educate/recruit the next generation of the STEM workforce. These programs provide the laboratory with the ability to: engage the next generation at different paths along their development (K-12, undergraduate, graduate, professional), at different levels of scientific content (science demonstrations, remote experiments, lectures, tours), in some instances, targeting underrepresented groups in STEM (women and minorities), and train additional STEM educators to take learned content into their own classrooms.

Wise Women: A Narrative Study of Former Living-Learning Community Participants' Experiences as STEM Majors

ERIC Educational Resources Information Center

Grays, Shaefny D.

2013-01-01

Over the past few decades, higher education has attempted to address the issue of underrepresentation of women in STEM undergraduate degree programs. Living-learning communities represent one strategy to help address low persistence for women in undergraduate STEM majors. The purpose of this study was to explore the experiences of undergraduate…

Facilitating Classroom Innovation in the Geosciences Through the NSF Transforming Undergraduate Education in Science, Technology, Engineering, and Mathematics (TUES) Program

NASA Astrophysics Data System (ADS)

Singer, J.; Ryan, J. G.

2012-12-01

The Transforming Undergraduate Education in Science, Technology, Engineering, and Mathematics (TUES) program seeks to improve the quality of science, technology, engineering, and mathematics (STEM) education for all undergraduate students. Activities supported by the TUES program include the creation, adaptation, and dissemination of learning materials and teaching strategies, development of faculty expertise, implementation of educational innovations, and research on STEM teaching and learning. The TUES program especially encourages projects that have the potential to transform undergraduate STEM education and active dissemination and building a community of users are critical components of TUES projects. To raise awareness about the TUES program and increase both the quality and quantity of proposals submitted by geoscientists to the program, information sessions and proposal writing retreats are being conducted. Digital resources developed especially for the geosciences community are available at www.buffalostate.edu/RTUGeoEd to share information about the TUES program and the many ways this NSF program supports innovation in geoscience education. This presentation also addresses identified impediments to submitting a TUES proposal and strategies for overcoming reasons discouraging geoscientists from preparing a proposal and/or resubmitting a declined proposal.

78 FR 21631 - National Science Board; Sunshine Act Meetings; Notice

Federal Register 2010, 2011, 2012, 2013, 2014

2013-04-11

... of a possible role for CEH in enhancing retention of undergraduates in STEM education; and (3) update on the NSTC's committee on STEM education (CoSTEM) activities and their implications for NSF. STATUS... Science Board's Committee on Education and Human Resources, pursuant to NSF regulations (45 CFR part 614...

75 FR 20007 - Advisory Committee for Education and Human Resources; Notice of Meeting

Federal Register 2010, 2011, 2012, 2013, 2014

2010-04-16

... Foundation's science, technology, engineering, and mathematics (STEM) education and human resources... Broadening Participation--Undergraduate Science, Technology, Engineering & Mathematics (STEM). III. Discussion of Graduate Education/Career Development Programs. IV. Collaborations with the Department of...

Developing Professional Skills in STEM Students: Data Information Literacy

ERIC Educational Resources Information Center

Zilinski, Lisa D.; Sapp Nelson, Megan; Van Epps, Amy S.

2014-01-01

Undergraduate STEM students are increasingly expected to have some data use skills upon graduation, whether they pursue post-graduate education or move into industry. This project was an initial foray into the application of data information literacy competencies to training undergraduate students to identify markers of data and information…

Bayer Facts of Science Education XV: A View from the Gatekeepers—STEM Department Chairs at America's Top 200 Research Universities on Female and Underrepresented Minority Undergraduate STEM Students

NASA Astrophysics Data System (ADS)

Bayer Corporation

2012-06-01

Diversity and the underrepresentation of women, African-Americans, Hispanics and American Indians in the nation's science, technology, engineering and mathematics (STEM) fields are the subjects of the XV: A View from the Gatekeepers—STEM Department Chairs at America's Top 200 Research Universities on Female and Underrepresented Minority Undergraduate STEM Students. Annual public opinion research project commissioned by Bayer Corporation, the Bayer Facts surveys examine science education and science literacy issues. The 15th in the series and the fifth to explore diversity and underrepresentation, this research is a direct outgrowth of last year's results which found 40 percent of the country's female and underrepresented minority (URM) chemists and chemical engineers working today were discouraged from pursuing their STEM career at some point in their lives. US colleges were cited as places where this discouragement most often happened and college professors as the individuals most likely responsible. Does such discouragement still occur in American colleges today? To answer this and other questions about the undergraduate environment in which today's students make their career decisions, the survey polls 413 STEM department chairs at the nation's 200 top research universities and those that produce the highest proportion of female and URM STEM graduates. The survey also asks the chairs about their institutions track record recruiting and retaining female and URM STEM undergraduates, preparedness of these students to study STEM, the impact of traditional introductory STEM courses on female and URM students and barriers these students face pursuing their STEM degrees.

Lipstick and labcoats: Undergraduate women's gender negotiation in STEM fields

NASA Astrophysics Data System (ADS)

Goldman, Emily Grey

While women have made significant progress in the work force and in education, gender gaps still exist in many industries and occupations, including science, technology, engineering, and math (STEM) fields. This research aims to understand how undergraduate women negotiate gender within STEM fields, looking specifically at these women's experiences related to gender as they pursue STEM academic majors. The results of the study suggest that (1) the experience of being a woman in a STEM field is different than the experience of being a man; (2) undergraduate women in STEM fields are not necessarily conscious of gender and its potential impact on their experiences; and, (3) the women in the study perceived a certain image of what a woman in a STEM field was expected to look like and how she was expected to behave.

Examining the Role of Leadership in an Undergraduate Biology Institutional Reform Initiative

PubMed Central

Matz, Rebecca L.; Jardeleza, Sarah E.

2016-01-01

Undergraduate science, technology, engineering, and mathematics (STEM) education reform continues to be a national priority. We studied a reform process in undergraduate biology at a research-intensive university to explore what leadership issues arose in implementation of the initiative when characterized with a descriptive case study method. The data were drawn from transcripts of meetings that occurred over the first 2 years of the reform process. Two literature-based models of change were used as lenses through which to view the data. We find that easing the burden of an undergraduate education reform initiative on faculty through articulating clear outcomes, developing shared vision across stakeholders on how to achieve those outcomes, providing appropriate reward systems, and ensuring faculty have ample opportunity to influence the initiative all appear to increase the success of reform. The two literature-based models were assessed, and an extended model of change is presented that moves from change in STEM instructional strategies to STEM organizational change strategies. These lessons may be transferable to other institutions engaging in education reform. PMID:27856545

Snapshots of Authentic Scientific Inquiry and Teacher Preparation: Undergraduate STEM Courses, Preservice and Inservice Teachers' Experiences

ERIC Educational Resources Information Center

French, Debbie Ann

2016-01-01

In this dissertation, the researcher describes authentic scientific inquiry (ASI) within three stages of teacher preparation and development: a1) undergraduate STEM courses, b2) preservice secondary science education methods courses, and c3) inservice teacher professional development (PD). Incorporating (ASI)--pedagogy closely modeling the…

Examining Study Habits in Undergraduate STEM Courses from a Situative Perspective

ERIC Educational Resources Information Center

Hora, Matthew T.; Oleson, Amanda K.

2017-01-01

Background: A growing body of research in cognitive psychology and education research is illuminating which study strategies are effective for optimal learning, but little descriptive research focuses on how undergraduate students in STEM courses actually study in real-world settings. Using a practice-based approach informed by situated cognition…

Planning and Implementing a Comprehensive Student-Centered Research Program for First-Year STEM Undergraduates

ERIC Educational Resources Information Center

Schneider, Kimberly R.; Bickel, Amelia; Morrison-Shetlar, Alison

2015-01-01

Retaining college-level science, technology, engineering, and mathematics (STEM) students remains a priority in higher education. A variety of methods have been shown to increase retention, including mentorship, tutoring, course enhancements, community building, and engagement in high-impact practices such as undergraduate research. In 2011, an…

The Relationship between Undergraduate Research Participation and Subsequent Research Performance of Early Career STEM Graduate Students

ERIC Educational Resources Information Center

Gilmore, Joanna; Vieyra, Michelle; Timmerman, Briana; Feldon, David; Maher, Michelle

2015-01-01

Undergraduate research experiences have been adopted across higher education institutions. However, most studies examining benefits derived from undergraduate research rely on self-report of skill development. This study used an empirical assessment of research skills to investigate associations between undergraduate research experiences and…

Cyberinfrastructure for Undergraduate STEM Education

ERIC Educational Resources Information Center

Swaid, Samar

2013-01-01

Cyberinfrastructure (CI) is a term that usually appears in scientific research, but rarely to be noticed as a scientific education tool. In this paper, I describe a transformative Cyberinfrastructure-based strategy to improve Science, Technology, Engineering and Mathematics (STEM) education at one of the historically black colleges. This strategy…

Persistence of undergraduate women in STEM fields

NASA Astrophysics Data System (ADS)

Pedone, Maggie Helene

The underrepresentation of women in science, technology, engineering, and mathematics (STEM) is a complex problem that continues to persist at the postsecondary level, particularly in computer science and engineering fields. This dissertation explored the pre-college and college level factors that influenced undergraduate women's persistence in STEM. This study also examined and compared the characteristics of undergraduate women who entered STEM fields and non-STEM fields in 2003-2004. The nationally representative Beginning Postsecondary Students Longitudinal Study (BPS:04/09) data set was used for analysis. BPS:04/09 study respondents were surveyed three times (NPSAS:04, BPS:04/06, BPS:04/09) over a six-year period, which enabled me to explore factors related to long-term persistence. Astin's Input-Environment-Output (I-E-O) model was used as the framework to examine student inputs and college environmental factors that predict female student persistence (output) in STEM. Chi-square tests revealed significant differences between undergraduate women who entered STEM and non-STEM fields in 2003-2004. Differences in student demographics, prior academic achievement, high school course-taking patterns, and student involvement in college such as participation in study groups and school clubs were found. Notably, inferential statistics showed that a significantly higher proportion of female minority students entered STEM fields than non-STEM fields. These findings challenge the myth that underrepresented female minorities are less inclined to enter STEM fields. Logistic regression analyses revealed thirteen significant predictors of persistence for undergraduate women in STEM. Findings showed that undergraduate women who were younger, more academically prepared, and academically and socially involved in college (e.g., lived on campus, interacted with faculty, participated in study groups, fine arts activities, and school sports) were more likely to persist in STEM fields. This longitudinal study showed that both pre-college and college level factors influenced undergraduate women's persistence in STEM. The research findings offer important implications for policy and practice initiatives in higher education that focus on the recruitment and retention of women in postsecondary STEM fields.

STEM in Postsecondary Education: Entrance, Attrition, and Coursetaking among 2003-04 Beginning Postsecondary Students. Web Tables. NCES 2013-152

ERIC Educational Resources Information Center

Chen, Xianglei; Ho, Phoebe

2012-01-01

Science, technology, engineering, and mathematics (STEM) fields are widely regarded as critical to the national economy. To provide a nationally representative portrait of undergraduate students' experiences in STEM education, these Web Tables summarize longitudinal data from a cohort of first-time, beginning students who started postsecondary…

An Analysis of Retention Factors in Undergraduate Degree Programs in Science, Technology, Engineering, and Mathematics

ERIC Educational Resources Information Center

Johnson, Michael H.

2012-01-01

This mixed-methodological study explored the factors that predict a student's likelihood to complete an undergraduate program in a STEM discipline at one campus reliant upon that mission. Offered in response to a national imperative for the U.S. to compete globally, researchers contend educators must better prepare a STEM foundation and inspire…

Negotiating Identity: A Look at the Educational Experiences of Black Undergraduates in Stem Disciplines

ERIC Educational Resources Information Center

McClain, Oren L.

2014-01-01

The purpose of this qualitative study is to investigate the mathematics educational experiences of Black undergraduate students majoring in science, technology, engineering, and mathematics disciplines at the University of Virginia. Using Murrell's (2009) situated-mediated identity theory as the theoretical framework, this study examines factors…

NASA GISS Climate Change Research Initiative: A Multidisciplinary Vertical Team Model for Improving STEM Education by Using NASA's Unique Capabilities.

NASA Astrophysics Data System (ADS)

Pearce, M. D.

2017-12-01

CCRI is a year-long STEM education program designed to bring together teams of NASA scientists, graduate, undergraduate and high school interns and high school STEM educators to become immersed in NASA research focused on atmospheric and climate changes in the 21st century. GISS climate research combines analysis of global datasets with global models of atmospheric, land surface, and oceanic processes to study climate change on Earth and other planetary atmospheres as a useful tool in assessing our general understanding of climate change. CCRI interns conduct research, gain knowledge in assigned research discipline, develop and present scientific presentations summarizing their research experience. Specifically, CCRI interns write a scientific research paper explaining basic ideas, research protocols, abstract, results, conclusion and experimental design. Prepare and present a professional presentation of their research project at NASA GISS, prepare and present a scientific poster of their research project at local and national research symposiums along with other federal agencies. CCRI Educators lead research teams under the direction of a NASA GISS scientist, conduct research, develop research based learning units and assist NASA scientists with the mentoring of interns. Educators create an Applied Research STEM Curriculum Unit Portfolio based on their research experience integrating NASA unique resources, tools and content into a teacher developed unit plan aligned with the State and NGSS standards. STEM Educators also Integrate and implement NASA unique units and content into their STEM courses during academic year, perform community education STEM engagement events, mentor interns in writing a research paper, oral research reporting, power point design and scientific poster design for presentation to local and national audiences. The CCRI program contributes to the Federal STEM Co-STEM initiatives by providing opportunities, NASA education resources and programing that improve STEM instruction, increase and sustain youth and public engagement in STEM, enhance STEM experience of undergraduate students, better serve groups under-represented groups in STEM fields and design graduate education for tomorrow's STEM workforce.

Students Who Study Science, Technology, Engineering, and Mathematics (STEM) in Postsecondary Education. Stats in Brief. NCES 2009-161

ERIC Educational Resources Information Center

Chen, Xianglei

2009-01-01

Rising concern about America's ability to maintain its competitive position in the global economy has renewed interest in science, technology, engineering and mathematics (STEM) education. To understand who enters into and completes undergraduate programs in STEM fields, this report examined data from three major national studies: the 1995-96…

NSF Programs That Support Research in the Two-Year College Classroom

NASA Astrophysics Data System (ADS)

Carter, V.; Ryan, J. G.; Singer, J.

2011-12-01

The National Science Foundation recognizes the significant role provided by two-year institutions in providing high quality STEM courses to large numbers of students. For some students the STEM courses completed while attending a two-year institution represent the only STEM courses a student may take; for others the courses serve as the foundation to continue on into a STEM major at a four-year institution; and some students complete STEM courses that lead directly into the workforce. Several programs in the Division of Undergraduate Research, including the Advanced Technological Education (ATE) program, STEM Talent Expansion Program (STEP), and the Transforming Undergraduate Education in STEM (TUES) program, support the inclusion of student research experiences at two-year institutions. Information about these programs and examples of successful funded projects will be provided. Resources for faculty considering applying for support will be shared with special attention to a faculty development program designed to help faculty learn about funding opportunities and prepare proposals for submission to the TUES and ATE programs.

Undergraduate research as curriculum.

PubMed

Dolan, Erin L

2017-07-08

To date, national interests, policies, and calls for transformation of undergraduate education have been the main drivers of research integration into the undergraduate curriculum, briefly described here. The New Horizons in Biochemistry and Molecular Biology Education conference at the Weizmann Institute of Science (Israel) this fall presents an exciting opportunity to discuss integration of undergraduate research into the curriculum and other cutting-edge topics in biochemistry and molecular biology education from a cross-national perspective. I look forward to exploring prospects for international collaboration on research and development of course-based undergraduate research experiences and on STEM education in general. © 2017 by The International Union of Biochemistry and Molecular Biology, 45(4):293-298, 2017. © 2017 The International Union of Biochemistry and Molecular Biology.

Exploring Aesthetic Experiences in the Undergraduate General Education Science Classroom

NASA Astrophysics Data System (ADS)

Biscotte, Stephen Michael

Citizens must have a minimal level of STEM-literacy to work alongside scientists to tackle both current and future global challenges. How can general education, the one piece of the undergraduate experience every student completes, contribute to this development? And science learning is dependent on having transformative aesthetic experiences in the science classroom. These memorable experiences involve powerful connection between students and the world around them. If these types of experiences are necessary for science learning and growth, are students in introductory science courses having them? If so, what relationship might they have with students' desires to pursue further science study? This dissertation explores these questions through two manuscripts. The first, a theoretical piece published in the Journal of General Education in 2015, argues that non-STEM students must have transformative aesthetic experiences in their undergraduate general education science course to develop the level of understanding needed to engage with challenging scientific issues in the future. This claim is substantiated by bringing together the work of Dewey and Deweyan scholars on the nature and impact of aesthetic experiences in science and science education with the general education reform efforts and desired outcomes for an informed and engaged citizenry. The second manuscript, an empirical piece, explores the lived experience of non-STEM students in an introductory geosciences course. A phenomenological research methodology is deployed to capture the 'essence' of the lived experience of a STEM-philic student in general education science. In addition, Uhrmacher's CRISPA framework is used to analyze the participants' most memorable course moments for the presence or absence of aesthetic experiences. In explication of the data, it shows that students are in fact having aesthetic experiences (or connecting to prior aesthetic experiences) and these experiences are related to their desires to pursue further STEM study.

Learning, Teaching and Scholarship: Fundamental Tensions of Undergraduate Research

ERIC Educational Resources Information Center

Laursen, Sandra; Seymour, Elaine; Hunter, Anne-Barrie

2012-01-01

Each year, thousands of undergraduates in the science, technology, engineering, and mathematics (STEM) fields conduct research in US university and college laboratories. Such undergraduate research (UR) experiences are common practice in US higher education, with nearly a century of history at research universities and liberal arts colleges.…

Reforming STEM Undergraduate Education: What's a Faculty Member to Do?

NASA Astrophysics Data System (ADS)

Fairweather, J.

2011-12-01

Efforts to improve undergraduate STEM education lie at the forefront of many national educational policies. The recent National Academies of Science study of discipline-based educational research (DBER)is typical of such efforts. Most of the initiatives to improve student learning in STEM focus on the the student or the instructor in the classroom (Austin, 2011). This focus is consistent with the work by Seymour & Hewitt (1997), which found that poor teaching in STEM adversely affects learning and retention in the major. Professional development efforts focus on helping the individual STEM faculty member to figure out what to do to improve student learning. Substantial research (Austin, 2011) shows that the origin of many learning problems lies beyond the control of the instructor or the individual classroom. In these circumstances what is a STEM faculty member to do? This paper explores answers to this question. The first step is to define the nature of the problem. Is it related to classroom teaching and learning such as knowledge, skills, and interest in the major? If so then what environmental factors affect strategic alternatives, including type of course, instructor characteristics, and prior teaching experience (Fairweather & Rhoads, 1995)? Does good disciplinary-based research on the learning problem exist? If so then how can the research results be translated into practice? If not then does good research from other disciplines exist? If relevant evidenced-based research does not exist at all then how can STEM instructors learn to evaluate key learning outcomes and find ways to ameliorate problems? Despite appearances not all STEM teaching and learning problems are classroom-based. Some problems derive from curricula, others from faculty work-related issues such as rewards and work load. Any classroom reform effort must reflect accurately the system in which the teaching and learning take place. Understanding these systemic interactions improves the ability of likelihood that STEM faculty members' efforts to improve instruction in the classroom will be effective and enduring (Fisher, Fairweather, & Amey, 2003). In the presentation I discuss a program to incorporate computational competencies in the classroom and curricula. I use this example to help individual STEM instructors understand how to think about improving what goes on in their classroom while at the same time doing so in a way that increases the likelihood that the reform will work and endure. I discuss the importance of building networks among like-minded colleagues within and across institutions as a critical element in successful reform. References Austin, A. (2011). Promoting evidence based change in undergraduate science education. Washington, DC: National Academies of Science. Fairweather, J., and Rhoads, R. (1995). Teaching and the faculty role: Enhancing the commitment to instruction in American Colleges and Universities. Educational Evaluation and Policy Analysis 17: 179-194. Fisher, D., Fairweather, J., & Amey. M. (2003). Systemic reform in undergraduate engineering education: The role of collective responsibility. International Journal of Engineering Education 19: 768-776. Seymour, E. & Hewitt, N. M. (1997). Talking about leaving: Why undergraduates leave the sciences. Boulder, CO: Westview Press.

Promising Practices in Undergraduate Science, Technology, Engineering, and Mathematics Education: Summary of Two Workshops

ERIC Educational Resources Information Center

Nielsen, Natalie

2011-01-01

Numerous teaching, learning, assessment, and institutional innovations in undergraduate science, technology, engineering, and mathematics (STEM) education have emerged in the past decade. Because virtually all of these innovations have been developed independently of one another, their goals and purposes vary widely. Some focus on making science…

Mentorship: The Education-Research Continuum

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

Correll, D

2008-05-29

Mentoring of science students stems naturally from the intertwined link between science education and science research. In fact, the mentoring relationship between a student and a scientist may be thought of analogically as a type of double helix forming the 'DNA' that defines the blueprint for the next generation of scientists. Although this analogy would not meet the rigorous tests commonly used for exploring the natural laws of the universe, the image depicted does capture how creating and sustaining the future science workforce benefits greatly from the continuum between education and research. The path science students pursue from their educationmore » careers to their research careers often involves training under an experienced and trusted advisor, i.e., a mentor. For many undergraduate science students, a summer research internship at a DOE National Laboratory is one of the many steps they will take in their Education-Research Continuum. Scientists who choose to be mentors share a commitment for both science education and science research. This commitment is especially evident within the research staff found throughout the Department of Energy's National Laboratories. Research-based internship opportunities within science, technology, engineering and mathematics (STEM) exist at most, if not all, of the Laboratories. Such opportunities for students are helping to create the next generation of highly trained professionals devoted to the task of keeping America at the forefront of scientific innovation. 'The Journal of Undergraduate Research' (JUR) provides undergraduate interns the opportunity to publish their scientific innovation and to share their passion for education and research with fellow students and scientists. The theme of this issue of the JUR (Vol. 8, 2008) is 'Science for All'. Almost 20 years have passed since the American Association for the Advancement of Science published its 1989 report, 'Science for All Americans-Project 2061'. The first recommendation for learning science stated: 'The Nature of Science includes the scientific world view, scientific methods of inquiry, and the nature of the scientific enterprise'. All three elements of the 'Nature of Science' are pivotal aspects of a research internship under the mentorship of an experienced and trusted advisor. In addition to internships for undergraduates, an important ingredient in realizing 'Science for All' is collaboration involving educators and scientists as they engage science students and the public at large to promote science literacy and to develop the next generation of STEM professionals. The DOE National Laboratories, individually and collectively, form an ideal nexus for nurturing these complementary collaborations. My 'Science for All' experiences at Lawrence Livermore National Laboratory (LLNL) over the last 30 years have spanned pre-college, college, and postdoctoral activities, including mentoring of undergraduate students. Early in my mentoring career, I became aware that undergraduates in particular needed help in answering the question 'what path (or paths) will lead to a challenging and rewarding STEM career'? For many, a successful path included a research internship that would result in expanded skills and training in addition to those received from their academic education. These internship skills were helpful whether the student's next Education-Research Continuum decision was graduate school or STEM employment. My experience at LLNL mirrors that of my colleagues at other DOE National Laboratories--internships with a dedicated mentor provide undergraduates with a unique set of skills that can underpin their future options and serve to improve the number, quality, and successful outcomes of students who enter STEM careers. 'Science for All' can also be found in the goals of 'The America COMPETES Act', which call for renewed efforts to increase investments in scientific research and development, strengthen education, and encourage entrepreneurship. Mentoring is an important ingredient in reaching these goals because the success of future endeavors will require a diverse workforce of scientists, technicians, engineers, mathematicians, and STEM educators. A small, but not insignificant, metric of how well the nation is doing to create the next STEM generation can be measured by the abstracts and articles published in the 'Journal of Undergraduate Research'. At the 'heart' of the JUR is the professional commitment of the DOE National Laboratory workforce to mentor the next STEM generation and to realize 'Science for All'.« less

The Use of Physical and Virtual Manipulatives in an Undergraduate Mechanical Engineering (Dynamics) Course

ERIC Educational Resources Information Center

Pan, Edward A.

2013-01-01

Science, technology, engineering, and mathematics (STEM) education is a national focus. Engineering education, as part of STEM education, needs to adapt to meet the needs of the nation in a rapidly changing world. Using computer-based visualization tools and corresponding 3D printed physical objects may help nontraditional students succeed in…

Improving Undergraduate STEM Education: Pathways into Geoscience (IUSE: GEOPATHS) - A National Science Foundation Initiative

NASA Astrophysics Data System (ADS)

Jones, B.; Patino, L. C.

2016-12-01

Preparation of the future professional geoscience workforce includes increasing numbers as well as providing adequate education, exposure and training for undergraduates once they enter geoscience pathways. It is important to consider potential career trajectories for geoscience students, as these inform the types of education and skill-learning required. Recent reports have highlighted that critical thinking and problem-solving skills, spatial and temporal abilities, strong quantitative skills, and the ability to work in teams are among the priorities for many geoscience work environments. The increasing focus of geoscience work on societal issues (e.g., climate change impacts) opens the door to engaging a diverse population of students. In light of this, one challenge is to find effective strategies for "opening the world of possibilities" in the geosciences for these students and supporting them at the critical junctures where they might choose an alternative pathway to geosciences or otherwise leave altogether. To address these and related matters, The National Science Foundation's (NSF) Directorate for Geosciences (GEO) has supported two rounds of the IUSE: GEOPATHS Program, to create and support innovative and inclusive projects to build the future geoscience workforce. This program is one component in NSF's Improving Undergraduate STEM Education (IUSE) initiative, which is a comprehensive, Foundation-wide effort to accelerate the quality and effectiveness of the education of undergraduates in all of the STEM fields. The two tracks of IUSE: GEOPATHS (EXTRA and IMPACT) seek to broaden and strengthen connections and activities that will engage and retain undergraduate students in geoscience education and career pathways, and help prepare them for a variety of careers. The long-term goal of this program is to dramatically increase the number and diversity of students earning undergraduate degrees or enrolling in graduate programs in geoscience fields, as well as ensure that they have the necessary skills and competencies to succeed as next generation professionals in a variety of employment sectors.

78 FR 37590 - Agency Information Collection Activities: Submission for OMB Review; Comment Request

Federal Register 2010, 2011, 2012, 2013, 2014

2013-06-21

...: Program Evaluation of the Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM... Mathematics (S-STEM) Program, which operates within NSF's Division of Undergraduate Education. The evaluation...

The impacts and "best practices" of undergraduate - graduate student mentoring relationships in undergraduate research experiences

NASA Astrophysics Data System (ADS)

Campanile, Megan Faurot

With the growth of undergraduate research in the U.S., over the past two decades, faculty are more often assigning graduate students to mentor undergraduate students than providing the one-on-one mentoring themselves. A critical gap that exists in the literature is how undergraduate -- graduate student mentoring relationships in undergraduate research influences both students' academic and career paths. The research questions that framed this study were: (1) What, if any, changes occur in the academic and career paths of undergraduate and graduate students who participate in undergraduate research experiences? and (2) Are there variables that constitute "best practices" in the mentoring relationships in undergraduate research experiences and, if so, what are they? The study context was the National Science Foundation Research Experiences for Undergraduates program at Illinois Institute of Technology and the 113 undergraduate researchers and 31 graduate student mentors who participated from 2006 -- 2014. Surveys and interviews were administered to collect pre- and post-program data and follow-up data during the 2014 -- 2015 academic year. Descriptive statistics, content analysis method, and constant comparative method were used to analyze the data. Key findings on the undergraduate researchers were their actual earned graduate degree types (Ph.D. 20%, M.D. 20%, M.S. 48%, other 12%) and fields (STEM 57%, medical 35%, other 8%) and the careers they were pursuing or working in. All the graduate student mentors were pursuing or working in the STEM fields (academia 50%, industry 40%, government 10%). More than 75% of both the undergraduate and graduate students reported that their mentoring relationships had a somewhat to extremely influential impact on their academic and career paths. A set of "best practices" of mentoring were developed for both the undergraduate and graduate students and focused on the mentoring experiences related to learning and teaching about research; relationship dynamics and roles; and, planning, practicing, and preparing for the future. Future studies recommended include additional longitudinal studies and comparative studies of programs with and without mentor training. Ultimately, by improving the mentoring relationships in undergraduate research it has the potential to improve both undergraduate and graduate education and produce a more highly qualified U.S. STEM workforce. oth undergraduate and graduate education and produce a more highly qualified U.S. STEM workforce.

Experiences of Judeo-Christian Students in Undergraduate Biology

ERIC Educational Resources Information Center

Barnes, M. Elizabeth; Truong, Jasmine M.; Brownell, Sara E.

2017-01-01

A major research thrust in science, technology, engineering, and mathematics (STEM) education is focused on how to retain students as STEM majors. The accumulation of seemingly insignificant negative experiences in STEM classes can, over time, lead STEM students to have a low sense of belonging in their disciplines, and this can lead to lower…

The bench vs. the blackboard: learning to teach during graduate school.

PubMed

Ciaccia, Laura

2011-09-01

Many science, technology, engineering, and mathematics (STEM) graduate students travel through the academic career pipeline without ever learning how to teach effectively, an oversight that negatively affects the quality of undergraduate science education and cheats trainees of valuable professional development. This article argues that all STEM graduate students and postdoctoral fellows should undergo training in teaching to strengthen their resumes, polish their oral presentation skills, and improve STEM teaching at the undergraduate level. Though this may seem like a large undertaking, the author outlines a three-step process that allows busy scientists to fit pedagogical training into their research schedules in order to make a significant investment both in their academic career and in the continuing improvement of science education. Copyright © 2011.

Examining the Role of Leadership in an Undergraduate Biology Institutional Reform Initiative

ERIC Educational Resources Information Center

Matz, Rebecca L.; Jardeleza, Sarah E.

2016-01-01

Undergraduate science, technology, engineering, and mathematics (STEM) education reform continues to be a national priority. We studied a reform process in undergraduate biology at a research-intensive university to explore what leadership issues arose in implementation of the initiative when characterized with a descriptive case study method. The…

Is It the Intervention or the Students? Using Linear Regression to Control for Student Characteristics in Undergraduate STEM Education Research

ERIC Educational Resources Information Center

Theobald, Roddy; Freeman, Scott

2014-01-01

Although researchers in undergraduate science, technology, engineering, and mathematics education are currently using several methods to analyze learning gains from pre- and posttest data, the most commonly used approaches have significant shortcomings. Chief among these is the inability to distinguish whether differences in learning gains are due…

Effect of Out-of-School Time STEM Education Programs: Implications for Policy

NASA Astrophysics Data System (ADS)

Talbot, Harry A.

Today's world requires greater STEM knowledge for employment and understanding of emerging issues. A predicted 3 million jobs will be created in STEM-related fields but the percentage of earned STEM-related degrees is diminishing. A lack of progress in STEM education for American students is most pronounced among females who make up 48% of the workforce and 24% of STEM employees. A lack of STEM interest among students is compounded by limited time in the school day for STEM topics, lack of teacher confidence in teaching STEM, and a lack of professional development. This study examines the impact of Out-of-School-Time (OST) programs on knowledge acquisition and attitudes toward STEM topics by gender. Program content was delivered by undergraduate pre-teacher candidates and undergraduate STEM majors, using a structured, hands-on engineering program developed for the National Aeronautics and Space Administration (NASA). Monthly professional development was provided to OST staff by NASA content specialists and instructors from Fresno State University. A repeated-measures design analyzed group differences across three points in time: prior to the start of instruction (pretest), immediately following the end of instruction (posttest), and 60 days following (post posttest). A within-group comparison measured posttest and post-post-test changes for each gender. Program students included in the study participated for at least 12 of the 24 program hours offered and completed all three assessments. The findings showed that STEM knowledge acquisition advanced at similar levels for both genders. These results were consistent with the existing research. Findings related to attitudes toward STEM topics showed that female students did not change over time but males students' interest lessened over time. These findings did not support the current research in this area. Recommendations for practice include developing programs that focus on gender differentiated learning styles, linking pre-service teachers with undergraduate STEM majors in the delivery of OST STEM content and skill development, and creating an environment that links the regular day school programs, OST programs, family, media,and cultural institutions to support STEM education. Universities should also play a leading role in the training of future teachers and STEM-field practitioners.

NSF Support for Physics at the Undergraduate Level: A View from Inside

NASA Astrophysics Data System (ADS)

McBride, Duncan

2015-03-01

NSF has supported a wide range of projects in physics that involve undergraduate students. These projects include NSF research grants in which undergraduates participate; Research Experiences for Undergraduates (REU) centers and supplements; and education grants that range from upper-division labs that may include research, to curriculum development for upper- and lower-level courses and labs, to courses for non-majors, to Physics Education Research (PER). The NSF Divisions of Physics, Materials Research, and Astronomy provide most of the disciplinary research support, with some from other parts of NSF. I recently retired as the permanent physicist in NSF's Division of Undergraduate Education (DUE), which supports the education grants. I was responsible for a majority of DUE's physics grants and was involved with others overseen by a series of physics rotators. There I worked in programs entitled Instrumentation and Laboratory Improvement (ILI); Course and Curriculum Development (CCD); Course, Curriculum, and Laboratory Improvement (CCLI); Transforming Undergraduate STEM Education (TUES); and Improving Undergraduate STEM Education (IUSE). NSF support has enabled physics Principal Investigators to change and improve substantially the way physics is taught and the way students learn physics. The most important changes are increased undergraduate participation in physics research; more teaching using interactive engagement methods in classes; and growth of PER as a legitimate field of physics research as well as outcomes from PER that guide physics teaching. In turn these have led, along with other factors, to students who are better-prepared for graduate school and work, and to increases in the number of undergraduate physics majors. In addition, students in disciplines that physics directly supports, notably engineering and chemistry, and increasingly biology, are better and more broadly prepared to use their physics education in these fields. I will describe NSF support for undergraduate physics with both statistics and examples. In addition I will talk about trends in support for undergraduate physics at NSF and speculate about directions such support might go. Contents of this paper reflect the opinions of the author and do not necessarily reflect those of the National Science Foundation.

Undergraduate Research as a Process for STEM Teaching and Learning Systemic Change: Lessons Learned from the Council on Undergraduate Research NSF CCLI and TUES Projects

NASA Astrophysics Data System (ADS)

Ambos, E. L.; Havholm, K. G.; Malachowski, M.; Osborn, J.; Karukstis, K.

2013-12-01

For more than seven years, the Council on Undergraduate Research (CUR), the primary organization supporting programs, services, and advocacy for undergraduate research, has been working with support from the NSF's Division of Undergraduate Education (DUE) to enhance, sustain, and institutionalize undergraduate research in diverse STEM disciplines and higher education settings. The Council on Undergraduate Research comprises more than 9000 individual and 670 institutional members within a divisional structure that includes geosciences, as well as 11 other thematic areas. Through its most recent grant: 'Transformational Learning through Undergraduate Research: Comprehensive Support for Faculty, Institutions, State Systems and Consortia' (NSF DUE CCLI III Award #09-20275), CUR has been collaborating with six higher education systems, each selected after a rigorous national application process in 2010 and 2011. These six systems, which collectively represent 79 individual institutions, are the Council of Public Liberal Arts Colleges (COPLAC), University of Wisconsin System (UWS), California State University System (CSU), City University of New York (CUNY), Great Lakes Colleges Association (GLCA), and Pennsylvania State System of Higher Education (PASSHE). The more than 350 participants of faculty and senior-level administrators from the six systems are engaged in shared multi-faceted and multi-year professional development experiences. Teams from each system attended customized institutes facilitated by CUR experts in 2011-2012, during which the teams developed specific action plans focused on institutionalizing undergraduate research on their campus and within their system. The systems were reconvened as a group a year after the first institute, to chart progress toward achieving their goals. Based on interviews and surveys with participants, campus teams are making substantial progress toward implementation of robust undergraduate research programs, and are making concerted efforts to affect policy, workload, tenure and promotion and resource issues, which are often core factors in any STEM education change process. Several systems are now connecting individual campus-based undergraduate research efforts more effectively, and tying undergraduate research to regional workforce and economic development programs. Many campus teams are moving their department and colleges toward curricular innovations that emphasize scaffolding undergraduate research throughout the undergraduate curriculum. An NSF EAGER/WIDER supplement to the CUR CCLI III award was received in October 2012 and expanded the scope of the project to include deeper study of the changes processes underway at each of the six systems and to tease out the factors that can either promote or retard expansion of undergraduate research as a teaching and learning paradigm. Lessons learned from one of the six systems, the University of Wisconsin, will be highlighted.

Too Few or Perhaps Too Many STEM Graduates

ERIC Educational Resources Information Center

Birrell, Bob

2015-01-01

Industry bodies, research and educational organisations have lobbied intensely for increased funding for training in the STEM disciplines. It is time to reassess this advocacy. Undergraduate commencements in STEM fields have increased strongly since 2009, yet the current employment prospects for these graduates are poor. Advocates have not made a…

Aligning Practice to Policies: Changing the Culture to Recognize and Reward Teaching at Research Universities

PubMed Central

Dennin, Michael; Schultz, Zachary D.; Feig, Andrew; Finkelstein, Noah; Greenhoot, Andrea Follmer; Hildreth, Michael; Leibovich, Adam K.; Martin, James D.; Moldwin, Mark B.; O’Dowd, Diane K.; Posey, Lynmarie A.; Smith, Tobin L.; Miller, Emily R.

2017-01-01

Recent calls for improvement in undergraduate education within STEM (science, technology, engineering, and mathematics) disciplines are hampered by the methods used to evaluate teaching effectiveness. Faculty members at research universities are commonly assessed and promoted mainly on the basis of research success. To improve the quality of undergraduate teaching across all disciplines, not only STEM fields, requires creating an environment wherein continuous improvement of teaching is valued, assessed, and rewarded at various stages of a faculty member’s career. This requires consistent application of policies that reflect well-established best practices for evaluating teaching at the department, college, and university levels. Evidence shows most teaching evaluation practices do not reflect stated policies, even when the policies specifically espouse teaching as a value. Thus, alignment of practice to policy is a major barrier to establishing a culture in which teaching is valued. Situated in the context of current national efforts to improve undergraduate STEM education, including the Association of American Universities Undergraduate STEM Education Initiative, this essay discusses four guiding principles for aligning practice with stated priorities in formal policies: 1) enhancing the role of deans and chairs; 2) effectively using the hiring process; 3) improving communication; and 4) improving the understanding of teaching as a scholarly activity. In addition, three specific examples of efforts to improve the practice of evaluating teaching are presented as examples: 1) Three Bucket Model of merit review at the University of California, Irvine; (2) Evaluation of Teaching Rubric, University of Kansas; and (3) Teaching Quality Framework, University of Colorado, Boulder. These examples provide flexible criteria to holistically evaluate and improve the quality of teaching across the diverse institutions comprising modern higher education. PMID:29196430

Reforming Undergraduate Biology Teaching through Graduate Assistants: Identifying Bridges and Barriers to Making Change

ERIC Educational Resources Information Center

Hill, Kathleen M.; Orchinik, Miles

2016-01-01

Among policy makers, there is an ongoing discussion about the need to improve undergraduate education in science and engineering. With many undergraduate students being taught by graduate teaching assistants (GTAs), it is important to explore the development of STEM knowledge for teaching by GTAs. This study follows ten GTAs as they participated…

Examining the Role of Leadership in an Undergraduate Biology Institutional Reform Initiative.

PubMed

Matz, Rebecca L; Jardeleza, Sarah E

Undergraduate science, technology, engineering, and mathematics (STEM) education reform continues to be a national priority. We studied a reform process in undergraduate biology at a research-intensive university to explore what leadership issues arose in implementation of the initiative when characterized with a descriptive case study method. The data were drawn from transcripts of meetings that occurred over the first 2 years of the reform process. Two literature-based models of change were used as lenses through which to view the data. We find that easing the burden of an undergraduate education reform initiative on faculty through articulating clear outcomes, developing shared vision across stakeholders on how to achieve those outcomes, providing appropriate reward systems, and ensuring faculty have ample opportunity to influence the initiative all appear to increase the success of reform. The two literature-based models were assessed, and an extended model of change is presented that moves from change in STEM instructional strategies to STEM organizational change strategies. These lessons may be transferable to other institutions engaging in education reform. © 2016 R. L. Matz and S. E. Jardeleza. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Pathways in STEM: Factors Affecting the Retention and Attrition of Talented Men and Women from the STEM Pipeline

ERIC Educational Resources Information Center

Heilbronner, Nancy N.

2009-01-01

Many men and women who are talented in science, technology, engineering, and/or mathematics (STEM) choose not to pursue undergraduate majors or careers in these fields. To develop talents in STEM, educators must understand the factors that contribute to an individual's retention in STEM domains, as well as the factors that act as barriers to…

Retention-Oriented Curricular Design

ERIC Educational Resources Information Center

Milanovic, Ivana; Eppes, Tom A.; Girouard, Janice; Townsend, Lee

2010-01-01

This paper presents a retention-oriented approach to the educational value stream within the STEM undergraduate area. Faced with several strategic challenges and opportunities, a Flex Advantage Plan was developed to enhance the undergraduate engineering technology programs and better utilize the curricular flexibilities inherent in the current…

Transforming Undergraduate STEM Education Act

THOMAS, 111th Congress

Rep. Kosmas, Suzanne M. [D-FL-24

2010-03-25

House - 04/30/2010 Referred to the Subcommittee on Higher Education, Lifelong Learning, and Competitiveness. (All Actions) Tracker: This bill has the status IntroducedHere are the steps for Status of Legislation:

Undergraduate Experiences of Division I Athlete Science, Technology, Engineering, and Mathematics (STEM) Graduates

NASA Astrophysics Data System (ADS)

Comeaux, Eddie; Bachman, Tina; Burton, Rena M.; Aliyeva, Aida

2017-02-01

Employing the conceptual model developed by Comeaux and Harrison (Coll Stud Aff J 30(1):75-87, 2011), this study explored the undergraduate experience of Division I athlete STEM graduates. Data collection involved 17 in-depth interviews with former athletes at two research-intensive, public institutions. Results revealed that pre-college characteristics, involvement in purposeful STEM-related activities, and sport participation, as well as academic support and guidance within athletic departments, play important roles in shaping the experiences of athletes who earn STEM degrees. Implications for student affairs professionals, faculty, and others who frequently interact with college athletes and are committed to creating more equitable educational environments are discussed.

Students Who Demonstrate Strong Talent and Interest in STEM Are Initially Attracted to STEM through Extracurricular Experiences

ERIC Educational Resources Information Center

VanMeter-Adams, Amy; Frankenfeld, Cara L.; Bases, Jessica; Espina, Virginia; Liotta, Lance A.

2014-01-01

What early experiences attract students to pursue an education and career in science, technology, engineering, and mathematics (STEM)? Does hands-on research influence them to persevere and complete a major course of academic study in STEM? We evaluated survey responses from 149 high school and undergraduate students who gained hands-on research…

NASA Astrophysics EPO Community: Enhancing STEM Experience of Undergraduates

NASA Astrophysics Data System (ADS)

Manning, J.; Meinke, B. K.; Lawton, B.; Smith, D. A.; Bartolone, L.; Schultz, G.; NASA Astrophysics EPO Community

2015-11-01

The NASA Science Mission Directorate (SMD) Astrophysics Education and Public Outreach (EPO) community and Forum work together to capitalize on the cutting-edge discoveries of NASA Astrophysics missions to enhance the Science, Technology, Engineering, and Math (STEM) experience of undergraduates. The NASA SMD Astrophysics EPO community has proven expertise in providing both professional development and resources to faculty at two- and four-year institutions and in offering internships and student collaboration opportunities. These mission- and grant-based EPO programs are uniquely poised to foster collaboration between scientists with content expertise and educators with pedagogy expertise. We present examples of how the NASA Astrophysics EPO community and Forum engage the higher education community in these ways, including associated metrics and evaluation findings.

Family matters: Familial support and science identity formation for African American female STEM majors

NASA Astrophysics Data System (ADS)

Parker, Ashley Dawn

This research seeks to understand the experiences of African American female undergraduates in STEM. It investigates how familial factors and science identity formation characteristics influence persistence in STEM while considering the duality of African American women's status in society. This phenomenological study was designed using critical race feminism as the theoretical framework to answer the following questions: 1) What role does family play in the experiences of African American women undergraduate STEM majors who attended two universities in the UNC system? 2) What factors impact the formation of science identity for African American women undergraduate STEM majors who attended two universities in the UNC system? Purposive sampling was used to select the participants for this study. The researcher conducted in-depth interviews with 10 African American female undergraduate STEM major from a predominantly White and a historically Black institution with the state of North Carolina public university system. Findings suggest that African American families and science identity formation influence the STEM experiences of the African American females interviewed in this study. The following five themes emerged from the findings: (1) independence, (2) support, (3) pressure to succeed, (4) adaptations, and (5) race and gender. This study contributes to the literature on African American female students in STEM higher education. The findings of this study produced knowledge regarding policies and practices that can lead to greater academic success and persistence of African American females in higher education in general, and STEM majors in particular. Colleges and universities may benefit from the findings of this study in a way that allows them to develop and sustain programs and policies that attend to the particular concerns and needs of African American women on their campuses. Finally, this research informs both current and future African American female STEM students so that they might benefit from the knowledge of the experiences of others in STEM-related fields. As a result, other African American female students might be enlightened by these stories and have the confidence to pursue a STEM degree of their own.

Near-Peer Mentor Model: Synergy within Mentoring

ERIC Educational Resources Information Center

Anderson, Margery K.; Tenenbaum, Laura S.; Ramadorai, Swati B.; Yourick, Debra L.

2015-01-01

The near-peer mentor model provides undergraduates and recent post-baccalaureates in the science, technology, engineering, and mathematics (STEM) fields with an internship in two related disciplines, STEM research and STEM education. The near-peer mentor is both a mentored research intern and a mentor to pre-college students. During the 2013…

The C-MORE Scholars Program: Engaging minority students in STEM through undergraduate research

NASA Astrophysics Data System (ADS)

Gibson, B. A.; Bruno, B. C.

2010-12-01

There have been several studies that show how undergraduate research experiences (REU) have a positive impact on a student’s academic studies and career path, including being a positive influence toward improving the student's lab skills and ability to work independently. Moreover, minority students appear to relate to science, technology, engineering, and mathematics (STEM) concepts better when they are linked with (1) a service learning component, and (2) STEM courses that include a cultural and social aspect that engages the student in a way that does not distract from the student’s technical learning. It is also known that a “place-based” approach that incorporates traditional (indigenous) knowledge can help engage underrepresented minority groups in STEM disciplines and increase science literacy. Based on the methods and best practices used by other minority serving programs and described in the literature, the Center for Microbial Oceanography: Research and Education (C-MORE) has successfully developed an academic-year REU to engage and train the next generation of scientists. The C-MORE Scholars Program provides undergraduate students majoring in an ocean or earth science-related field, especially underrepresented students such as Native Hawaiians and Pacific Islanders, the opportunity to participate in unique and cutting edge hands-on research experiences. The program appoints awardees at one of three levels based on previous research and academic experience, and students can progress through the various tiers as their skills and STEM content knowledge develop. All awardees receive guidance on a research project from a mentor who is a scientist at the university and/or industry. A key component of the program is the inclusion of professional development activities to help the student continue towards post graduation education or prepare for career opportunities after they receive their undergraduate STEM degree.

Integrating Discovery-Based Research Experiences into the Undergraduate STEM Curriculum: A Convocation Report from the National Academies of Sciences, Engineering and Medicine

NASA Astrophysics Data System (ADS)

Guertin, L. A.; Ambos, E. L.; Brenner, K.; Asher, P. M.; Ryan, J. G.

2015-12-01

New possibilities and challenges to providing and scaling up opportunities for large numbers of undergraduates to engage in discovery-based research and related activities reflect both the evidence base and the current systemic infrastructure of higher education. The National Research Council hosted a Convocation in May 2015 on this very topic, inspired by the 2012 PCAST report "Engage to Excel," which urged the STEM education community and funding agencies to "advocate and provide support for replacing standard laboratory courses with discovery-based research courses." The Convocation report "Integrating Discovery-Based Research into the Undergraduate STEM Curriculum" on which this session is based explores a number of critical issues: Is our current knowledge base robust enough to recommend best practices? Is offering such experiences actually beneficial for all undergraduates? What institutional changes will be required to make such opportunities available to large numbers of students? Can such programs drive institutional change? How can we manage the cost/benefit parameters of such programs? Exploring these important and connected issues is critical for allowing undergraduates to participate in meaningful and relevant research through their coursework, for faculty and administrators to examine and document the evidence for their impact, and institutions to identify variations in what works at different types of colleges and universities.

Assessing the Impact of a Multi-Disciplinary Peer-Led-Team Learning Program on Undergraduate STEM Education

ERIC Educational Resources Information Center

Carlson, Kerri; Celotta, Dayius Turvold; Curran, Erin; Marcus, Mithra; Loe, Melissa

2016-01-01

There has been a national call to transition away from the traditional, passive, lecture-based model of STEM education towards one that facilitates learning through active engagement and problem solving. This mixed-methods research study examines the impact of a supplemental Peer-Led Team Learning (PLTL) program on knowledge and skill acquisition…

Validating the Use of Concept-Mapping as a Diagnostic Assessment Tool in Organic Chemistry: Implications for Teaching

ERIC Educational Resources Information Center

Lopez, Enrique; Kim, Jennifer; Nandagopal, Kiruthiga; Cardin, Nate; Shavelson, Richard J.; Penn, John H.

2011-01-01

Science, Technology, Engineering, and Mathematics (STEM) education has become a key focus in the U.S. government's public education agenda. Many STEM degrees require the successful completion of undergraduate introductory organic chemistry (O-Chem), which is notorious for its difficulty and high attrition rate. Concept Maps (CM) have been used as…

A Study of The Influence of Advising on Underrepresented Minority Undergraduate Student Persistence in STEM

NASA Astrophysics Data System (ADS)

Weir, Michael J.

In the United States, undergraduate underrepresented minority (URM) students tend to change out of declared majors in science, technology, engineering and math (STEM) disciplines at a rate of nearly sixty percent prior to earning a post secondary degree. This phenomenon contributes to a general concern that the United States is not producing enough STEM trained skilled workers to meet future employment needs of industry and government. Although there has been research developed to examine how to increase the numbers of URM students enrolling in STEM programs at higher education institutions, retention of these students remains critical. One area of increasing focus for researchers is to understand how multiple factors impact the college experience of URM students and how those factors may contribute to the student decision to persist in earning a STEM disciple degree. This research study is a phenomenological mixed method study that examines how students experience the phenomenon of advising and the influence of the advising experience of undergraduate URM students on their likelihood of persisting in STEM at a northeast US technology oriented post secondary institution. Persistence, from the perspective of the student, is driven by cognitive psychological attributes such as confidence, motivation and self-efficacy. Utilizing a Social Cognitive theoretical framework, this study examines how three distinct undergraduate URM student populations enrolled in; an Academic Services Program, Honors College, and the general undergraduate population at this institution experience advising and how their experiences may influence their propensity to persist in earning a STEM oriented degree.

Bayer Facts of Science Education XV: A View from the Gatekeepers--STEM Department Chairs at America's Top 200 Research Universities on Female and Underrepresented Minority Undergraduate STEM Students

ERIC Educational Resources Information Center

Journal of Science Education and Technology, 2012

2012-01-01

Diversity and the underrepresentation of women, African-Americans, Hispanics and American Indians in the nation's science, technology, engineering and mathematics (STEM) fields are the subjects of the XV: A View from the Gatekeepers--STEM Department Chairs at America's Top 200 Research Universities on Female and Underrepresented Minority…

Stem Cell Education for Medical Students at Tongji University: Primary Cell Culture and Directional Differentiation of Rat Bone Marrow Mesenchymal Stem Cells

ERIC Educational Resources Information Center

Jin, Caixia; Tian, Haibin; Li, Jiao; Jia, Song; Li, Siguang; Xu, Guo-Tong; Xu, Lei; Lu, Lixia

2018-01-01

Stem cells are cells that can self-renew and differentiate into a variety of cell types under certain conditions. Stem cells have great potential in regenerative medicine and cell therapy for the treatment of certain diseases. To deliver knowledge about this frontier in science and technology to medical undergraduate students, we designed an…

Physics Education Research: A Research Subfield of Physics with Gender Parity

ERIC Educational Resources Information Center

Barthelemy, Ramón S.; Van Dusen, Ramón S.; Henderson, Charles

2015-01-01

Women currently outnumber men in obtaining undergraduate degrees but are underrepresented within STEM fields. However, women's representation varies by STEM field, and even further by STEM subfield. One field that has held a persistent low representation of women is physics. This paper seeks to uncover the truth behind an anecdotal claim that the…

Increasing Student Success in STEM: Summary of a Guide to Systemic Institutional Change

ERIC Educational Resources Information Center

Elrod, Susan; Kezar, Adrianna

2017-01-01

For the past 20 years, numerous reports have called for change and reform of undergraduate education to improve student learning, persistence, and graduation rates for students in STEM. Many change efforts have been started but few have reached the transformational level of entire programs, departments, or colleges in the STEM disciplines. In…

The Equity Ethic: Black and Latinx College Students Reengineering Their STEM Careers toward Justice

ERIC Educational Resources Information Center

McGee, Ebony; Bentley, Lydia

2017-01-01

This article describes the study of career aspirations of high-achieving black and Latinx undergraduate STEM (science, technology, engineering, mathematics) students and uncovers a concern for helping others--an equity ethic. A lack of racial and ethnic diversity persists in STEM education and industries; consequently, the inspiration of black and…

Top-Down versus Bottom-Up Paradigms of Undergraduate Business School Assurance of Learning Techniques. Professional File. Number 119, Winter/Spring 2011

ERIC Educational Resources Information Center

Priluck, Randi; Wisenblit, Joseph

2011-01-01

This paper describes two models of assessment of undergraduate business learning in two similar universities located on the East Coast of the United States. Both models stem from seeking continued accreditation by the AACSB and are focused on a group of student skills identified by the faculty as essential to undergraduate business education. The…

The NSF IUSE-EHR Program: What's New (and Old) About It, and Resources for Geoscience Proposers

NASA Astrophysics Data System (ADS)

Singer, J.; Ryan, J. G.

2015-12-01

The NSF Division of Undergraduate Education recently released a new solicitation for the IUSE program -- the latest iteration in a succession of funding programs dating back over 30 years (including the Instrumentation and Laboratory Improvement Program (ILI), the Course and Curriculum Development Program (CCD), the Course Curriculum and Laboratory Improvement Program (CCLI), and the Transforming Undergraduate STEM Education Program (TUES). All of these programs sought/seek to support high quality STEM education for majors and non-majors in lower- and upper-division undergraduate courses. The current IUSE-EHR program is described in a 2-year solicitation that includes two tracks: Engaged Student Learning, and Institutional & Community Transformation. Each track has several options for funding level and project duration. A wide range of activities can be proposed for funding, and the program recognizes the varying needs across STEM disciplines. Geoscientists and other potential IUSE proposers are strongly encouraged to form collaborations with colleagues that conduct educational research and to propose projects that build upon the educational knowledge base in the discipline as well as contribute to it. Achieving this may not be immediately obvious to many geoscientists who have interests in improving student learning in their courses, but are not fluent in the scholarship of education in their field. To lower the barriers that have historically prevented larger numbers of geoscientists from developing their ideas into competitive education-related proposals, we have explored strategies for building and leveraging partnerships, sought to identify available resources for proposers, and explored a range of strategies for engaging and supporting larger numbers of potential geoscience proposers.

Connecting Undergraduate Instruction to the 2017 Solar Eclipse

ERIC Educational Resources Information Center

Lopez, Ramon E.; Ambrose, Bradley S.; Bailey, Janelle M.; Cid, Ximena C.; Vieyra, Rebecca E.; Willoughby, Shannon D.

2017-01-01

Space science is perhaps the science topic that elicits the greatest interest in students in the United States and also worldwide. NASA has always endeavored to leverage that widespread interest to advance STEM education, not least because NASA requires a thriving STEM workforce for the future.

STEM Reform Outcomes through Communities of Transformation

ERIC Educational Resources Information Center

Gehrke, Sean; Kezar, Adrianna

2016-01-01

STEM undergraduate education reforms are more likely to be effective if undertaken not by individual faculty members but by faculty networks or "communities of transformation." The article describes four such communities that have persisted over many years and served large numbers of faculty through annual events, newsletters and…

Connecting undergraduate instruction to the 2017 solar eclipse

NASA Astrophysics Data System (ADS)

Lopez, Ramon E.; Ambrose, Bradley S.; Bailey, Janelle M.; Cid, Ximena C.; Vieyra, Rebecca E.; Willoughby, Shannon D.

2017-04-01

Space science is perhaps the science topic that elicits the greatest interest in students in the United States and also worldwide. NASA has always endeavored to leverage that widespread interest to advance STEM education, not least because NASA requires a thriving STEM workforce for the future.

Critical Components of a Successful Undergraduate Research Experience in the Geosciences for Minority Students

NASA Astrophysics Data System (ADS)

Liou-Mark, J.; Blake, R.; Chukuigwe, C.

2013-12-01

For the past five years, the New York City College of Technology has administered a successful National Science Foundation (NSF) Research Experience for Undergraduates (REU) program. The program provides rich, substantive, academic and life-transformative STEM educational experiences for students who would otherwise not pursue STEM education altogether or would not pursue STEM education through to the graduate school level. The REU Scholars are provided with an opportunity to conduct intensive satellite and ground-based remote sensing research at the National Oceanic and Atmospheric Administration Cooperative Remote Sensing Science and Technology Center (NOAA-CREST). Candidates for the program are recruited from the City University of New York's twenty-three separate campuses. These students engage in a research experience that spans the summer and the fall and spring semesters. Eighty-four percent (84%) of the program participants are underrepresented minorities in STEM, and they are involved in a plethora of undergraduate research best practice activities that include: training courses in MATLAB programming, Geographic Information Systems, and Remote Sensing; workshops in Research Ethics, Scientific Writing, and Oral and Poster Research Presentations; national, regional, and local conference presentations; graduate school support; and geoscience exposure events at national laboratories, agencies, and research facilities. To enhance their success in the program, the REU Scholars are also provided with a comprehensive series of safety nets that include a multi-tiered mentoring design specifically to address critical issues faced by this diverse population. Since the inception of the REU program in 2008, a total of 61 undergraduate students have finished or are continuing with their research or are pursuing their STEM endeavors. All the REU Scholars conducted individual satellite and ground-based remote sensing research projects that ranged from the study of hurricanes to atmospheric water vapor distribution to spectral analysis of soil moisture. Of the 61 REU Scholars, 18.0% (11) are in graduate school in the STEM disciplines, 16.5% (10) have graduated and are in the STEM workforce, and 65.5% (40) continue to pursue their STEM degrees. All of the REU Scholars have made oral and poster presentations at local, region, and/or national conferences. Five of them have won first place recognition for their research, and three students will be co-authors for three peer-reviewed publications and two book chapters. (This program is supported by NSF REU grant #1062934.)

Women in STEM: The Effect of Undergraduate Research on Persistence

NASA Astrophysics Data System (ADS)

Wilker, Jodi

The underrepresentation of women in science, technology, engineering, and math (STEM) careers constitutes a major issue in postsecondary science education. Perseverance of women in STEM is linked to a strong science identity. Experiential learning activities, such as undergraduate research, increase science identity and thus should help keep women in STEM. Most studies on research program development are from 4-year institutions, yet many women start at community colleges. The goal of this study was to fill this gap. Science identity and experiential learning theories provided the framework for this case study at a local institution (LECC). Semistructured interviews determined college science faculty and administrators perceptions of advantages and disadvantages of undergraduate research, the viability of developing a research program, and specific research options feasible for LECC. Transcripted data were analyzed through multiple rounds of coding yielding five themes: faculty perception of undergraduate research, authentic experiences, health technologies/nursing programs, LECC students career focus, and the unique culture at LECC. The most viable type of undergraduate research for LECC is course-based and of short timeframe. The project study advocates the use of citizen science (CS) studies in the classroom as they are relatively short-term and can take the place of lab sessions. The true benefit is that students perform authentic science by contributing to an actual scientific research project. CS projects can effect social change by developing science literate citizens, empowering faculty to create authentic learning experiences, and by sparking interest in science and directing women into STEM careers.

Does Curriculum Practical Training Affect Engineers' Workplace Outcomes? Evidence from an Engineer Survey in China

ERIC Educational Resources Information Center

Li, Jing; Zhang, Yu; Tsang, Mun; Li, Manli

2015-01-01

With the increasing attention to STEM (Science, Technology, Engineering, and Math), hands-on Curriculum Practical Training (CPT) has been expanding rapidly worldwide as a requirement of the undergraduate engineering education. In China, a typical CPT for undergraduate engineering students requires several weeks of hands-on training in the…

Effects of a Research-Infused Botanical Curriculum on Undergraduates' Content Knowledge, STEM Competencies, and Attitudes toward Plant Sciences

ERIC Educational Resources Information Center

Ward, Jennifer Rhode; Clarke, H. David; Horton, Jonathan L.

2014-01-01

In response to the American Association for the Advancement of Science's Vision and Change in Undergraduate Biology Education initiative, we infused authentic, plant-based research into majors' courses at a public liberal arts university. Faculty members designed a financially sustainable pedagogical approach, utilizing vertically integrated…

Student Learning Outcomes from a Pilot Medical Innovations Course with Nursing, Engineering, and Biology Undergraduate Students

ERIC Educational Resources Information Center

Ludwig, Patrice M.; Nagel, Jacquelyn K.; Lewis, Erica J.

2017-01-01

Background: Preparing today's undergraduate students from science, technology, engineering, and math (STEM) and related health professions to solve wide-sweeping healthcare challenges is critical. Moreover, it is imperative that educators help students develop the capabilities needed to meet those challenges, including problem solving,…

Skill-Based Teaching for Undergraduate STEM Majors

ERIC Educational Resources Information Center

Davidovitch, Nitza; Shiller, Zvi

2016-01-01

This article presents a case study that illustrates the paradigmatic shift in higher education from content-centered teaching to learning-centered academic programs. This pragmatic change, triggered by the STEM movement, calls for the introduction of success measures in the course development process. The course described in this paper illustrates…

Developing Professional Skills in Undergraduate Engineering Students through Cocurricular Involvement

ERIC Educational Resources Information Center

Fisher, Dara R.; Bagiati, Aikaterini; Sarma, Sanjay

2017-01-01

As nations have sought to keep pace with rapid technological innovation, governments have renewed their focus on science, technology, engineering, and mathematics (STEM) education, with emphasis on developing both technical and non-technical skills in STEM students. This article examines which engineering-relevant skills may be developed by…

Examining Department Climate for Women in Engineering: The Role of STEM Interventions

ERIC Educational Resources Information Center

Rincón, Blanca E.; George-Jackson, Casey E.

2016-01-01

Women comprise over half of the total undergraduate population in the United States (National Center for Education Statistics, 2014), yet remain underrepresented in a number of science, technology, engineering, and mathematics (STEM) fields (National Science Foundation [NSF], 2014). Although women have steadily increased their representation in…

A broadly implementable research course in phage discovery and genomics for first-year undergraduate students.

PubMed

Jordan, Tuajuanda C; Burnett, Sandra H; Carson, Susan; Caruso, Steven M; Clase, Kari; DeJong, Randall J; Dennehy, John J; Denver, Dee R; Dunbar, David; Elgin, Sarah C R; Findley, Ann M; Gissendanner, Chris R; Golebiewska, Urszula P; Guild, Nancy; Hartzog, Grant A; Grillo, Wendy H; Hollowell, Gail P; Hughes, Lee E; Johnson, Allison; King, Rodney A; Lewis, Lynn O; Li, Wei; Rosenzweig, Frank; Rubin, Michael R; Saha, Margaret S; Sandoz, James; Shaffer, Christopher D; Taylor, Barbara; Temple, Louise; Vazquez, Edwin; Ware, Vassie C; Barker, Lucia P; Bradley, Kevin W; Jacobs-Sera, Deborah; Pope, Welkin H; Russell, Daniel A; Cresawn, Steven G; Lopatto, David; Bailey, Cheryl P; Hatfull, Graham F

2014-02-04

Engaging large numbers of undergraduates in authentic scientific discovery is desirable but difficult to achieve. We have developed a general model in which faculty and teaching assistants from diverse academic institutions are trained to teach a research course for first-year undergraduate students focused on bacteriophage discovery and genomics. The course is situated within a broader scientific context aimed at understanding viral diversity, such that faculty and students are collaborators with established researchers in the field. The Howard Hughes Medical Institute (HHMI) Science Education Alliance Phage Hunters Advancing Genomics and Evolutionary Science (SEA-PHAGES) course has been widely implemented and has been taken by over 4,800 students at 73 institutions. We show here that this alliance-sourced model not only substantially advances the field of phage genomics but also stimulates students' interest in science, positively influences academic achievement, and enhances persistence in science, technology, engineering, and mathematics (STEM) disciplines. Broad application of this model by integrating other research areas with large numbers of early-career undergraduate students has the potential to be transformative in science education and research training. Engagement of undergraduate students in scientific research at early stages in their careers presents an opportunity to excite students about science, technology, engineering, and mathematics (STEM) disciplines and promote continued interests in these areas. Many excellent course-based undergraduate research experiences have been developed, but scaling these to a broader impact with larger numbers of students is challenging. The Howard Hughes Medical Institute (HHMI) Science Education Alliance Phage Hunting Advancing Genomics and Evolutionary Science (SEA-PHAGES) program takes advantage of the huge size and diversity of the bacteriophage population to engage students in discovery of new viruses, genome annotation, and comparative genomics, with strong impacts on bacteriophage research, increased persistence in STEM fields, and student self-identification with learning gains, motivation, attitude, and career aspirations.

Aligning Practice to Policies: Changing the Culture to Recognize and Reward Teaching at Research Universities.

PubMed

Dennin, Michael; Schultz, Zachary D; Feig, Andrew; Finkelstein, Noah; Greenhoot, Andrea Follmer; Hildreth, Michael; Leibovich, Adam K; Martin, James D; Moldwin, Mark B; O'Dowd, Diane K; Posey, Lynmarie A; Smith, Tobin L; Miller, Emily R

2017-01-01

Recent calls for improvement in undergraduate education within STEM (science, technology, engineering, and mathematics) disciplines are hampered by the methods used to evaluate teaching effectiveness. Faculty members at research universities are commonly assessed and promoted mainly on the basis of research success. To improve the quality of undergraduate teaching across all disciplines, not only STEM fields, requires creating an environment wherein continuous improvement of teaching is valued, assessed, and rewarded at various stages of a faculty member's career. This requires consistent application of policies that reflect well-established best practices for evaluating teaching at the department, college, and university levels. Evidence shows most teaching evaluation practices do not reflect stated policies, even when the policies specifically espouse teaching as a value. Thus, alignment of practice to policy is a major barrier to establishing a culture in which teaching is valued. Situated in the context of current national efforts to improve undergraduate STEM education, including the Association of American Universities Undergraduate STEM Education Initiative, this essay discusses four guiding principles for aligning practice with stated priorities in formal policies: 1) enhancing the role of deans and chairs; 2) effectively using the hiring process; 3) improving communication; and 4) improving the understanding of teaching as a scholarly activity. In addition, three specific examples of efforts to improve the practice of evaluating teaching are presented as examples: 1) Three Bucket Model of merit review at the University of California, Irvine; (2) Evaluation of Teaching Rubric, University of Kansas; and (3) Teaching Quality Framework, University of Colorado, Boulder. These examples provide flexible criteria to holistically evaluate and improve the quality of teaching across the diverse institutions comprising modern higher education. © 2017 M. Dennin et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Mobilizing the Forgotten Army: Improving Undergraduate Math and Science Education through Professional Development of Graduate Teaching Assistants

NASA Astrophysics Data System (ADS)

Gerton, Jordan

Evidence-based best practices for improving undergraduate STEM education abound. Unfortunately, these practices have not been widely adopted, in part because typical dissemination efforts are mediated in a top-down fashion and fail to obtain critical buy-in from key local stakeholders. Here, we present a novel framework to increase nationwide uptake of STEM-education best practices through grassroots propagation of Professional Development programs for Graduate Teaching Assistants (GTA-PD). Our model pays special attention to overcoming resistance to change by soliciting, from the very start, critical buy-in from departmental chairs, faculty, and GTAs who have direct control over and responsibility for instruction. A key component of our approach involves an annual National GTA Workshop where faculty-GTA leadership teams from many different Physics and Chemistry departments come together to develop best-practices-based GTA-PD improvement plans for their own departments while guided by a core group of nationally recognized expert practitioners in GTA-PD and STEM education. As a pre-condition for participation, each department chair must pledge to facilitate implementation of their leadership team's plan; additional and ongoing support is provided by the core group of experts, together with other teams from the workshop cohort. Our initial pilot efforts point to success via enthusiastic buy-in within each STEM department due to the potential for immediate positive impacts on both undergraduate instruction and the long term research productivity of GTAs. In the future, longitudinal data on the progress of the GTA-PD programs will be gathered and analyzed to provide guidance for improving the success of future GTA-PD programs. Financial support provided by the Research Corporation for Science Advancement and the American Chemical Society.

Accelerated Integrated Science Sequence: Interdisciplinary Undergraduate Science for the 21st Century

ERIC Educational Resources Information Center

Ulsh, Lisa S.

2011-01-01

Numerous reports cite the need to improve the quality of undergraduate STEM education in order to attract and train a diverse pool of talented students prepared to meet the scientific and technological challenges of the 21st century. A growing body of research reveals that the nature and quality of science instruction in introductory college…

The Integration of Research, Teaching, and Learning: Preparation of the Future STEM Faculty

NASA Astrophysics Data System (ADS)

Jariwala, Manher

Graduate students at research universities shape the future of STEM undergraduate education in the United States. These future faculty flow into the STEM faculties of several thousand research universities, comprehensive universities, liberal arts colleges, and community and tribal colleges. The Center for the Integration of Research, Teaching, and Learning (CIRTL) uses graduate education as the leverage point to develop STEM faculty with the capability and commitment to implement and improve effective teaching and learning practices. CIRTL has developed, implemented, and evaluated successful strategies based on three core ideas: teaching-as-research, learning communities, and learning-through-diversity. A decade of research demonstrates that STEM future faculty participating in CIRTL learning communities understand, use, and advance high-impact teaching practices. Today the CIRTL Network includes 43 research universities. Ultimately, CIRTL seeks a national STEM faculty who enable all students to learn effectively and achieve STEM literacy, whose teaching enhances recruitment into STEM careers, and whose leadership ensures continued advancement of STEM education.

Promoting Undergraduate STEM Education at a Historically Black College and University through Research Experience

ERIC Educational Resources Information Center

Fakayode, Sayo O.; Yakubu, Mamudu; Adeyeye, Olasumbo M.; Pollard, David A.; Mohammed, Abdul K.

2014-01-01

Diversification of our country's science talent pool is critically needed and can only be achieved by stimulating interest in science, technology, engineering, and mathematics (STEM) among students from a wide variety of cultural backgrounds. However, motivating, increasing the number, improving retention rates, and graduation rates of…

Designing for Success in STEM Communities of Practice: Philosophy and Personal Interactions

ERIC Educational Resources Information Center

Kezar, Adrianna; Gehrke, Sean; Bernstein-Sierra, Samantha

2017-01-01

For the past 20 years, countless reports have been issued calling for reform of undergraduate education to improve student learning, persistence, and graduation rates for students in science, technology, engineering, and mathematics (STEM) majors. However, by many measures, recommendations in these reports have not been widely implemented. While…

Technology to Advance High School and Undergraduate Students with Disabilities in Science, Technology, Engineering, and Mathematics

ERIC Educational Resources Information Center

Leddy, Mark H.

2010-01-01

Americans with disabilities are underemployed in science, technology, engineering and mathematics (STEM) at higher rates than their nondisabled peers. This article provides an overview of the National science Foundation's Research in Disabilities Education (RDE) program, of technology use by students with disabilities (SWD) in STEM, and of…

Challenging Disciplinary Boundaries in the First Year: A New Introductory Integrated Science Course for STEM Majors

ERIC Educational Resources Information Center

Gentile, Lisa; Caudill, Lester; Fetea, Mirela; Hill, April; Hoke, Kathy; Lawson, Barry; Lipan, Ovidiu; Kerckhove, Michael; Parish, Carol; Stenger, Krista; Szajda, Doug

2012-01-01

To help undergraduates make connections among disciplines so they are able to approach, evaluate, and contribute to the solutions of important global problems, our campus has been focused on interdisciplinary research and education opportunities across the science, technology, engineering, and mathematics (STEM) disciplines. This paper describes…

Education for Professional Engineering Practice

ERIC Educational Resources Information Center

Bramhall, Mike D.; Short, Chris

2014-01-01

This paper reports on a funded collaborative large-scale curriculum innovation and enhancement project undertaken as part of a UK National Higher Education Science, Technology Engineering and Mathematics (STEM) programme. Its aim was to develop undergraduate curricula to teach appropriate skills for professional engineering practice more…

Foreign Language Learning: Strategies in the Context of STEM Education (Estrategias de Aprendizaje de Lenguas Extranjeras en el Contexto de la Educación STEM)

ERIC Educational Resources Information Center

Han, Turgay

2015-01-01

This study aims at providing an insightful evaluation of the EFL strategies used by first-year STEM (science, technology, engineering, and mathematics) students, and their perceptions of their own use of strategies. The 147 participants were undergraduate level, first-year engineering students at a state university in Turkey. Their ages ranged…

College admissions viewbooks and the grammar of gender, race, and STEM

NASA Astrophysics Data System (ADS)

Osei-Kofi, Nana; Torres, Lisette E.

2015-06-01

Numerous reports on the US economy argue that American higher education institutions must prepare a greater number of workers for employment in science, technology, engineering, and math (STEM), in order for the US to remain globally competitive. To do so, addressing the underrepresentation of women and people of color who pursue degrees in STEM is viewed as critical. In this study we examine one of the most widespread marketing tools used by institutions of higher education to attract prospective students, the admissions viewbook. Specifically, we provide an analysis of the ways in which gender and race are situated in representations of undergraduate STEM education. Our findings, based on a critical and visual textual analysis of 20 viewbooks, suggest that viewbooks convey strong messages concerning race, gender, and issues of belonging, hierarchy, power, and privilege in STEM.

Designing Performance-Based Measures to Assess the Scientific Thinking Skills of Chemistry Undergraduate Researchers

ERIC Educational Resources Information Center

Harsh, Joseph A.

2016-01-01

Undergraduate research (UR) is a vetted educational tool that is commonly perceived to prepare students for entering graduate school and careers in STEM fields; however, scholarly attention to date has largely relied on self-report data, which may limit inferences about the causal effects on student outcomes. In light of this, recent calls have…

Engaging Actively with Issues in the Responsible Conduct of Science: Lessons from International Efforts Are Relevant for Undergraduate Education in the United States

ERIC Educational Resources Information Center

Clements, John D.; Connell, Nancy D.; Dirks, Clarissa; El-Faham, Mohamed; Hay, Alastair; Heitman, Elizabeth; Stith, James H.; Bond, Enriqueta C.; Colwell, Rita R.; Anestidou, Lida; Husbands, Jo L.; Labov, Jay B.

2013-01-01

Numerous studies are demonstrating that engaging undergraduate students in original research can improve their achievement in the science, technology, engineering, and mathematics (STEM) fields and increase the likelihood that some of them will decide to pursue careers in these disciplines. Associated with this increased prominence of research in…

Factors that Influence STEM-Promising Females' Decision to Attend a Non Research-Intensive Undergraduate Institution

ERIC Educational Resources Information Center

Miller, Roxanne Greitz; Hurlock, Ashley J.

2017-01-01

Non research-intensive institutions of higher education are effective at narrowing STEM gender gaps in major selection and persistence to degree completion, yet the decision to attend such a setting is likely seen as counterintuitive when such institutions typically have lower levels of research, financial resources, and total student enrollments…

Cross-Cultural and Global Interdependency Development in STEM Undergraduate Students: Results from Singapore Study Abroad Program

ERIC Educational Resources Information Center

Alexis, Frank; Casco, M.; Martin, J.; Zhang, G.

2017-01-01

The goal of study abroad programs is to educate and train future global leaders. This article examines the effectiveness of Clemson University's Singapore Study Abroad program in meeting this goal by exposing students to global perspectives of science technology, engineering and math (STEM) research and learning through an international summer…

The influence of parents on undergraduate and graduate students' entering the STEM disciplines and STEM careers

NASA Astrophysics Data System (ADS)

Craig, Cheryl J.; Verma, Rakesh; Stokes, Donna; Evans, Paige; Abrol, Bobby

2018-04-01

This research examines the influence of parents on students' studying the STEM disciplines and entering STEM careers. Cases of two graduate students (one female, one male) and one undergraduate student (male) are featured. The first two students in the convenience sample are biology and physics majors in a STEM teacher education programme; the third is enrolled in computer science. The narrative inquiry research method is used to elucidate the students' academic trajectories. Incidents of circumstantial and planned parent curriculum making surfaced when the data was serially interpreted. Other themes included: (1) relationships between (student) learners and (teacher) parents, (2) invitations to inquiry, (3) modes of inquiry, (4) the improbability of certainty, and (5) changed narratives = changed lives. While policy briefs provide sweeping statements about parents' positive effects on their children, narrative inquiries such as this one illuminate parents' inquiry moves within home environments. These actions became retrospectively revealed in their adult children's lived narratives. Nurtured by their mothers and/or fathers, students enter STEM disciplines and STEM-related careers through multiple pathways in addition to the anticipated pipeline.

Exploring the undergraduate experience of Latina students in Science, Technology, Engineering, and Mathematics (STEM) majors: Motivators and strategies for achieving baccalaureate attainment

NASA Astrophysics Data System (ADS)

Carbajal, Sandy C.

Drawing from Latino/a Critical Race Theory and the related Community Cultural Wealth (CCW) model, I concentrate on three forms of CCW---aspirational, navigational, and resistance capital---for this qualitative study on the undergraduate experience of Latina students in Science, Technology, Engineering, and Mathematics (STEM) majors, focusing on strategies and achieving baccalaureate attainment. I interviewed ten Latina students and asked them questions regarding their educational experiences in STEM majors, what contributed to their degree completion, and the strategies they employed for achieving baccalaureate attainment. I identified and described six themes within the study (the underrepresentation of Latinas in STEM majors, the lack of preparation by academic programs for upper division courses, motivators, involvement, time management, and support networks) that, when combined, contributed to participants' degree attainment. This study concludes with implications for policy and practice that would allow universities to better assist Latinas in STEM majors to achieve baccalaureate attainment.

Robotics Laboratory to Enhance the STEM Research Experience

DTIC Science & Technology

2015-04-30

the Chemistry Program has a student working on the design and development of a Stirling Engine , which the student is planning to construct using...scale): Number of graduating undergraduates funded by a DoD funded Center of Excellence grant for Education, Research and Engineering : The number of... engineering or technology fields: Student Metrics This section only applies to graduating undergraduates supported by this agreement in this reporting

Reforming a Large Foundational Course: Successes and Challenges

ERIC Educational Resources Information Center

Talanquer, Vicente; Pollard, John

2017-01-01

Calls for educational reform in undergraduate STEM education have become more prominent in recent years, particularly in introductory/foundational courses. Such reform efforts were initiated 10 years ago in the general chemistry program at the University of Arizona. In this contribution, we describe the major successes and challenges encountered…

Analysis of the NSF IUSE Physics & Astronomy Education Portfolio

NASA Astrophysics Data System (ADS)

Lee, Kevin M.

2017-01-01

The National Science Foundation’s IUSE:EHR (Improving Undergraduate STEM Education) Program is now over 3 years old. This presentation will describe the characteristics of the awards presently in the physics & astronomy portfolio. Awards will be described based upon a) general characteristics (duration, total funding, PI rank, type of institution, etc.), b) applicability (intended audience, level, and arena of implementation), c) nature of project (educational research, practical implementation, or both), and d) pedagogical focus (curriculum, STEM recruitment, STEM retention, information collection, and tools and/or skills development). General trends and exemplars will be identified as well as voids in the portfolio. Understanding what has been funded will help attendees design future proposals that will make innovative contributions to the portfolio.

Undergraduate Research Experience for STEM Students: Efforts and Outcomes

ERIC Educational Resources Information Center

Zhang, Chuanlei; Swaid, Samar

2017-01-01

Undergraduate research for STEM students involves students who are attending college or universities pursuing a bachelor's degree, majoring in fields related to Science, Technology, Engineering and Mathematics (STEM). Research experience for STEM undergraduates has been viewed as a positive experience that has several benefits such as developing…

Overcoming Barriers in Access to High Quality Education after Matriculation: Promoting Strategies and Tactics for Engagement of Underrepresented Groups in Undergraduate Research via Institutional Diversity Action Plans

ERIC Educational Resources Information Center

Pierszalowski, Sophie; Vue, Rican; Bouwma-Gearhart, Jana

2018-01-01

Considerable work is still required to eliminate disparities in postsecondary STEM persistence and success across student groups. Engagement in faculty-mentored research has been employed as one strategy to promote personal, professional, and academic gains for undergraduate students, although barriers exist that make it more difficult for some to…

Vision, Identity, and Career in the Clinical and Translational Sciences: Building upon the Formative Years.

PubMed

Manson, Spero M; Martinez, Dominic F; Buchwald, Dedra S; Rubio, Doris M; Moss, Marc

2015-10-01

This paper is the second in a five-part series on the clinical and translational science educational pipeline. It focuses on the role that Clinical and Translational Science Award (CTSA) programs can play in supporting science, technology, engineering, and math (STEM) education in primary and secondary schools, as well as in facilitating these interests during transition to undergraduate training. Special emphasis should be placed on helping to form and sustain an identity as a scientist, and on instilling the persistence necessary to overcome numerous barriers to its actualization. CTSAs can contribute to cementing this sense of self by facilitating peer support, mentorship, and family involvement that will reinforce early educational decisions leading to clinical and translational science research careers. Meanwhile, the interests, skills, and motivation induced by participation in STEM programs must be sustained in transition to the next level in the educational pipeline, typically undergraduate study. Examples of CTSA collaborations with local schools, businesses, interest groups, and communities at large illustrate the emerging possibilities and promising directions with respect to each of these challenges. © 2015 Wiley Periodicals, Inc.

Vision, Identity, and Career in the Clinical and Translational Sciences: Building upon the Formative Years

PubMed Central

Martinez, Dominic F.; Buchwald, Dedra S.; Rubio, Doris M.; Moss, Marc

2015-01-01

Abstract This paper is the second in a five‐part series on the clinical and translational science educational pipeline. It focuses on the role that Clinical and Translational Science Award (CTSA) programs can play in supporting science, technology, engineering, and math (STEM) education in primary and secondary schools, as well as in facilitating these interests during transition to undergraduate training. Special emphasis should be placed on helping to form and sustain an identity as a scientist, and on instilling the persistence necessary to overcome numerous barriers to its actualization. CTSAs can contribute to cementing this sense of self by facilitating peer support, mentorship, and family involvement that will reinforce early educational decisions leading to clinical and translational science research careers. Meanwhile, the interests, skills, and motivation induced by participation in STEM programs must be sustained in transition to the next level in the educational pipeline, typically undergraduate study. Examples of CTSA collaborations with local schools, businesses, interest groups, and communities at large illustrate the emerging possibilities and promising directions with respect to each of these challenges. PMID:26271774

Early Engagement in Course-Based Research Increases Graduation Rates and Completion of Science, Engineering, and Mathematics Degrees

PubMed Central

Rodenbusch, Stacia E.; Hernandez, Paul R.; Simmons, Sarah L.; Dolan, Erin L.

2016-01-01

National efforts to transform undergraduate biology education call for research experiences to be an integral component of learning for all students. Course-based undergraduate research experiences, or CUREs, have been championed for engaging students in research at a scale that is not possible through apprenticeships in faculty research laboratories. Yet there are few if any studies that examine the long-term effects of participating in CUREs on desired student outcomes, such as graduating from college and completing a science, technology, engineering, and mathematics (STEM) major. One CURE program, the Freshman Research Initiative (FRI), has engaged thousands of first-year undergraduates over the past decade. Using propensity score–matching to control for student-level differences, we tested the effect of participating in FRI on students’ probability of graduating with a STEM degree, probability of graduating within 6 yr, and grade point average (GPA) at graduation. Students who completed all three semesters of FRI were significantly more likely than their non-FRI peers to earn a STEM degree and graduate within 6 yr. FRI had no significant effect on students’ GPAs at graduation. The effects were similar for diverse students. These results provide the most robust and best-controlled evidence to date to support calls for early involvement of undergraduates in research. PMID:27252296

Effects of Curriculum and Nonacademic Factors on Undergraduate Electronic Engineering Program Retention

NASA Astrophysics Data System (ADS)

Sulaiman, Munir

Science, technology, engineering, and mathematics (STEM) programs in higher education institutions, particularly engineering programs, face challenges related to recruitment, retention, and graduation rates. The purpose of this study was to determine whether there are significant relationships among students' major preference, academic skills, nonacademic characteristics and perceptions, and retention to year 2 among students in electronic engineering, other STEM, and non STEM majors. The academic skills considered were study habits, intellectual interest, verbal and writing confidence, and academic assistance. The non-academic factors included academic support, family support, financial support, and student social integration into the campus environment. Tinto's theory of retention served as the theoretical framework. The research design was quantitative with a general linear method of analysis using responses to the College Student Inventory (CSI) survey as secondary data to determine the relationships among the independent variables (major and academic and non-academic factors) and dependent variable (retention). Participants were 3,575 first year undergraduate full-time students from three entering classes, 2012 to 2014. Findings suggested that student major and non-academic factors had no effect on student retention, but student study habits and seeking academic assistance were predictors of retention in each of the three groups of majors: engineering, other STEM majors, and nonSTEM majors. Strategies to help increase undergraduate students' study skills and help seeking behaviors may contribute to positive social change at HBCU institutions.

Minority Undergraduate Research in Prostate Cancer: Bridging Opportunities for Postbaccalaureate Education

DTIC Science & Technology

2012-03-01

students  were  assigned  to  read  both  popular  and   scientific  literature  regarding  the   genetic ,  socio...Biochemistry, Soma Jobbagy, BS Biochemistry, and Erica Boetefuer, Biological Sciences Judging Rubrics for the ASBMB Undergraduate Poster Competition 2007...Bruce Boman, Biological Sciences Role of miRNAs in Regulating Colon Cancer Stem Cells 37) Carrie Barnum and Jennifer Sabatino, Genetics Zohra Ali-Khan

The Impact of the Design Process on Student Self-Efficacy and Content Knowledge

NASA Astrophysics Data System (ADS)

Gess, Ashley J. H.

The United States of America needs STEM trained workers, STEM faculty and STEM professionals to improve its technical and professional workforce in order to maintain leadership in a global economy. However, American students are not opting to remain in a STEM course of study, and this is especially so for women and minorities. Of the students who pursue postsecondary education, the majority of movement away from STEM majors occurs in the first two years. Thus, educators are concerned with investigating factors that may influence students' persistence and success when in a STEM track of learning. To that end, this quasi-experimental mixed-method study was concerned with investigating the effects of participation in the design process on student self-efficacy and content knowledge gains in an undergraduate anatomy and physiology laboratory. Over fifty students participated in a design task that paralleled the topic being studied in a given semester and were given efficacy surveys along with lab practicums. Qualitative efficacy data, quantitative efficacy data and quantitative practicum results were analyzed and triangulated to produce a meta-inference as to the effect of participation in the design project had on student learning. Preliminary results indicate that the design process makes statistically significant impacts on both self-efficacy and content knowledge in the given context. The author follows with a discussion of the impact of design-based learning in the undergraduate biology classroom and implications for further research are considered.

Pursuit of STEM: Factors shaping degree completion for African American females in STEM

NASA Astrophysics Data System (ADS)

Wilkins, Ashlee N.

The primary purpose of the study was to examine secondary data from the Cooperative Institutional Research Program (CIRP) Freshman and College Senior Surveys to investigate factors shaping degree aspirations for African American female undergraduates partaking in science, technology, engineering, and mathematics (STEM) majors. Hierarchical multiple regression was used to analyze the data and identify relationships between independent variables in relation to the dependent variable. The findings of the study reveal four key variables that were predictive of degree completion for African American females in STEM. Father's education, SAT composite, highest degree planned, and self-perception were positive predictors for females; while independent variable overall sense of community among students remained a negative predictor. Lastly implications for education and recommendations for future research were discussed.

Predicting Undergraduates' Persistence in Science, Technology, Engineering, and Math Fields

NASA Astrophysics Data System (ADS)

Koch, Amanda Joy

A national shortage of workers in Science, Technology, Engineering, and Math (STEM) occupations has led to efforts to identify why people leave these fields. Lower persistence rates in STEM for females than for males have also led to examinations of features that cause females to leave STEM fields. The current study examines individual- and school-level features that influence undergraduate students' decisions to leave STEM majors, focusing on potential explanations for why females are more likely than males to leave. Persistence in STEM was examined in three samples: (a) persistence through the second year of college in a sample of high school seniors interested in STEM majors; (b) persistence through the fourth year of college in a sample of second year undergraduate STEM majors; and (c) persistence through the second, third, and fourth years of college in a sample of high school seniors interested in STEM majors. Differences between persistence in male-dominated and non-male-dominated STEM majors were also examined. In all samples, gender differences were found for most individual-level predictors, with males tending to score higher than females on measures such as SAT-Math, self-rated STEM ability, and high school extracurricular activities and awards in STEM. On the other hand, females earned better high school grades and had stronger relative non-STEM ability and achievement than males. Bivariate analyses indicated that those who persisted in STEM majors typically had higher scores than those who did not persist for SAT-Math, high school achievement, STEM course taking, undergraduate STEM grades, self-rated STEM ability, interest in STEM, extracurricular activities and awards in STEM, degree goals, and socioeconomic status. Multivariate analyses identified SAT-Math as one of the best predictors of persistence in high school samples, and undergraduate STEM GPA was one of the best predictors in the samples of second year undergraduates. In several samples, a significant cross-level interaction was found between gender and undergraduate females' college-level proportional representation in STEM; however, the effects were inconsistent across samples. Even when controlling for various individual- and school-level predictors, gender effects tended to remain significant, with females in most samples leaving STEM majors at higher rates than males.

Influence of an Education Abroad Program on the Intercultural Sensitivity of STEM Undergraduates: A Mixed Methods Study

ERIC Educational Resources Information Center

Demetry, Chrysanthe; Vaz, Richard F.

2017-01-01

Education abroad programs are becoming more common as a mechanism for developing the global competencies of engineering graduates. An increasing body of research shows that intercultural learning does not occur "de facto" in such programs. This study used quantitative and qualitative methods to explore changes in students' intercultural…

Early Engagement in Course-Based Research Increases Graduation Rates and Completion of Science, Engineering, and Mathematics Degrees.

PubMed

Rodenbusch, Stacia E; Hernandez, Paul R; Simmons, Sarah L; Dolan, Erin L

2016-01-01

National efforts to transform undergraduate biology education call for research experiences to be an integral component of learning for all students. Course-based undergraduate research experiences, or CUREs, have been championed for engaging students in research at a scale that is not possible through apprenticeships in faculty research laboratories. Yet there are few if any studies that examine the long-term effects of participating in CUREs on desired student outcomes, such as graduating from college and completing a science, technology, engineering, and mathematics (STEM) major. One CURE program, the Freshman Research Initiative (FRI), has engaged thousands of first-year undergraduates over the past decade. Using propensity score-matching to control for student-level differences, we tested the effect of participating in FRI on students' probability of graduating with a STEM degree, probability of graduating within 6 yr, and grade point average (GPA) at graduation. Students who completed all three semesters of FRI were significantly more likely than their non-FRI peers to earn a STEM degree and graduate within 6 yr. FRI had no significant effect on students' GPAs at graduation. The effects were similar for diverse students. These results provide the most robust and best-controlled evidence to date to support calls for early involvement of undergraduates in research. © 2016 S. Rodenbusch et al. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Motivational decline and recovery in higher education STEM courses

NASA Astrophysics Data System (ADS)

Young, Anna M.; Wendel, Paul J.; Esson, Joan M.; Plank, Kathryn M.

2018-06-01

Decline in student motivation is a concern for STEM education, especially for underrepresented groups in the sciences. Using the Science Motivation Questionnaire II, 41 foundational STEM courses were surveyed at the beginning and end of each semester in an academic year at a small primarily undergraduate university. Significant pre- to post-semester declines were observed in each of five measured motivational factors (Intrinsic motivation, Career motivation, Self determination, Self-efficacy, and Grade motivation), with effect sizes ranging from 0.21 to 0.41. However, in the second semester pre-survey, four motivational factors rebounded, including three returning to initial levels, suggesting that the observed motivational decline is not long-lasting. Analysis suggests that declines are not related to survey fatigue or student demographics, but rather to grades and, in the case of one motivational factor, to academic field. These findings suggest that a refocus on grading practices across STEM fields may influence student motivation and persistence in STEM.

Male students give voice to supportive campus environments: A qualitative case study of undergraduate STEM majors

NASA Astrophysics Data System (ADS)

Amon, Julie L.

Research supports the importance of student engagement in enhancing student learning, success, and various desirable educational outcomes. In the last decade, the National Survey of Student Engagement (NSSE) has been the primary instrument through which student engagement has been explored. Supportive Campus Environment, one of the five benchmarks of effective educational practice measured by NSSE, served as the foundation for this study. The challenge of successfully educating students in science, technology, engineering, and mathematics (STEM) disciplines has been clearly documented. Recently, urgent calls have been issued to confront the shortage of students in the STEM pipeline, to minimize barriers to the achievement in STEM disciplines, and to increase the representation of racial minorities and women in STEM careers. This study employed a holistic collective case study design to examine how undergraduate men in STEM majors at a private, selective, research institution perceived the supportiveness of their campus environments. Differential perceptions of the campus environment on the basis of race (Black, Indian1, Latino, and White) and academic success were explored. Cross-case analysis revealed several common themes across all cases. Peer relationships, followed by faculty relationships, were most influential in shaping perceptions of campus environment. Race, academic success, and characteristics unique to STEM were less influential to perceptions of the campus environment. Participants distinguished feelings of a supportive campus environment from their overall perceptions of their campus environment. Further, participants routinely isolated some of their identities, experiences, and perceptions from influencing their overall perception of the campus environment. A connection between the concept of supportive campus environment and sense of belonging emerged. Participants' discussion of the NSSE Supportive Campus Environment questions provided valuable insight into student perceptions and the NSSE instrument. Implications include recommendations for future research, considerations for NSSE administrators, researchers, and institutional users, policy and practice implications, suggestions for faculty, and considerations for those invested in STEM education. 1Indian refers to students who are citizens or Permanent Residents of the United States, who trace their racial/ethnic origin to India. International students from India were not included in this study, nor were Native American or American Indian students.

How Mockups, a Key Engineering Tool, Help to Promote Science, Technology, Engineering, and Mathematics Education

NASA Technical Reports Server (NTRS)

McDonald, Harry E.

2010-01-01

The United States ranking among the world in science, technology, engineering, and mathematics (STEM) education is decreasing. To counteract this problem NASA has made it part of its mission to promote STEM education among the nation s youth. Mockups can serve as a great tool when promoting STEM education in America. The Orion Cockpit Working Group has created a new program called Students Shaping America s Next Space Craft (SSANS) to outfit the Medium Fidelity Orion Mockup. SSANS will challenge the students to come up with unique designs to represent the flight design hardware. There are two main types of project packages created by SSANS, those for high school students and those for university students. The high school projects will challenge wood shop, metal shop and pre-engineering classes. The university projects are created mainly for senior design projects and will require the students to perform finite element analysis. These projects will also challenge the undergraduate students in material selection and safety requirements. The SSANS program will help NASA in its mission to promote STEM education, and will help to shape our nations youth into the next generation of STEM leaders.

Creating a More Inclusive Talent Pool for the GeoSciences in NOAA Mission Fields:

NASA Astrophysics Data System (ADS)

Rousseau, J.; Trotman, A. A.

2014-12-01

The National Oceanic and Atmospheric Administration (NOAA) Educational Partnership Program (EPP) with Minority Serving Institutions (MSI) is recognized as a model federal Science, Technology, Engineering, and Mathematics, (STEM) education investment. The EPP has a premier goal of increasing the numbers of students, especially from underrepresented communities, who are trained and awarded degrees in NOAA mission-relevant STEM fields. This goal is being achieved through awards to support undergraduate and graduate level student scholarships and to enhance NOAA mission-relevant education, research and internships at EPP Cooperative Science Centers located at MSIs. The internships allow undergraduate students to gain technical experience in STEM fields while gaining an understanding of a science mission agency such as NOAA. EPP has built evidence supporting the value of internships with its Undergraduate Scholarship Program (USP). Program metrics are used to refine and improve the internship to ensure student success. Scholarships are competitively awarded and requires applicants to submit a personal statement detailing the NOAA-relevant professional experience the applicant seeks to acquire, and gauges the depth of understanding of the work of NOAA.A focus is the EPP USP Student Internship at NOAA, which has two training phases. The first occurs at NOAA HQ in Maryland and incorporates exposure to NOAA professional culture including mentoring and professional development for scholarship recipients. The second occurs at NOAA facilities in the 50 states and US Territories. The internship projects are conducted under the supervision of a NOAA mentor and allow the scholars to: acquire increased science and technology skills: be attached to a research group and participate in a research activity as part of the team; and, acquire practical experience and knowledge of the day-to-day work of the NOAA facility. EPP has recently initiated the Experiential Research and Training Opportunities (NERTO) for students from the CSCs. The NERTO is a longer term immersion at NOAA facilities, with a NOAA mentor working collaboratively with their academic advisor on a NOAA science priority. Consequently, the NERTO is strengthening the undergraduate to graduate education and workforce pipeline.

NASA GSFC Opportunities for STEM Professionals Using the Vantage Point of Space

NASA Technical Reports Server (NTRS)

Meeson, Blanche W.; Robbins, Geraldine B.

2012-01-01

NASA has a variety of learning opportunities for STEM professionals. Three opportunities at GSFC are examined in this chapter: 1) standard summer research and development internship for undergraduates, 2) senior internship for undergraduate and graduate students and 3) a workshop series for informal learning center professionals. We describe these programs, examine their evolution with respect to most effective education practices and their assessment and evaluation, and identify the similarities and differences between them. The internship programs highlight authentic project-based research and development experiences with the senior internship providing a richer, deeper, and more demanding experience that has greater professional value. The workshops for informal learning center professionals on-the-other hand, focus on building knowledge of GSFC s science and engineering strengths among these professionals, and on building enduring partnerships between individuals (participants and GSFC scientist, engineers and educators) and between organizations (GSFC and the informal learning center). Finally, we examine the characteristics of these programs from a design and management perspective. Through this examination we identify a general structure that provides insight into more effective design and management of similar education programs.

Black Undergraduate Women and Their Sense of Belonging in STEM at Predominantly White Institutions

ERIC Educational Resources Information Center

Dortch, Deniece; Patel, Chirag

2017-01-01

Because little work exists on the sense of belonging focusing on just Black undergraduate women in science, technology, engineering, and math (STEM), especially at highly selective predominantly white institutions (PWIs), this study takes a phenomenological approach to understand the lived experiences of Black undergraduate women in STEM by…

Resources to Transform Undergraduate Geoscience Education: Activities in Support of Earth, Oceans and Atmospheric Sciences Faculty, and Future Plans

NASA Astrophysics Data System (ADS)

Ryan, J. G.; Singer, J.

2013-12-01

The NSF offers funding programs that support geoscience education spanning atmospheric, oceans, and Earth sciences, as well as environmental science, climate change and sustainability, and research on learning. The 'Resources to Transform Undergraduate Geoscience Education' (RTUGeoEd) is an NSF Transforming Undergraduate Education in STEM (TUES) Type 2 special project aimed at supporting college-level geoscience faculty at all types of institutions. The project's goals are to carry out activities and create digital resources that encourage the geoscience community to submit proposals that impact their courses and classroom infrastructure through innovative changes in instructional practice, and contribute to making transformative changes that impact student learning outcomes and lead to other educational benefits. In the past year information sessions were held during several national and regional professional meetings, including the GSA Southeastern and South-Central Section meetings. A three-day proposal-writing workshop for faculty planning to apply to the TUES program was held at the University of South Florida - Tampa. During the workshop, faculty learned about the program and key elements of a proposal, including: the need to demonstrate awareness of prior efforts within and outside the geosciences and how the proposed project builds upon this knowledge base; need to fully justify budget and role of members of the project team; project evaluation and what matters in selecting a project evaluator; and effective dissemination practices. Participants also spent time developing their proposal benefitting from advice and feedback from workshop facilitators. Survey data gathered from workshop participants point to a consistent set of challenges in seeking grant support for a desired educational innovation, including poor understanding of the educational literature, of available funding programs, and of learning assessment and project evaluation. Many also noted that their institutions did not recognize the value of education-related scholarly activities, or undervaluing it compared to more traditional research activities. Given this reality, faculty desire strategies for balancing their time to allow time to pursue both. The current restructuring of NSF educational programs raises questions regarding future directions and the scale of support that may be available from the proposed Catalyzing Advances in Undergraduate STEM Education (CAUSE) Program. At the time of writing this abstract, specific details have not been communicated, but it appears that CAUSE could encompass components from several programs within the Division of Undergraduate Education's TUES, STEP, and WIDER programs, as well as the Geoscience Education and OEDG programs in the Geosciences Directorate. The RTUGeoEd project will continue to provide support to faculty seeking CAUSE (and other educational funding within DUE).

Using Polymer Semiconductors and a 3-in-1 Plastic Electronics STEM Education Kit to Engage Students in Hands-On Polymer Inquiry Activities

ERIC Educational Resources Information Center

Enlow, Jessica L.; Marin, Dawn M.; Walter, Michael G.

2017-01-01

To improve polymer education for 9-12 and undergraduate students, a plastic electronics laboratory kit using polymer semiconductors has been developed. The three-module kit and curriculum use polymer semiconductors to provide hands-on inquiry activities with overlapping themes of electrical conductivity, light emission, and light-harvesting solar…

Research and Teaching: Beyond Correctness--Using Qualitative Methods to Uncover Nuances of Student Learning in Undergraduate STEM Education

ERIC Educational Resources Information Center

Dósa, Katalin; Russ, Rosemary

2016-01-01

Learning in higher education today is measured overwhelmingly on the basis of "correctness," that is, whether students sufficiently approached the preset "expert" answer to a test question. We posit that although conceptual correctness is at the core of good learning, there is much information instructors miss out on by relying…

Hierarchical Mentoring: A Transformative Strategy for Improving Diversity and Retention in Undergraduate STEM Disciplines

NASA Astrophysics Data System (ADS)

Wilson, Zakiya S.; Holmes, Lakenya; Degravelles, Karin; Sylvain, Monica R.; Batiste, Lisa; Johnson, Misty; McGuire, Saundra Y.; Pang, Su Seng; Warner, Isiah M.

2012-02-01

In the United States, less than half of the students who enter into science, technology, engineering, and mathematics (STEM) undergraduate curricula as freshmen will actually graduate with a STEM degree. There is even greater disparity in the national STEM graduation rates of students from underrepresented groups with approximately three-fourths of minority students leaving STEM disciplines at the undergraduate level. A host of programs have been designed and implemented to model best practices in retaining students in STEM disciplines. The Howard Hughes Medical Institute (HHMI) Professors Program at Louisiana State University, under leadership of HHMI Professor Isiah M. Warner, represents one of these programs and reports on a mentoring model that addresses the key factors that impact STEM student attrition at the undergraduate level. By integrating mentoring and strategic academic interventions into a structured research program, an innovative model has been developed to guide STEM undergraduate majors in adopting the metacognitive strategies that allow them to excel in their programs of study, as they learn to appreciate and understand science more completely. Comparisons of the persistence of participants and nonparticipants in STEM curricular, at the host university and with other national universities and colleges, show the impact of the model's salient features on improving STEM retention through graduation for all students, particularly those from underrepresented groups.

Race and Gender Differences in Undergraduate Research Mentoring Structures and Research Outcomes.

PubMed

Aikens, Melissa L; Robertson, Melissa M; Sadselia, Sona; Watkins, Keiana; Evans, Mara; Runyon, Christopher R; Eby, Lillian T; Dolan, Erin L

2017-01-01

Participating in undergraduate research with mentorship from faculty may be particularly important for ensuring the persistence of women and minority students in science. Yet many life science undergraduates at research universities are mentored by graduate or postdoctoral researchers (i.e., postgraduates). We surveyed a national sample of undergraduate life science researchers about the mentoring structure of their research experiences and the outcomes they realized from participating in research. We observed two common mentoring structures: an open triad with undergraduate-postgraduate and postgraduate-faculty ties but no undergraduate-faculty tie, and a closed triad with ties among all three members. We found that men and underrepresented minority (URM) students are significantly more likely to report a direct tie to their faculty mentors (closed triad) than women, white, and Asian students. We also determined that mentoring structure was associated with differences in student outcomes. Women's mentoring structures were associated with their lower scientific identity, lower intentions to pursue a science, technology, engineering, and mathematics (STEM) PhD, and lower scholarly productivity. URM students' mentoring structures were associated with higher scientific identity, greater intentions to pursue a STEM PhD, and higher scholarly productivity. Asian students reported lower scientific identity and intentions to pursue a STEM PhD, which were unrelated to their mentoring structures. © 2017 M. L. Aikens et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Undergraduate women in STEM: Does participation in STEM extracurricular programs enhance success among students?

NASA Astrophysics Data System (ADS)

Price, Kasey Marie

Women have been underrepresented in the STEM fields since the 1650's to today (Hunter, 2005). This study examined the extracurricular participation of undergraduate women, in Fall 2009, using both quantitative and qualitative methods, who were majoring in at least one (1) of the 49 STEM majors at Southeastern State University participated in STEM extracurricular programs and if any specific program contributed to success more than other programs. A second question was whether participation in an extracurricular program(s) influenced their success. Women who were older, had been enrolled more semesters, had more credit hours, and had families with higher incomes were more likely to be involved in STEM only or STEM and Non-STEM extracurricular activities. Additionally, students who completed a high level of high school math, had a higher high school GPA, had received a regular high school diploma, and who had mothers with a higher level of education were also more likely to be involved in STEM only or STEM and Non-STEM extracurricular activities. Students who had been enrolled in college seven (7) or more semesters, who had selected their current major within their first year of college, were more likely to be involved in STEM extracurricular activities. Students believe that their STEM extracurricular involvement helps them to be successful because it provided them with student relationships, opportunity for the future, advising relationships, mentorship, and exploration of the campus and larger community. This study may be useful for student affairs professionals and academics who take an active role in serving as advisors, mentors, and providers of STEM-related opportunities.

Internship Opportunities | Argonne National Laboratory

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Skip to main content Argonne National Laboratory Toggle Navigation Toggle Search Home Learning -class research to tomorrow's STEM problem solvers Home Learning Center Undergraduates Graduates Faculty ) 252-4114 Contact Us Argonne Educational Programs is committed to providing a learning environment that

Evaluating Psychosocial Mechanisms Underlying STEM Persistence in Undergraduates: Evidence of Impact from a Six-Day Pre-College Engagement STEM Academy Program

ERIC Educational Resources Information Center

Findley-Van Nostrand, Danielle; Pollenz, Richard S.

2017-01-01

The persistence of undergraduate students in science, technology, engineering, and mathematics (STEM) disciplines is a national issue based on STEM workforce projections. We implemented a weeklong pre-college engagement STEM Academy (SA) program aimed at addressing several areas related to STEM retention. We validated an instrument that was…

Coming out in STEM: Factors affecting retention of sexual minority STEM students

PubMed Central

Hughes, Bryce E.

2018-01-01

Using a national longitudinal survey data set from the Higher Education Research Institute, this study tested whether students who identified as a sexual minority (for example, lesbian, gay, bisexual, or queer) were more or less likely to persist after 4 years in science, technology, engineering, and mathematics (STEM) fields, as opposed to switching to a non-STEM program, compared to their heterosexual peers. A multilevel regression model controlling for various experiences and characteristics previously determined to predict retention in STEM demonstrated that, net of these variables, sexual minority students were 8% less likely to be retained in STEM compared to switching into a non-STEM program. Despite this finding, sexual minority STEM students were more likely to report participating in undergraduate research programs, and the gender disparity in STEM retention appears to be reversed for sexual minority STEM students. PMID:29546240

The Effects of Case-Based Instruction on Undergraduate Biology Students' Understanding of the Nature of Science

NASA Astrophysics Data System (ADS)

Burniston, Amy Lucinda

Undergraduate science education is currently seeing a dramatic pedagogical push towards teaching the philosophies underpinning science as well as an increase in strategies that employ active learning. Many active learning strategies stem from constructivist ideals and have been shown to affect a student's understanding of how science operates and its impact on society- commonly referred to as the nature of science (NOS). One particular constructivist teaching strategy, case-based instruction (CBI), has been recommended by researchers and science education reformists as an effective instructional strategy for teaching NOS. Furthermore, when coupled with explicit-reflective instruction, CBI has been found to significantly increasing understanding of NOS in elementary and secondary students. However, few studies aimed their research on CBI and NOS towards higher education. Thus, this study uses a quasi-experimental, nonequivalent group design to study the effects of CBI on undergraduate science students understandings of NOS. Undergraduate biology student's understanding of NOS were assessed using the Views of Science Education (VOSE) instrument pre and post CBI intervention in Cellular and Molecular Biology and Human Anatomy and Physiology II. Data analysis indicated statistically significant differences between students NOS scores in experimental versus control sections for both courses, with experimental groups obtaining higher posttest scores. The results of this study indicate that undergraduate male and female students have similarly poor understandings of NOS and the use of historical case based instruction can be used as a means to increase undergraduate understanding of NOS.

The Development of Curricular Guidelines for Introductory Microbiology that Focus on Understanding.

PubMed

Merkel, Susan

2012-01-01

The number of students who leave majors in science, technology, engineering, and mathematics (STEM) due to a perception that courses are poorly taught is evidence that education reform in STEM is overdue. Despite decades of research that argues for student-centered teaching approaches, most introductory STEM courses are still taught in the large lecture format, focusing on rote memorization. While individual efforts in STEM educational reform are important, solutions will most certainly need to include institutional and cultural change. In biology, numerous national reports have called for educational reform to better prepare future scientists. We describe here a new, concept-based curriculum for Introductory Microbiology courses, designed to promote deep understanding of core concepts. Supported by the American Society for Microbiology (ASM) and based on the overarching concepts and competencies presented in the AAAS/NSF report Vision and Change in Undergraduate Biology Education: A Call to Action, we hope it will empower instructors to adapt student-centered approaches so that students in Introductory Microbiology courses can leave the course with a core set of enduring understandings of microbiology.

The Development of Curricular Guidelines for Introductory Microbiology that Focus on Understanding

PubMed Central

Merkel, Susan

2012-01-01

The number of students who leave majors in science, technology, engineering, and mathematics (STEM) due to a perception that courses are poorly taught is evidence that education reform in STEM is overdue. Despite decades of research that argues for student-centered teaching approaches, most introductory STEM courses are still taught in the large lecture format, focusing on rote memorization. While individual efforts in STEM educational reform are important, solutions will most certainly need to include institutional and cultural change. In biology, numerous national reports have called for educational reform to better prepare future scientists. We describe here a new, concept-based curriculum for Introductory Microbiology courses, designed to promote deep understanding of core concepts. Supported by the American Society for Microbiology (ASM) and based on the overarching concepts and competencies presented in the AAAS/NSF report Vision and Change in Undergraduate Biology Education: A Call to Action, we hope it will empower instructors to adapt student-centered approaches so that students in Introductory Microbiology courses can leave the course with a core set of enduring understandings of microbiology. PMID:23653779

Entering research: A course that creates community and structure for beginning undergraduate researchers in the STEM disciplines.

PubMed

Balster, Nicholas; Pfund, Christine; Rediske, Raelyn; Branchaw, Janet

2010-01-01

Undergraduate research experiences have been shown to enhance the educational experience and retention of college students, especially those from underrepresented populations. However, many challenges still exist relative to building community among students navigating large institutions. We developed a novel course called Entering Research that creates a learning community to support beginning undergraduate researchers and is designed to parallel the Entering Mentoring course for graduate students, postdocs, and faculty serving as mentors of undergraduate researchers. The course serves as a model that can be easily adapted for use across the science, technology, engineering, and mathematics (STEM) disciplines using a readily available facilitator's manual. Course evaluations and rigorous assessment show that the Entering Research course helps students in many ways, including finding a mentor, understanding their place in a research community, and connecting their research to their course work in the biological and physical sciences. Students in the course reported statistically significant gains in their skills, knowledge, and confidence as researchers compared with a control group of students, who also were engaged in undergraduate research but not enrolled in this course. In addition, the faculty and staff members who served as facilitators of the Entering Research course described their experience as rewarding and one they would recommend to their colleagues.

Engineering a Cure: Treena Livingston Arinzeh

ERIC Educational Resources Information Center

Lum, Lydia

2005-01-01

This article provides an overview of the accomplishments of Assistant Professor of Biomedical Engineering at the New Jersey Institute of Technology, Treena Livingston Arinzeh. It describes her exemplary work on stem cell research; her educational roots; and her work helping develop undergraduate and graduate curricula for the fledgling biomedical…

Sustaining Optimal Motivation: A Longitudinal Analysis of Interventions to Broaden Participation of Underrepresented Students in STEM

PubMed Central

Hernandez, Paul R.; Schultz, P. Wesley; Estrada, Mica; Woodcock, Anna; Chance, Randie C.

2013-01-01

The underrepresentation of racial minorities and women in science, technology, engineering, and mathematics (STEM) disciplines is a national concern. Goal theory provides a useful framework from which to understand issues of underrepresentation. We followed a large sample of high-achieving African American and Latino undergraduates in STEM disciplines attending 38 institutions of higher education in the United States over 3 academic years. We report on the science-related environmental factors and person factors that influence the longitudinal regulation of goal orientations. Further, we examine how goal orientations in turn influence distal academic outcomes such as performance and persistence in STEM. Using SEM-based parallel process latent growth curve modeling, we found that (a) engagement in undergraduate research was the only factor that buffered underrepresented students against an increase in performance-avoidance goals over time; (b) growth in scientific self-identity exhibited a strong positive effect on growth in task and performance-approach goals over time; (c) only task goals positively influenced students' cumulative grade point average, over and above baseline grade point average; and (d) performance-avoidance goals predicted student attrition from the STEM pipeline. We discuss the implications of these findings for underrepresented students in STEM disciplines. PMID:24273342

Interdisciplinary STEM education reform: dishing out art in a microbiology laboratory.

PubMed

Adkins, Sarah J; Rock, Rachel K; Morris, J Jeffrey

2018-01-01

In the modern educational framework, life science and visual art are usually presented as mutually exclusive subjects. Despite this perceived disciplinary contrast, visual art has the ability to engage and provoke students in ways that can have important downstream effects on scientific discovery, especially when applied in a practical setting such as a laboratory course. This review broadly examines the benefit of interdisciplinary fusions of science and art as well as recent ways in which art strategies have been used in undergraduate biology classrooms. In a case study, we found that undergraduate students in an introductory microbiology laboratory course who participated in open-inquiry activities involving agar art had greater confidence in their personal efficacy as scientists compared to a control class. Collectively, these observations suggest that visual art can be a useful enhancement in the course-based undergraduate research setting, and science educators at all levels should consider incorporating artistic creativity in their own classroom strategies. © FEMS 2017. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.

Societal challenges-oriented data-rich undergraduate teaching resources for geoscience classrooms and field courses

NASA Astrophysics Data System (ADS)

Pratt-Sitaula, B. A.; Walker, B.; Douglas, B. J.; Crosby, B. T.; Charlevoix, D. J.; Crosby, C. J.; Shervais, K.

2016-12-01

The NSF-funded GEodesy Tools for Societal Issues (GETSI) project is developing modules for use in introductory and majors-level courses that emphasize a broad range of geodetic data and quantitative skills applied to societally important issues of climate change, natural hazards, and water resources (serc.carleton.edu/getsi). The modules fill gaps in existing undergraduate curricula, which seldom include geodetic methods. Published modules are "Ice mass and sea level changes", "Imaging active tectonics with LiDAR and InSAR", "Measuring water resources with GPS, gravity, and traditional methods", "Surface process hazards", and "GPS, strain, and earthquakes". The GETSI Field Collection features geodetic field techniques. The field-oriented module "Analyzing high resolution topography with terrestrial laser scanning (TLS) and structure from motion (SfM)" is already published and "High precision positioning with static and kinematic GPS" will be published in 2017. Modules are 1-3 weeks long and include student exercises, data analysis, and extensive supporting materials. For field modules, prepared data sets are provided for courses that cannot collect field data directly. All modules were designed and developed by teams of faculty and content experts and underwent rigorous review and classroom testing. Collaborating institutions are UNAVCO (which runs NSF's Geodetic Facility), Indiana University, Mt San Antonio College, and Idaho State University. Science Education Resource Center (SERC) is providing assessment and evaluation expertise. If future funding is successful, the topic range will be expanded (e.g., volcanic hazards, more water resources, and ecological applications of geodesy). Funding to date has been provided by NSF's TUES (Transforming Undergraduate Education in STEM) and IUSE (Improving Undergraduate STEM Education).

Examining the Views of Undergraduate STEM Majors Regarding K-12 Teaching as a Profession

ERIC Educational Resources Information Center

Plecki, Margaret; St. John, Elise; Elfers, Ana

2013-01-01

This study explores how undergraduates enrolled in STEM (science, technology, engineering, and mathematics) courses view the K-12 teaching profession. A survey was conducted with a sample of undergraduates in community college and university settings (n = 610). We examine whether undergraduates believe that teaching offers what they value in a…

Insights from a Convocation: Integrating Discovery-Based Research into the Undergraduate Curriculum

ERIC Educational Resources Information Center

Elgin, Sarah C. R.; Bangera, Gita; Decatur, Sean M.; Dolan, Erin L.; Guertin, Laura; Newstetter, Wendy C.; San Juan, Elvyra F.; Smith, Mary A.; Weaver, Gabriela C.; Wessler, Susan R.; Brenner, Kerry A.; Labov, Jay B.

2016-01-01

Recommendation 2 of the February 2012 report "Engage to Excel" from the President's Council of Advisors on Science and Technology (PCAST 2012) urges the science, technology, engineering, and mathematics (STEM) education community and funding agencies to "advocate and provide support for replacing standard laboratory courses with…

Enhancing Diversity in Undergraduate Science: Self-Efficacy Drives Performance Gains with Active Learning

ERIC Educational Resources Information Center

Ballen, Cissy J.; Wieman, Carl; Salehi, Shima; Searle, Jeremy B.; Zamudio, Kelly R.

2017-01-01

Efforts to retain underrepresented minority (URM) students in science, technology, engineering, and mathematics (STEM) have shown only limited success in higher education, due in part to a persistent achievement gap between students from historically underrepresented and well-represented backgrounds. To test the hypothesis that active learning…

Automated Sentence Completion Scoring.

ERIC Educational Resources Information Center

Veldman, Donald J.

A 62-item form of the sentence-completion technique requiring one-word responses was administered to 1718 undergraduates in teacher education. The data were punched on cards and lists of different responses were compiled. Responses indicating evasion, hostility, anxiety and depression were identified for each stem to form a scoring "dictionary." A…

Women in STEM -- Why We Need All Hands on Deck

ScienceCinema

Wall, Carter

2018-01-26

Carter Wall developed an interest in science at an early age yet struggled to find examples of women scientists and engineers beyond historical figures, like Marie Curie. A lack of relatable role-models didn't stop Carter from pursuing an undergraduate education and career rooted in STEM -- shorthand for science, technology, engineering and mathematics fields. Now, she plays a key role at one of largest solar developers in the Northeast. This is the first in the Energy Department's #WomenInStem video series. At the Energy Department, we're committed to supporting a diverse talent pool of STEM innovators ready to address the challenges and opportunities of our growing clean energy economy

Women in STEM -- Why We Need All Hands on Deck

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

Wall, Carter

2014-01-11

Carter Wall developed an interest in science at an early age yet struggled to find examples of women scientists and engineers beyond historical figures, like Marie Curie. A lack of relatable role-models didn't stop Carter from pursuing an undergraduate education and career rooted in STEM -- shorthand for science, technology, engineering and mathematics fields. Now, she plays a key role at one of largest solar developers in the Northeast. This is the first in the Energy Department's #WomenInStem video series. At the Energy Department, we're committed to supporting a diverse talent pool of STEM innovators ready to address the challengesmore » and opportunities of our growing clean energy economy« less

Cultivating Citizen Scientists in the Undergraduate Science Classroom

NASA Astrophysics Data System (ADS)

Egger, A. E.

2007-12-01

Several studies indicate a strong correlation between the number of college science courses and science literacy. It is not surprising, then, that the majority of participants in citizen science projects are college graduates who enrolled in at least two science courses. If one goal of citizen science projects is to increase civic science literacy, research suggests that most are preaching to the choir. Attracting a wider audience to citizen science is, therefore, a key challenge. One way to address this challenge is to attract students to enroll and succeed in science courses in college, even if they do not pursue a major in the science, technology, engineering, and mathematics (STEM) disciplines. In fact, only 20% of students receive a degree in STEM, yet virtually all undergraduates are required to take at least one science course. Introductory science courses are therefore critical to cultivating citizen scientists, as they include a large proportion of non- STEM majors. Indeed, a major thrust of recent undergraduate STEM educational reform has been the promotion of 'science for all'. The science for all concept goes beyond recruiting students into the STEM disciplines to promoting a level of scientific literacy necessary to make informed decisions. A clear implication of this inclusive attitude is the need to redesign introductory science courses to make them accessible and explicitly related to scientific literacy. This does not mean dumbing down courses; on the contrary, it means engaging students in real scientific investigations and incorporating explicit teaching about the process of science, thus fostering a lifelong appreciation for (and, hopefully, participation in) science. Unfortunately, many students enter college with minimal understanding of the process of science. And when they arrive in their introductory classes, science is presented to them as a system of facts to be memorized - comparable to memorizing a poem in a foreign language without understanding the vocabulary. New resources available through the Visionlearning project (http://www.visionlearning.com) provide the means to incorporate teaching about the process of science into disciplinary content, thus facilitating the reform the way that undergraduate students are taught science at the introductory level. This kind of educational reform may be a long-term approach to developing citizen scientists, but research from several different disciplines and perspectives suggests it is a critical step in building scientific literacy and lifelong participation in science.

Closing the Communal Gap: The Importance of Communal Affordances in Science Career Motivation.

PubMed

Brown, Elizabeth R; Thoman, Dustin B; Smith, Jessi L; Diekman, Amanda B

2015-12-01

To remain competitive in the global economy, the United States (and other countries) is trying to broaden participation in science, technology, engineering, and mathematics (STEM) by graduating an additional 1 million people in STEM fields by 2018. Although communion (working with, helping, and caring for others) is a basic human need, STEM careers are often (mis)perceived as being uncommunal. Across three naturalistic studies we found greater support for the communal affordance hypothesis, that perceiving STEM careers as affording greater communion is associated with greater STEM career interest, than two alternative hypotheses derived from goal congruity theory. Importantly, these findings held regardless of major (Study 1), college enrollment (Study 2), and gender (Studies 1-3). For undergraduate research assistants, mid-semester beliefs that STEM affords communion predicted end of the semester STEM motivation (Study 3). Our data highlight the importance of educational and workplace motivational interventions targeting communal affordances beliefs about STEM.

Researching Undergraduate Social Science Research

ERIC Educational Resources Information Center

Rand, Jane

2016-01-01

The experience(s) of undergraduate research students in the social sciences is under-represented in the literature in comparison to the natural sciences or science, technology, engineering and maths (STEM). The strength of STEM undergraduate research learning environments is understood to be related to an apprenticeship-mode of learning supported…

Preparing Women for Leadership Roles in STEM: The HERS Institutes

NASA Astrophysics Data System (ADS)

Straub, K. H.

2016-12-01

While women's representation in higher education has increased at the undergraduate and graduate levels, female voices remain in the minority in upper administrative positions, particularly in STEM fields. The HERS Institutes prepare women faculty and administrators for leadership roles through either residential (2 week, summer) or mixed on-site and online (academic year) programs. Topics addressed through the HERS curriculum include managing and leading change, the financial environment of higher education, diversity and inclusion, career mapping, fundraising, the legal landscape, institutional budgeting, negotiation, search essentials, conflict management, and much more. Female experts in each field lead interactive sessions and discussions, and are available for one-on-one conversations during breaks and meals. Through a grant from the Henry Luce Foundation, HERS has created opportunities for women in STEM fields to receive scholarships to the Institutes through the Claire Booth Luce (CBL) Program. In addition, the Institutes now support a larger cohort of STEM participants through targeted programming and networking events. Of the 64 participants in the 2016 Bryn Mawr Institute, 21 women were from STEM fields. These women participated in additional programs and expert-led discussions including "The Future of Research in Higher Education," "Supporting Careers of Women in STEM," and "Inclusive Excellence in STEM." An additional component of the CBL Program is the creation of a HERS STEM Community to enhance networking, mentoring, information sharing, and opportunities for gathering at professional conferences among HERS alumnae.

State-of-the-art Hydrology Education: Development of Windows-based and Web-based Interactive Teaching-Learning Software

NASA Astrophysics Data System (ADS)

Chu, X.

2011-12-01

This study, funded by the NSF CAREER program, focuses on developing new methods to quantify microtopography-controlled overland flow processes and integrating the cutting-edge hydrologic research with all-level education and outreach activities. To achieve the educational goal, an interactive teaching-learning software package has been developed. This software, with enhanced visualization capabilities, integrates the new modeling techniques, computer-guided learning processes, and education-oriented tools in a user-friendly interface. Both Windows-based and web-based versions have been developed. The software is specially designed for three major user levels: elementary level (Level 1: K-12 and outreach education), medium level (Level 2: undergraduate education), and advanced level (Level 3: graduate education). Depending on the levels, users are guided to different educational systems. Each system consists of a series of mini "libraries" featured with movies, pictures, and documentation that cover fundamental theories, varying scale experiments, and computer modeling of overland flow generation, surface runoff, and infiltration processes. Testing and practical use of this educational software in undergraduate and graduate teaching demonstrate its effectiveness to promote students' learning and interest in hydrologic sciences. This educational software also has been used as a hydrologic demonstration tool for K-12 students and Native American students through the Nurturing American Tribal Undergraduate Research Education (NATURE) program and Science, Technology, Engineering and Mathematics (STEM) outreach activities.

Experiences of Judeo-Christian Students in Undergraduate Biology

PubMed Central

Barnes, M. Elizabeth; Truong, Jasmine M.; Brownell, Sara E.

2017-01-01

A major research thrust in science, technology, engineering, and mathematics (STEM) education is focused on how to retain students as STEM majors. The accumulation of seemingly insignificant negative experiences in STEM classes can, over time, lead STEM students to have a low sense of belonging in their disciplines, and this can lead to lower retention. In this paper, we explore how Judeo-Christian students in biology have experiences related to their religious identities that could impact their retention in biology. In 28 interviews with Judeo-Christian students taking undergraduate biology classes, students reported a religious identity that can conflict with the secular culture and content of biology. Some students felt that, because they are religious, they fall within a minority in their classes and would not be seen as credible within the biology community. Students reported adverse experiences when instructors had negative dispositions toward religion and when instructors were rigid in their instructional practices when teaching evolution. These data suggest that this may be a population susceptible to experiences of cultural conflict between their religious identities and their STEM identities, which could have implications for retention. We argue that more research should explore how Judeo-Christian students’ experiences in biology classes influence their sense of belonging and retention. PMID:28232586

Course-Based Undergraduate Research Experiences Can Make Scientific Research More Inclusive

ERIC Educational Resources Information Center

Bangera, Gita; Brownell, Sara E.

2014-01-01

Current approaches to improving diversity in scientific research focus on graduating more science, technology, engineering, and mathematics (STEM) majors, but graduation with a STEM undergraduate degree alone is not sufficient for entry into graduate school. Undergraduate independent research experiences are becoming more or less a prerequisite…

Undergraduate Students as Climate Communicators

NASA Astrophysics Data System (ADS)

Sharif, H. O.; Joseph, J.; Mullendore, G. L.

2012-12-01

The University of Texas at San Antonio (UTSA), San Antonio College (SAC), and the University of North Dakota (UND) are partnering with NASA to provide underrepresented undergraduates from UTSA, SAC, and other community colleges climate-related research and education experiences. The program aims to develop a robust response to climate change by providing K-16 climate change education; enhance the effectiveness of K-16 education particularly in engineering and other STEM disciplines by use of new instructional technologies; increase the enrollment in engineering programs and the number of engineering degrees awarded by showing engineering's usefulness in relation to the much-discussed contemporary issue of climate change; increase persistence in STEM degrees by providing student research opportunities; and increase the ethnic diversity of those receiving engineering degrees and help ensure an ethnically diverse response to climate change. Students will have the opportunity to participate in guided research experiences aligned with NASA Science Plan objectives for climate and Earth system science and the educational objectives of the three institutions. An integral part of the learning process will include training in modern media technology (webcasts), and in using this technology to communicate the information on climate change to others, especially high school students, culminating in production of a webcast about investigating aspects of climate change using NASA data. Content developed is leveraged by NASA Earth observation data and NASA Earth system models and tools. Several departments are involved in the educational program.

An Approach to Integrating Health Disparities within Undergraduate Biomedical Engineering Education.

PubMed

Vazquez, Maribel; Marte, Otto; Barba, Joseph; Hubbard, Karen

2017-11-01

Health disparities are preventable differences in the incidence, prevalence and burden of disease among communities targeted by gender, geographic location, ethnicity and/or socio-economic status. While biomedical research has identified partial origin(s) of divergent burden and impact of disease, the innovation needed to eradicate health disparities in the United States requires unique engagement from biomedical engineers. Increasing awareness of the prevalence and consequences of health disparities is particularly attractive to today's undergraduates, who have undauntedly challenged paradigms believed to foster inequality. Here, the Department of Biomedical Engineering at The City College of New York (CCNY) has leveraged its historical mission of access-and-excellence to integrate the study of health disparities into undergraduate BME curricula. This article describes our novel approach in a multiyear study that: (i) Integrated health disparities modules at all levels of the required undergraduate BME curriculum; (ii) Developed opportunities to include impacts of health disparities into undergraduate BME research projects and mentored High School summer STEM training; and (iii) Established health disparities-based challenges as BME capstone design and/or independent entrepreneurship projects. Results illustrate the rising awareness of health disparities among the youngest BMEs-to-be, as well as abundant undergraduate desire to integrate health disparities within BME education and training.

Facilitating Reforms in STEM Undergraduate Education: An Administrative Perspective

ERIC Educational Resources Information Center

Litzinger, Thomas A.; Koubek, Richard J.; Wormley, David N.

2009-01-01

One of the most important elements in achieving significant curricular and pedagogical innovation is creating a climate that promotes and acknowledges the contributions of those who engage in these efforts. It is critical that this climate be systemic, existing at the department, college, and university levels. In the past few years, the view that…

Male Students Give Voice to Supportive Campus Environments: A Qualitative Case Study of Undergraduate STEM Majors

ERIC Educational Resources Information Center

Amon, Julie L.

2010-01-01

Research supports the importance of student engagement in enhancing student learning, success, and various desirable educational outcomes. In the last decade, the National Survey of Student Engagement (NSSE) has been the primary instrument through which student engagement has been explored. "Supportive Campus Environment", one of the…

Doing Derrida down Under--A Matter of (Feminist) Response-Ability

ERIC Educational Resources Information Center

Rocco, Sharn

2004-01-01

This paper explores aspects of the discursive production of the desire for (hetero)sexual marriage. The insights, understandings, and concerns articulated in this paper stem from the experience of a collective memory work project undertaken with a cohort of undergraduate early childhood teacher education students at a regional university. This…

Point of View: How Important Is Achieving Equity in Undergraduate STEM Education to You?

ERIC Educational Resources Information Center

Mulnix, Amy B.; Vandegrift, Eleanor V. H.; Chaudhury, S. Raj

2016-01-01

This column shares reflections or thoughtful opinions on issues of broad interest to the community. In this month's issue the authors make a case for their belief that significant progress toward equity and inclusion will only be achieved when evidence-based pedagogies are deeply embedded in all classrooms.

Aligning Practice to Policies: Changing the Culture to Recognize and Reward Teaching at Research Universities

ERIC Educational Resources Information Center

Dennin, Michael; Schultz, Zachary D.; Feig, Andrew; Finkelstein, Noah; Greenhoot, Andrea Follmer; Hildreth, Michael; Leibovich, Adam K.; Martin, James D.; Moldwin, Mark B.; O'Dowd, Diane K.; Posey, Lynmarie A.; Smith, Tobin L.; Miller, Emily R.

2017-01-01

Recent calls for improvement in undergraduate education within STEM (science, technology, engineering, and mathematics) disciplines are hampered by the methods used to evaluate teaching effectiveness. Faculty members at research universities are commonly assessed and promoted mainly on the basis of research success. To improve the quality of…

The Role of Residential Communities for the Academic and Social Success of Undergraduate Women in STEM Majors: The Case of a Public University in Ethiopia

NASA Astrophysics Data System (ADS)

Wuhib, Frehiwot Wondimu

This study is an exploratory case study which explored the residential environment of an Ethiopian public university on its role for the social and academic integration of undergraduate women in Science, Technology, Engineering, and Mathematics (STEM) fields. It also explained how the social and academic integration of the women contributed for their overall college success. There were three groups of participants; undergraduate women in STEM, female resident proctors, and relevant officials from the university and the Ministry of Education of the Ethiopian government. Each of the participants were interviewed on a one-on-one basis and the interviews were transcribed and coded for the analysis. Supportive quantitative data about the enrollment, performance and retention of students were also gathered from the university's registrar office and analyzed quantitatively to support the qualitative data obtained through interviews. The study was framed by Tinto's Integration Model and data were interpreted using Third World feminist theory. The findings showed that due to the fact that all same-sex, same-major women living in the same rooms, and all who live in one dorm take similar courses throughout their program, and dormitories serving multiple roles, including being collaboration spaces, played a big role for better social and academic integration of the women. It is also found that their social and academic integration helped them to better perform in their majors by enhancing their sense of belonging in the male-dominated STEM majors, enhancing their commitment, and promoting peer encouragement. On the other hand, the findings also showed that there were some factors which have negative influence in the integration process such as negative stereotypes against the presence and good performance of women in STEM, lack of support system, and limited interaction with faculty. So, the study recommends that working on improving the negatively influencing factors will enhance the positive impact the resident environment is bringing for the success of undergraduate women in STEM in the university studied.

Exploring deliberate mentoring approaches aimed at improving the recruitment and persistence of undergraduate women in the geosciences

NASA Astrophysics Data System (ADS)

Pollack, I. B.; Adams, A. S.; Barnes, R. T.; Burt, M. A.; Clinton, S. M.; Godfrey, E.; Hernandez, P.; Bloodhart, B.; Donaldson, L.; Henderson, H.; Sayers, J.; Sample McMeeking, L. B.; Bowker, C.; Fischer, E. V.

2015-12-01

In the United States, men outnumber women in many science and engineering fields by nearly 3 to 1. In fields like physics or the geosciences, the gender gap can be even wider. Previous studies have identified the early college years as a critical point where many women exit STEM disciplines. An interdisciplinary team including experts in the geosciences, psychology, education, and STEM persistence have recently begun a 5-year project focused on understanding whether mentoring can increase the interest, persistence, and achievement of undergraduate women in the geosciences. The program focuses on mentoring first and second year female undergraduate students from three universities in Colorado and Wyoming and four universities in North and South Carolina. The mentoring program includes a weekend workshop, access to professional women across geoscience fields and both in-person and virtual peer networks. The first weekend workshops will be held in October 2015. We will present an overview of the major components and lessons learned from these workshops and showcase the web center, including the online peer-networking forum.

A Broadly Implementable Research Course in Phage Discovery and Genomics for First-Year Undergraduate Students

PubMed Central

Jordan, Tuajuanda C.; Burnett, Sandra H.; Carson, Susan; Caruso, Steven M.; Clase, Kari; DeJong, Randall J.; Dennehy, John J.; Denver, Dee R.; Dunbar, David; Elgin, Sarah C. R.; Findley, Ann M.; Gissendanner, Chris R.; Golebiewska, Urszula P.; Guild, Nancy; Hartzog, Grant A.; Grillo, Wendy H.; Hollowell, Gail P.; Hughes, Lee E.; Johnson, Allison; King, Rodney A.; Lewis, Lynn O.; Li, Wei; Rosenzweig, Frank; Rubin, Michael R.; Saha, Margaret S.; Sandoz, James; Shaffer, Christopher D.; Taylor, Barbara; Temple, Louise; Vazquez, Edwin; Ware, Vassie C.; Barker, Lucia P.; Bradley, Kevin W.; Jacobs-Sera, Deborah; Pope, Welkin H.; Russell, Daniel A.; Cresawn, Steven G.; Lopatto, David; Bailey, Cheryl P.; Hatfull, Graham F.

2014-01-01

ABSTRACT Engaging large numbers of undergraduates in authentic scientific discovery is desirable but difficult to achieve. We have developed a general model in which faculty and teaching assistants from diverse academic institutions are trained to teach a research course for first-year undergraduate students focused on bacteriophage discovery and genomics. The course is situated within a broader scientific context aimed at understanding viral diversity, such that faculty and students are collaborators with established researchers in the field. The Howard Hughes Medical Institute (HHMI) Science Education Alliance Phage Hunters Advancing Genomics and Evolutionary Science (SEA-PHAGES) course has been widely implemented and has been taken by over 4,800 students at 73 institutions. We show here that this alliance-sourced model not only substantially advances the field of phage genomics but also stimulates students’ interest in science, positively influences academic achievement, and enhances persistence in science, technology, engineering, and mathematics (STEM) disciplines. Broad application of this model by integrating other research areas with large numbers of early-career undergraduate students has the potential to be transformative in science education and research training. PMID:24496795

Explaining the Gender Gap: Comparing Undergraduate and Graduate/Faculty Beliefs about Talent Required for Success in Academic Fields

NASA Astrophysics Data System (ADS)

Bailey, Kimberlyn; Nanthakumar, Ampalavanar; Preston, Scott; Ilie, Carolina C.

Recent research has proposed that the gender gap in academia is caused by differing perceptions of how much talent is needed to succeed in various fields. It was found that, across the STEM/non-STEM divide, the more that graduate students and faculty see success in their own field as requiring as requiring talent, the fewer women participate in that field. This research examines whether undergraduate students share these attitudes. If these attitudes trickle down to the undergraduate population to influence students to choose different fields of study, then undergraduate beliefs should reflect those of graduate students and faculty. Using a large survey of undergraduates across the country, this study aims to characterize undergraduate attitudes and to determine variables that explain the differences between the attitudes of these two populations. Our findings suggest that the two populations have similar beliefs, but that undergraduate beliefs are strongly influenced by information about the gender ratio in each field and that this strong influence greatly differs between STEM and non-STEM fields. These findings seek to help direct future research to ask the right questions and propose plausible hypotheses about gender the imbalance in academia.

Knowledge and Attitude about Stem Cells and Their Application in Medicine among Nursing Students in Universiti Sains Malaysia, Malaysia

PubMed Central

LYE, Jee Leng; SOON, Lean Keng; WAN AHMAD, Wan Amir Nizam; TAN, Suat Cheng

2015-01-01

Background: Stem cell research has been extensively explored worldwide to enhance human health in medical setting. Nevertheless, there is currently no full understanding of the stem cell knowledge and attitude levels among student nurses in Malaysia. This study aimed to assess the level of stem cell knowledge, attitude toward stem cell application in medicine, and its association with years of education, among Universiti Sains Malaysia (USM) undergraduate nursing students. Methods: A cross-sectional study (n = 88) was conducted using self-administered questionnaire consisted of demographic information, stem cells knowledge and attitude statements. Data was analysed using Statistical Package Social Software 20.0. Results: The majority of participants (92%) had moderate knowledge score about stem cells. Many students (33%) worried that stem cell application might cause a harm to humanity yet had a positive (76.1%) attitude towards its therapeutic potential (45.5%). Poor correlation between knowledge and attitude (r = 0.08) indicated that acceptance towards stem cell is not solely based on the knowledge level but also on other factors including religion and culture. Conclusion: Therefore, this study suggests that various educational programs on stem cell should be implemented considering the religion, cultural, social, and behavioural determinants in the population to improve stem cell knowledge and encourage a more positive attitude towards stem cells in medicine among these nursing students. PMID:26715905

Knowledge and Attitude about Stem Cells and Their Application in Medicine among Nursing Students in Universiti Sains Malaysia, Malaysia.

PubMed

Lye, Jee Leng; Soon, Lean Keng; Wan Ahmad, Wan Amir Nizam; Tan, Suat Cheng

2015-01-01

Stem cell research has been extensively explored worldwide to enhance human health in medical setting. Nevertheless, there is currently no full understanding of the stem cell knowledge and attitude levels among student nurses in Malaysia. This study aimed to assess the level of stem cell knowledge, attitude toward stem cell application in medicine, and its association with years of education, among Universiti Sains Malaysia (USM) undergraduate nursing students. A cross-sectional study (n = 88) was conducted using self-administered questionnaire consisted of demographic information, stem cells knowledge and attitude statements. Data was analysed using Statistical Package Social Software 20.0. The majority of participants (92%) had moderate knowledge score about stem cells. Many students (33%) worried that stem cell application might cause a harm to humanity yet had a positive (76.1%) attitude towards its therapeutic potential (45.5%). Poor correlation between knowledge and attitude (r = 0.08) indicated that acceptance towards stem cell is not solely based on the knowledge level but also on other factors including religion and culture. Therefore, this study suggests that various educational programs on stem cell should be implemented considering the religion, cultural, social, and behavioural determinants in the population to improve stem cell knowledge and encourage a more positive attitude towards stem cells in medicine among these nursing students.

The U.S. STEM Undergraduate Model: Applying System Dynamics to Help Meet President Obama's Goals for One Million STEM Graduates and the U.S. Navy's Civilian STEM Workforce Needs

ERIC Educational Resources Information Center

Business-Higher Education Forum, 2013

2013-01-01

This report shows how insights gained from system dynamics modeling and the U.S. STEM Undergraduate Model® can help inform the Navy's strategy to grow a robust civilian workforce that is strongly invested with Navy-relevant STEM skills and ready to contribute to the next generation of Naval innovation. This work positions the Navy to serve a…

Experiences of Judeo-Christian Students in Undergraduate Biology.

PubMed

Barnes, M Elizabeth; Truong, Jasmine M; Brownell, Sara E

2017-01-01

A major research thrust in science, technology, engineering, and mathematics (STEM) education is focused on how to retain students as STEM majors. The accumulation of seemingly insignificant negative experiences in STEM classes can, over time, lead STEM students to have a low sense of belonging in their disciplines, and this can lead to lower retention. In this paper, we explore how Judeo-Christian students in biology have experiences related to their religious identities that could impact their retention in biology. In 28 interviews with Judeo-Christian students taking undergraduate biology classes, students reported a religious identity that can conflict with the secular culture and content of biology. Some students felt that, because they are religious, they fall within a minority in their classes and would not be seen as credible within the biology community. Students reported adverse experiences when instructors had negative dispositions toward religion and when instructors were rigid in their instructional practices when teaching evolution. These data suggest that this may be a population susceptible to experiences of cultural conflict between their religious identities and their STEM identities, which could have implications for retention. We argue that more research should explore how Judeo-Christian students' experiences in biology classes influence their sense of belonging and retention. © 2017 M. E. Barnes et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Undergraduate Research as a Primary Pathway to STEM Careers: Perspectives from the Council on Undergraduate Research

NASA Astrophysics Data System (ADS)

Manley, P. L.; Ambos, E. L.

2012-12-01

Undergraduate research (UR) is one of the most authentic and effective ways to promote student learning, and is a high-impact educational practice that can lead to measurable gains in student retention and graduation rates, as well as career aspirations. In recent years, UR has expanded from intensive summer one-on-one faculty-student mentored experiences to application in a variety of educational settings, including large lower division courses. The Council on Undergraduate Research (CUR), founded in 1978, is a national organization of individual (8000) and institutional members (650) within a divisional structure that includes geosciences, as well as 10 other thematic areas. CUR's main mission is to support and promote high-quality undergraduate student-faculty collaborative research and scholarship that develops learning through research. CUR fulfills this mission through extensive publication offerings, faculty and student-directed professional development events, and outreach and advocacy activities that share successful models and strategies for establishing, institutionalizing, and sustaining undergraduate research programs. Over the last decade, CUR has worked with hundreds of academic institutions, including two-year colleges, to develop practices to build undergraduate research into campus cultures and operations. As documented in CUR publications such as Characteristics of Excellence in Undergraduate Research (COEUR), strategies institutions may adopt to enhance and sustain UR often include: (1) the establishment of a central UR campus office, (2) extensive student and faculty participation in campus-based, as well as regional UR celebration events, (3) development of a consistent practice of assessment of UR's impact on student success, and, (4) establishment of clear policies for recognizing and rewarding faculty engagement in UR, particularly with respect to mentorship and publication with student scholars. Three areas of current focus within the international UR community are particularly important to considerations of broadening and strengthening the pipeline of students entering careers in geosciences and other STEM disciplines: (1) embedding UR more effectively and systematically throughout the undergraduate curriculum, (2) connecting UR experiences with student developmental arcs in content knowledge and skill integration, and, (3) growing the scholarship of study of impact of UR on student success and professional achievements. Case studies of institutions, particularly those that represent collaborations between two and four year colleges and universities, that are successfully addressing these focus areas will be presented, along with specific challenges to expanding the use of UR in lower division curricula.

Addressing Underrepresentation in STEM Fields through Undergraduate Interventions

ERIC Educational Resources Information Center

Linley, Jodi L.; George-Jackson, Casey E.

2013-01-01

This chapter provides an overview of undergraduate STEM initiatives for underrepresented minorities and women, as well as a description and critical analysis of one comprehensive federally funded initiative at a research-intensive university.

Two-Year Community: A 3+8 Model of Undergraduate Research for Community College STEM Majors

ERIC Educational Resources Information Center

Leggett-Robinson, Pamela M.; Villa, Brandi C.; Mooring, Suazette Reid

2015-01-01

This article describes the implementation of an innovative undergraduate research model for students attending a two-year institution. It gives students an opportunity to engage in undergraduate research at nearby four-year institutions, which provides a foundation that allows them to successfully make the transition to STEM programs at the…

Perceptions of Play: Using Play-Doh to Enhance the Student Experience in Bioscience Higher Education

ERIC Educational Resources Information Center

Lace-Costigan, Gemma

2017-01-01

Playful and kinaesthetic learning approaches are used in numerous early years (birth to 5 years old) learning environments, however studies in HE STEM disciplines are uncommon. This study aimed to explore the use of Play-Doh in an undergraduate anatomy module as a method of enhancing engagement. 63 students attended the "kinaesthetic…

Climate Change: Creating Conditions Conducive to Quality STEM Undergraduate Education

ERIC Educational Resources Information Center

Baldwin, Roger G.

2009-01-01

In an era of global competition and a technology-based economy, it is increasingly important that college students graduate with a solid foundation of knowledge and understanding of science and mathematics. They must be able to use their scientific knowledge on their jobs and in their role as citizens of a society where complex policy and resource…

Challenging Traditional Assumptions of High School Science through the Physics and Everyday Thinking Curriculum™

ERIC Educational Resources Information Center

Ross, Michael J.

2013-01-01

Science education in the U.S. has failed for over a century to bring the experience of scientific induction to classrooms, from elementary science to undergraduate courses. The achievement of American students on international comparisons of science proficiency is unacceptable, and the disparities between groups underrepresented in STEM and others…

In the Midst of a Shift: Undergraduate STEM Education and "PBL" Enactment

ERIC Educational Resources Information Center

Wallace, Maria F. G.; Webb, Angela W.

2016-01-01

In the engineering field, problem- and project-based learning, both of which are often referred to as PBL, are the dominant instructional models called for by accreditation agencies. The aim of this qualitative case study is to analyze and capture a holistic perspective of PBL course design and its implementation in two communication-intensive…

The Effect of the Multiple-Choice Item Format on the Measurement of Knowledge of Language Structure

ERIC Educational Resources Information Center

Currie, Michael; Chiramanee, Thanyapa

2010-01-01

Noting the widespread use of multiple-choice items in tests in English language education in Thailand, this study compared their effect against that of constructed-response items. One hundred and fifty-two university undergraduates took a test of English structure first in constructed-response format, and later in three, stem-equivalent…

A Preliminary Case Study of SCALE Activities at the University of Wisconsin-Madison: Factors Influencing Change Initiatives in STEM Undergraduate Education, Teacher Training, and Partnerships with K-12 Districts. WCER Working Paper No. 2007-2

ERIC Educational Resources Information Center

Hora, Matthew T.; Millar, Susan B.

2007-01-01

This report on the SCALE Institutions of Higher Education (IHE) Case Studies line of work provides preliminary findings about SCALE activities at the University of Wisconsin-Madison (UW-Madison). This study focuses on the structural and behavioral dynamics influencing the implementation of the four core SCALE strategies for effecting change in…

Closing the Communal Gap: The Importance of Communal Affordances in Science Career Motivation

PubMed Central

Brown, Elizabeth R.; Thoman, Dustin B.; Smith, Jessi L.; Diekman, Amanda B.

2015-01-01

To remain competitive in the global economy, the United States (and other countries) is trying to broaden participation in science, technology, engineering, and mathematics (STEM) by graduating an additional 1 million people in STEM fields by 2018. Although communion (working with, helping, and caring for others) is a basic human need, STEM careers are often (mis)perceived as being uncommunal. Across three naturalistic studies we found greater support for the communal affordance hypothesis, that perceiving STEM careers as affording greater communion is associated with greater STEM career interest, than two alternative hypotheses derived from goal congruity theory. Importantly, these findings held regardless of major (Study 1), college enrollment (Study 2), and gender (Studies 1–3). For undergraduate research assistants, mid-semester beliefs that STEM affords communion predicted end of the semester STEM motivation (Study 3). Our data highlight the importance of educational and workplace motivational interventions targeting communal affordances beliefs about STEM. PMID:26806983

Evaluating Psychosocial Mechanisms Underlying STEM Persistence in Undergraduates: Evidence of Impact from a Six-Day Pre–College Engagement STEM Academy Program

PubMed Central

Findley-Van Nostrand, Danielle; Pollenz, Richard S.

2017-01-01

The persistence of undergraduate students in science, technology, engineering, and mathematics (STEM) disciplines is a national issue based on STEM workforce projections. We implemented a weeklong pre–college engagement STEM Academy (SA) program aimed at addressing several areas related to STEM retention. We validated an instrument that was developed based on existing, validated measures and examined several psychosocial constructs related to STEM (science identity, self-efficacy, sense of belonging to the university and to STEM, career expectancies, and intention to leave STEM majors) before and after the program. We also compared students in the SA program with a matched comparison group of first-year students. Results show that SA students significantly increased in science identity and sense of belonging to STEM and to the university, all predictive of increased STEM retention and a primary aim of the program. Relative to the matched comparison group, SA students began their first semester with higher STEM self-efficacy, sense of belonging, and science identity, positive career expectancies, and lower intention to leave STEM. The SA cohort showed 98% first-year retention and 92% STEM major retention. The SA program serves as a model of a scalable, first-level, cocurricular engagement experience to enhance psychosocial factors that impact undergraduate persistence in STEM. PMID:28572178

An Exploratory Study of the Five-Factor Personality Traits Model as Predictors among Women in Science, Technology, Engineering, and Mathematics Fields at Indiana State University

NASA Astrophysics Data System (ADS)

Challa, Sowmya

The purpose of this study is to identify any trends in personality traits of students at a mid-western university along with the influence of gender, choice of STEM or non-STEM academic major, and level of education on personality traits. The chosen mid-western university is Indiana State University (ISU) located in Terre Haute, Indiana. This study investigated the personality traits of student's through administering Goldberg's (1999) International Personality Item Pool of the Big Five Broad Domains of Personality. The personality profiles of students at ISU who have taken the questionnare are summarized. The personality profiles of female students were analyzed further with special focus to identify the role of level of education and choice of major among female students. Based on the responses of the study's subjects, there are significant relationships found between gender and all of the big five personality traits. Level of education, graduate or undergraduate, had significant impact on extraversion, agreeability, concientiousness, and emotional stability. Choice of STEM and non-STEM major impacted emotional stability for subjects in general but its influence is not significant among female subjects. Choice of STEM or non-STEM major had a significant influence on the intelligence/imagination trait for both male and female subjects. Level of education did not have any significant influence on intellegence/imagination. Overall, this study found a few significant relationships between Big-Five personality traits and identified categorizations.

Title: The Impact of 2006-2012 CReSIS Summer Research Programs that Influence Student's Choice of a STEM Related Major in College Authors: Dr. Darnell Johnson Djohnson@mail.ecsu.edu Elizabeth City State University, Elizabeth City, North Carolina 27909 Dr. Linda Hayden Haydenl@mindspring.com Elizabeth City State University, Elizabeth City, North Carolina, 27909

NASA Astrophysics Data System (ADS)

Johnson, D.

2013-12-01

Abstract: Researchers, policymakers, business, and industry have indicated that the United States will experience a future shortage of professionals in the Science, Technology, Engineering, and Mathematics (STEM) fields. Several strategies have been suggested to address this impending shortage, one of which includes increasing the representation of females and minorities in the STEM fields. In order to increase the representation of underrepresented students in the STEM fields, it is important to understand the motivational factors that impact underrepresented students' interest in STEM academics and extracurricular programs. Research indicates that greater confidence leads to greater interest and vice versa (Denissen et al., 2007). In this paper, the mathematics research team examined the role of practical research experience during the summer for talented minority secondary students studying in STEM fields. An undergraduate research mathematics team focused on the link between summer research and the choice of an undergraduate discipline. A Chi Square Statistical Test was used to examine Likert Scale results on the attitude of students participating in the 2006-2012 Center for Remote Sensing of Ice Sheets (CReSIS) Summer Research Programs for secondary students. This research was performed at Elizabeth City State University located in northeastern North Carolina about the factors that impact underrepresented students' choices of STEM related majors in college. Results can be used to inform and guide educators, administrators, and policy makers in developing programs and policy that support and encourage the STEM development of underrepresented students. Index Terms: Science, Technology, Engineering, and Mathematics (STEM), Underrepresented students

Factors That Contribute to Persistence and Retention of Underrepresented Minority Undergraduate Students in Science, Technology, Engineering, and Mathematics (STEM)

ERIC Educational Resources Information Center

Mitchell, Sidney Kirk

2011-01-01

The objective of this research was to identify specific factors that contribute to underrepresented minority (African American, Hispanic, Native American) undergraduate students' success in STEM disciplines at a regional university during the 2007-2010 timeframe. As more underrepresented minority (URM) students complete STEM degrees, many will…

Uncovering the lived experiences of junior and senior undergraduate female science majors

NASA Astrophysics Data System (ADS)

Adornato, Philip

The following dissertation focuses on a case study that uses critical theory, social learning theory, identity theory, liberal feminine theory, and motivation theory to conduct a narrative describing the lived experience of females and their performance in two highly selective private university, where students can cross-register between school, while majoring in science, technology, engineering and mathematics (STEM). Through the use of narratives, the research attempts to shed additional light on the informal and formal science learning experiences that motivates young females to major in STEM in order to help increase the number of women entering STEM careers and retaining women in STEM majors. In the addition to the narratives, surveys were performed to encompass a larger audience while looking for themes and phenomena which explore what captivates and motivates young females' interests in science and continues to nurture and facilitate their growth throughout high school and college, and propel them into a major in STEM in college. The purpose of this study was to uncover the lived experiences of junior and senior undergraduate female science majors during their formal and informal education, their science motivation to learn science, their science identities, and any experiences in gender inequity they may have encountered. The findings have implications for young women deciding on future careers and majors through early exposure and guidance, understanding and recognizing what gender discrimination, and the positive effects of mentorships.

The Conundrum of Social Class: Disparities in Publishing among STEM Students in Undergraduate Research Programs at a Hispanic Majority Institution

ERIC Educational Resources Information Center

Grineski, Sara; Daniels, Heather; Collins, Timothy; Morales, Danielle X.; Frederick, Angela; Garcia, Marilyn

2018-01-01

Research on the science, technology, engineering, and math (STEM) student development pipeline has largely ignored social class and instead examined inequalities based on gender and race. We investigate the role of social class in undergraduate student research publications. Data come from a sample of 213 undergraduate research participants…

Mission EarthFusing GLOBE with NASA Assets to Build SystemicInnovation in STEM Education

NASA Astrophysics Data System (ADS)

Czajkowski, K. P.; Garik, P.; Padgett, D.; Darche, S.; Struble, J.; Adaktilou, N.

2016-12-01

Mission Earth is a project funded through the NASA CAN that is developing a systematic embedding of NASA assets that is being implemented by a partnership of organizations across the US. Mission Earth brings together scientists and science educators to develop a K-12 "Earth as a system" curriculum progression following research-based best practices. GLOBE and NASA assets will be infused into the curricula of schools along the K-12 continuum, leveraging existing partnerships and networks and supported through state departments of education and targeting underrepresented groups, as a systemic, effective, and sustainable approach to meeting NASA's science education objectives. This presentation will discuss plans for the Mission Earth project and successes and lessons learned in the first year. Mission Earth is developing curricular materials to support vertically integrated learning progressions. It develops models of professional development utilizing sustainable infrastructures. It will support STEM careers focusing on career technical education (CTE). And, it will engage undergraduate education majors through pre-service courses and engineering students through engineering challenges.

Persistence of deaf students in science, technology, engineering, and mathematics undergraduate programs

NASA Astrophysics Data System (ADS)

Marchut, Amber E.

Diversifying the student population and workforce under science, technology, engineering, and mathematics (STEM) is a necessity if innovations and creativity are to expand. There has not been a lot of literature regarding Deaf students in STEM especially regarding understanding how they persist in STEM undergraduate programs to successfully become STEM Bachelor of Science degree recipients. This study addresses the literature gap by investigating six students' experiences as they navigate their STEM undergraduate programs. The investigation uses narrative inquiry methodology and grounded theory method through the lens of Critical Race Theory and Critical Deaf Theory. Using videotaped interviews and observations, their experiences are highlighted using narratives portraying them as individuals surviving in a society that tends to perceive being deaf as a deficit that needs to be treated or cured. The data analysis also resulted in a conceptual model providing a description of how they persist. The crucial aspect of the conceptual model is the participants learned how to manage being deaf in a hearing-dominated society so they can reach their aspirations. The essential blocks for the persistence and managing their identities as deaf undergraduate STEMs include working harder, relying on familial support, and affirming themselves. Through the narratives and conceptual model of the six Deaf STEM undergraduates, the goal is to contribute to literature to promote a better understanding of the persistence of Deaf students, members of a marginalized group, as they pursue their dreams.

Where Did You Come From? Where Will You Go? Human Evolutionary Biology Education and American Students' Academic Interests and Achievements, Professional Goals, and Socioscientific Decision-making

NASA Astrophysics Data System (ADS)

Schrein, Caitlin M.

In the United States, there is a national agenda to increase the number of qualified science, technology, engineering, and maths (STEM) professionals and a movement to promote science literacy among the general public. This project explores the association between formal human evolutionary biology education (HEB) and high school science class enrollment, academic achievement, interest in a STEM degree program, motivation to pursue a STEM career, and socioscientific decision-making for a sample of students enrolled full-time at Arizona State University. Given a lack of a priori knowledge of these relationships, the Grounded Theory Method was used and was the foundation for a mixed-methods analysis involving qualitative and quantitative data from one-on-one interviews, focus groups, questionnaires, and an online survey. Theory development and hypothesis generation were based on data from 44 students. The survey instrument, developed to test the hypotheses, was completed by 486 undergraduates, age 18--22, who graduated from U.S. public high schools. The results showed that higher exposure to HEB was correlated with greater high school science class enrollment, particularly for advanced biological science classes, and that, for some students, HEB exposure may have influenced their enrollment, because the students found the content interesting and relevant. The results also suggested that students with higher K--12 HEB exposure felt more prepared for undergraduate science coursework. There was a positive correlation between HEB exposure and interest in a STEM degree and an indirect relationship between higher HEB exposure and motivation to pursue a STEM career. Regarding a number of socioscientific issues, including but not limited to climate change, homosexuality, and stem cell research, students' behaviors and decision-making more closely reflected a scientific viewpoint---or less-closely aligned to a religion-based perspective---when students had greater HEB exposure, but this was sometimes contingent on students' lifetime exposure to religious doctrine and acceptance of general evolution or human evolution. This study has implications for K--12 and higher education and justifies a paradigm shift in evolution education research, such that more emphasis is placed on students' interests, perceived preparation for continued learning, professional goals and potential contributions to society rather than just their knowledge and acceptance.

An Undergraduate Research Experience that Integrates Traditional Field Mapping, LiDAR, and 3D Numerical Modeling: Applying Lessons from a Recent Report from the National Academies of Sciences, Engineering, and Medicine in an Intermediate-Level Tectonic Landscapes Course

NASA Astrophysics Data System (ADS)

Reinen, L. A.; Brenner, K.

2017-12-01

Ongoing efforts to improve undergraduate education in science, technology, engineering, and mathematics (STEM) fields focus on increasing active student participation and decreasing traditional lecture-based teaching. Undergraduate research experiences (UREs), which engage students in the work of STEM professionals, are an example of these efforts. A recent report from the National Academies of Sciences, Engineering and Medicine (Undergraduate Research Experiences for STEM Students: Successes, Challenges, and Opportunities; 2017) provides characteristics of UREs, and indicates that participation in UREs increases student interest and persistence in STEM as well as provides opportunities to broaden student participation in these fields. UREs offer an excellent opportunity to engage students in research using the rapidly evolving technologies used by STEM professionals. In the fall of 2016, students in the Tectonic Landscapes class at Pomona College participated in a course-based URE that combined traditional field mapping methods with analysis of high-resolution topographic data (LiDAR) and 3D numerical modeling to investigate questions of active local faulting. During the first ten weeks students developed skills in: creation of fault maps from both field observations (GPS included) and high-resolution digital elevation models (DEMs), assessment of tectonic activity through analyses of DEMs of hill slope diffusion models and geomorphic indices, and evaluation of fault geometry hypotheses via 3D elastic modeling. Most of these assignments were focused on a single research site. While students primarily used Excel, ArcMap, and Poly3D, no previous knowledge of these was required or assumed. Through this iterative approach, students used increasingly more complex methods as well as gained greater ownership of the research process with time. The course culminated with a 4-week independent research project in which each student investigated a question of their own choosing using skills developed earlier in the course. We will provide details of the course, scaffolding of the technical skills, growing the independence of students in the research process, and discuss early outcomes of student confidence, engagement and retention.

Patching the Leaky STEM Pipeline: Identifying Institutional Factors That Influence a STEM Qualified Female Undergraduate s Choice of Institution

NASA Astrophysics Data System (ADS)

Hurlock, Ashley J.

Despite increased female participation in the workforce and females earning more undergraduate degrees than men over the past decade, women are still awarded fewer undergraduate degrees than men and hold less than 25% of jobs in the areas of science, technology, engineering and math, or STEM (Beede, et al., 2011). Research shows that females may be leaking from the STEM pipeline because they are not choosing to attend institutions that fulfill their interdisciplinary and non-academic interests or have learning environments that are supportive of their needs. The purpose of this quantitative, cross-sectional survey study, conducted at one non-research intensive university, was to identify institutional factors most pertinent to the decision to attend a non-research intensive university by a "STEM qualified" female undergraduate student. 23 of 45 factors were reported as positively influencing their decision regardless of major. The top six factors for both groups were: average class size, campus environment, a visit to campus, university population size, and major/department offered. The seven factors ranked statistically significantly different between STEM and non-STEM majors were undergraduate research opportunities, faculty reputation, graduate/professional school admission, academic support/tutoring, graduate program available, intramural sports, and off-campus housing. Only two of 17 factors negatively influenced STEM majors who were accepted to a research intensive university: the research intensive university's size and average class sizes were undesirable compared to their current institution. STEM qualified females weighed the importance of non-academic factors as high, or higher, than critical academic factors. STEM qualified females are also choosing to attend the non-research intensive university for a variety of reasons and not simply because another institution did not offer certain academic factors. Future studies should expanded to include other non-research intensive universities, research intensive universities, and high schools in order to further understand the impact that certain factors have on female choice of institution. The authors strongly feel that if institutions which provide a more supportive environment for female undergraduates create successful recruitment initiatives, their female students may be more likely to persist as STEM majors. This could potentially patch one of the substantial leaks in the STEM pipeline for women.

Explaining Participation: An Explanatory History of Select Gender Patterns in Undergraduate STEM

NASA Astrophysics Data System (ADS)

Mastroianni, Michael Pasquale

This explanatory study examines three focal periods in undergraduate STEM as related to the gender gap. Social, economic, and more general historical data are used to develop a clear and powerful explanation of baccalaureate trends in biology and engineering. Specifically, historical accounts are offered for 1) a ten-year period in undergraduate biology in which the number of baccalaureates awarded to men decreased 44 percent, while the number of baccalaureates awarded to women decreased one percent; 2) the start of a twenty-year period in which the number of bachelor's degrees awarded in the biological sciences increased 150 percent---from 36,068 degrees in 1989, to 90,003 bachelor's degrees in 2011; and 3) a ten year period in undergraduate engineering where female graduation rates septupled---this ten-year time period is the only instance of meaningful and noteworthy growth for women in undergraduate engineering over the past half century. Findings from each history reveal a common narrative underlying baccalaureate trends. Implications for undergraduate STEM are discussed.

Beneath the Numbers: A Review of Gender Disparities in Undergraduate Education across Science, Technology, Engineering, and Math Disciplines

ERIC Educational Resources Information Center

Eddy, Sarah L.; Brownell, Sara E.

2016-01-01

This focused collection explores inequalities in the experiences of women in physics. Yet, it is important for researchers to also be aware of and draw insights from common patterns in the experiences of women across science, technology, engineering and mathematics (STEM) disciplines. Here, we review studies on gender disparities across college…

Exploring the Spatial Ability of Undergraduate Students: Association with Gender, STEM Majors, and Gifted Program Membership

ERIC Educational Resources Information Center

Yoon, So Yoon; Mann, Eric L.

2017-01-01

Spatial ability has been valued as a talent domain and as an assessment form that reduces cultural, linguistic, and socioeconomic status biases, yet little is known of the spatial ability of students in gifted programs compared with those in general education. Spatial ability is considered an important indicator of potential talent in the domains…

Palmetto Academy: Undergraduates Exploring and Communicating the Multidisciplinary Nature of STEM

NASA Astrophysics Data System (ADS)

Hall, C.; Ali, A.; Runyon, C. J.; Colgan, M. W.

2012-12-01

One of the pillars of the US economy is a well-trained Science, Technology, Engineering and Math (STEM) workforce (National Academy of Sciences, 2007). The number of students choosing to study science and engineering has taken a dramatic decline. The percentage of those degrees conferred in SC was substantially lower than the national average and the percentage of those occupations within the SC workforce also falls below the national average, supporting the need for engaging and educational STEM programs. The NASA South Carolina Space Grant Consortium's Palmetto Research Academy (PRA) program is an immersive and integrated multidisciplinary exposure and training for undergraduate students with various backgrounds and career aspirations of critical importance to the Nation. This program offers exciting and inspiring hands-on research experiences that are aligned with NASA missions. The PRA advances NASA's research interest in areas such as aeronautics, biomedical science, sun-earth connections, planetary and Earth science. The PRA helps to develop the STEM workforce in STEM disciplines, a necessity in South Carolina. In addition, the PRA incorporates an education/outreach component, where the students engage secondary educators and students in NASA scientific and technical expertise. In 2012, the PRA had 10 research projects across the state in disciplines of mechanical and chemical engineering, bioengineering, chemistry, biogeooptical sciences, physics and astronomy and biomedical sciences. 18 undergraduates and 2 technical college students participated in authentic hands-on research mentored by leading scientists and engineers throughout the state. Examples projects include: A) Development of a series of astronomical telescopes to be mounted on a commercial human-tended suborbital rockets. The students built the instrument, including the power system and the mechanical interface, and performed function and fit testing on the XCOR Aerospace Lynx vehicle mock-up. B) Mechanical modeling and statistical analysis to understand effects of radiation exposure on the joints of astronauts. The students characterized the effect of radiation on porcine cartilage biomechanics and biosynthesis through nano and microscale soft tissue mechanical testing, histological staining, and tissue biological assay techniques. C) Spectroscopy and derivation of water quality parameters from satellite visible/near-infrared (VIR) spectral radiometry. The student analyzed data, which provided frequent spatial information critical to the understanding of biogeochemical processes of interest to climate studies. The student conducted an intensive sampling campaign aboard a research vessel measuring biogeooptical properties and developed bio-optical models using NASA's MODIS sensor aboard the Aqua satellite to characterize water quality parameters (phytoplankton, suspended sediment, and dissolved organic matter). The student outreach project centered around the NASA Mars Science Laboratory Curiosity Rover. The PRA interns organized an event with several general astronomy and Mars/Curiosity planetarium shows, space-related games, and a viewing of the landing for over 50 elementary-middle school students, their parents, and numerous undergraduates. The results and the opportunities provided by PRA will be discussed.

Comparative analysis of female physicists in the physical sciences: Motivation and background variables

NASA Astrophysics Data System (ADS)

Dabney, Katherine P.; Tai, Robert H.

2014-06-01

The majority of existing science, technology, engineering, and mathematics (STEM) research studies compare women to men, yet a paucity of research exists that examines what differentiates female career choice within the physical sciences. In light of these research trends and recommendations, this study examines the following question: On average, do females who select physics as compared to chemistry doctoral programs differ in their reported personal motivations and background factors prior to entering the field? This question is analyzed using variables from the Project Crossover Survey data set through a subset of female physical science doctoral students and scientists (n =1137). A logistic regression analysis and prototypical odds ratio uncover what differentiates women in the physical sciences based on their academic achievement and experiences ranging from high school through undergraduate education. Results indicate that females who have negative undergraduate chemistry experiences as well as higher grades and positive experiences in undergraduate physics are more likely to pursue a career in physics as opposed to chemistry. Conclusions suggest that a greater emphasis should be placed on the classroom experiences that are provided to females in gateway physics courses. Analyses show that women are not a single entity that should only be examined as a whole group or in comparison to men. Instead women can be compared to one another to see what influences their differences in educational experiences and career choice in STEM-based fields as well as other academic areas of study.

Transforming Spatial Reasoning Skills in the Undergraduate Geoscience Classroom Through Interventions Based on Cognitive Science Research

NASA Astrophysics Data System (ADS)

Ormand, C. J.; Shipley, T. F.; Tikoff, B.; Manduca, C. A.; Dutrow, B. L.; Goodwin, L. B.; Hickson, T.; Atit, K.; Gagnier, K. M.; Resnick, I.

2013-12-01

Spatial visualization is an essential skill in many, if not all, STEM disciplines. It is a prerequisite for understanding subjects as diverse as fluid flow through 3D fault systems, magnetic and gravitational fields, atmospheric and oceanic circulation patterns, cellular and molecular structures, engineering design, topology, and much, much more. Undergraduate geoscience students, in both introductory and upper-level courses, bring a wide range of spatial skill levels to the classroom. However, spatial thinking improves with practice, and can improve more rapidly with intentional training. As a group of geoscience faculty members and cognitive psychologists, we are collaborating to apply the results of cognitive science research to the development of teaching materials to improve undergraduate geology majors' spatial thinking skills. This approach has the potential to transform undergraduate STEM education by removing one significant barrier to success in the STEM disciplines. Two promising teaching strategies have emerged from recent cognitive science research into spatial thinking: gesturing and predictive sketching. Studies show that students who gesture about spatial relationships perform better on spatial tasks than students who don't gesture, perhaps because gesture provides a mechanism for cognitive offloading. Similarly, students who sketch their predictions about the interiors of geologic block diagrams perform better on penetrative thinking tasks than students who make predictions without sketching. We are developing new teaching materials for Mineralogy, Structural Geology, and Sedimentology & Stratigraphy courses using these two strategies. Our data suggest that the research-based teaching materials we are developing may boost students' spatial thinking skills beyond the baseline gains we have measured in the same courses without the new curricular materials.

Differences within: A comparative analysis of women in the physical sciences --- Motivation and background factors

NASA Astrophysics Data System (ADS)

Dabney, Katherine Patricia Traudel

Science, technology, engineering, and mathematics (STEM) education has become a critical focus in the United States due to economic concerns and public policy (National Academy of Sciences, 2007; U.S. Department of Education, 2006). Part of this focus has been an emphasis on encouraging and evaluating career choice and persistence factors among underrepresented groups such as females in the physical sciences (Hill et al., 2010; National Academy of Sciences, 2007). The majority of existing STEM research studies compare women to men, yet a paucity of research exists that examines what differentiates female career choice within the physical sciences. In light of these research trends and recommendations, this study examines the following questions: 1. On average, do females who select chemistry or physics doctoral programs differ in their reported personal motivations and background factors prior to entering the field? 2. Do such variables as racial and ethnic background, age, highest level of education completed by guardians/parents, citizenship status, family interest in science, first interest in general science, first interest in the physical sciences, average grades in high school and undergraduate studies in the physical sciences, and experiences in undergraduate physical science courses explain a significant amount of variance in female physical scientists' years to Ph.D. completion? These questions are analyzed using variables from the Project Crossover Survey dataset through a subset of female physical science doctoral students and scientists. Logistic regression analyses are performed to uncover what differentiates women in the physical sciences based on their background, interest, academic achievement, and experiences ranging prior to elementary school through postsecondary education. Significant variables that positively predict a career choice in chemistry or physics include content specific high school and undergraduate academic achievement and positive undergraduate experiences. Two multiple regression models, one composed of female chemists and one of female physicists, examine significant predictors that positively associated with time to doctoral degree completion. The models account for little differentiation in the outcome of time to doctoral completion. In addition, significant predictors are based on demographic and achievement factors that were not paralleled in the two multiple regressions.

Undergraduate Students As Effective Climate Change Communicators

NASA Astrophysics Data System (ADS)

Sharif, H. O.; Joseph, J.; Mullendore, G. L.

2014-12-01

The University of Texas at San Antonio (UTSA), San Antonio College (SAC), and the University of North Dakota (UND) have partnered with NASA to provide underrepresented undergraduates from UTSA, SAC, and other community colleges climate-related research and education experiences through the Climate Change Communication: Engineer, Environmental science, and Education (C3E3) project. The program aims to develop a robust response to climate change by providing K-16 climate change education; enhance the effectiveness of K-16 education particularly in engineering and other STEM disciplines by use of new instructional technologies; increase the enrollment in engineering programs and the number of engineering degrees awarded by showing engineering's usefulness in relation to the much-discussed contemporary issue of climate change; increase persistence in STEM degrees by providing student research opportunities; and increase the ethnic diversity of those receiving engineering degrees and help ensure an ethnically diverse response to climate change. Students participated in the second summer internship funded by the project. The program is in its third year. More than 75 students participated in a guided research experiences aligned with NASA Science Plan objectives for climate and Earth system science and the educational objectives of the three institutions. The students went through training in modern media technology (webcasts), and in using this technology to communicate the information on climate change to others, especially high school students, culminating in production of webcasts on investigating the aspects of climate change using NASA data. Content developed is leveraged by NASA Earth observation data and NASA Earth system models and tools. Three Colleges were involved in the program: Engineering, Education, and Science.

Impacts and Feedbacks in a Warming Arctic: Engaging Diverse Learners in Geoscience Education and Research

NASA Astrophysics Data System (ADS)

Sparrow, Elena; Spellman, Katie; Fabbri, Cindy; Verbyla, David; Yoshikawa, Kenji; Fochesatto, Gilberto; Comiso, Josefino; Chase, Malinda; Jones, Debra; Bacsujlaky, Mara

2016-04-01

A warming climate has changed the timing of the seasons in the Arctic and elsewhere. Our project will engage learners in the investigation of the shifting seasons' impacts on vegetation, soils, hydrology, infrastructure, livelihoods, and communities and the feedbacks between these factors. Primary and secondary students, pre- and in-service teachers and lifelong learners will use historical and current National Aeronautics and Space Agency (NASA) data, NASA experts, and the Global Learning and Observations to Benefit the Environment (GLOBE) methods to help uncover the surprises from and consequences of earlier springs, warmer and later falls, changing ice cover, later freeze-up and earlier break-up of rivers and lakes. Key objectives are to: 1) provide new opportunities to bring NASA assets to learners of all ages, 2) enhance Science, Technology, Engineering and Mathematics (STEM) learning and understanding of the Earth system, 3) improve STEM instruction, 4) enhance STEM experience of undergraduate students, and 5) increase participation of groups historically underrepresented in STEM such as Native Americans who are also more vulnerable to climate change impacts. Incorporating issues of local importance with national and global implications, into educational experiences will make learning relevant which may be helpful to communities in developing strategies for adaptation. We intend to use NASA assets (e.g. MODIS snow data, NDVI, Cloudsat, and SMAP data), GLOBE methodologies (classic and new ground observations and measurements) to develop and deliver curriculum materials including culturally responsive learning activities, course/modules, professional development workshops, and educational experiences using best practices in pedagogy such as constructivism, inquiry- and place- based, interdisciplinary and systems approach, and cutting-edge technology to reach a variety of target audiences, while improving STEM education. Audiences include K-12 teachers and their students, home-schooled students, pre-service teachers, undergraduate students, and community members as citizen scientists. Those served will include groups historically under-represented in STEM fields (e.g. Alaska Natives). Learners will be engaged using face-to-face, online, and mobile technologies. Formative and summative assessments as well as outcome-based metrics will be developed to evaluate the success of program efforts. To accomplish objectives and leverage efforts, this project brings together subject matter experts, educational professionals, and practitioners in a teaming arrangement as well as leveraged partnerships that include the GLOBE Program, NASA Langley Education Program, NASA Goddard Space Flight Center, International Arctic Research Institute, School of Education, School of Natural Resources and Extension, Geophysical Institute, Institute of Arctic Biology, University of Alaska Fairbanks, Association of Interior Native Educators, Kenaitze Tribe Environmental Education Program, Urban and Rural School Districts, 4-H Program, Goldstream Group, Inc., National Science Foundation (NSF) Alaska Experimental Program to Stimulate Competitive Research, NSF Bonanza Creek Long Term Ecological Research and the NSF Polar Learning and Responding Climate Change Education Partnership.

The effect of graphic organizers on students' attitudes and academic performance in undergraduate general biology

NASA Astrophysics Data System (ADS)

Cleveland, Lacy

High attrition among undergraduate Science Technology Engineering and Mathematics (STEM) majors has led national and business leaders in the United States to call for both research and educational reform within the collegiate STEM classrooms. Included among suggestions for reform are ideas to improve retention of first-year students and to improve critical thinking and depth of knowledge, instead of covering large quantities of materials. Past research on graphic organizers suggest these tools assist students in learning information and facilitate conceptual and critical thinking. Despite their widespread use in high school science departments, collegiate humanities departments, and even medical schools, their use is considerably less prevalent in the undergraduate biology classroom. In addition to their lack of use, little research has been conducted on their academic benefits in the collegiate classroom. Based on national calls for improving retention among undergraduate STEM majors and research suggesting that academic success during an individual first major's related course highly determine if that individual will continue on in their intended major, the researcher of this dissertation chose to conduct research on an introductory general biology class. Using both quantitative and qualitative methods, the research in this dissertation examines the effectiveness of graphic organizers in promoting academic success and also examines their influence on student attitudes. This research is grounded in the theories of constructivism and cognitive load theory. Constructivism suggests that individuals must build their knowledge from their personal experiences, while the cognitive load theory recognizes the limited nature of one's working memory and suggests that instructional practices minimize cognitive overload. The results of this dissertation suggest that the use of graphic organizers in an undergraduate general biology classroom can increase students' academic success when the cognitive load is high; however, when the instructors make effort to reduce cognitive load, while providing the students an opportunity to participate in metacognitive activities and to engage their germane working memory, graphic organizers do not provide an additional benefit to the students.

Earth System Science Education for the 21st Century: Progress and Plans

NASA Astrophysics Data System (ADS)

Ruzek, M.; Johnson, D. R.; Wake, C.; Aron, J.

2005-12-01

Earth System Science Education for the 21st Century (ESSE 21) is a collaborative undergraduate/graduate Earth system science education program sponsored by NASA offering small grants to colleges and universities with special emphasis on including minority institutions to engage faculty and scientists in the development of Earth system science courses, curricula, degree programs and shared learning resources. The annual ESSE 21 meeting in Fairbanks in August, 2005 provided an opportunity for 70 undergraduate educators and scientists to share their best classroom learning resources through a series of short presentations, posters and skills workshops. This poster will highlight meeting results, advances in the development of ESS learning modules, and describe a community-led proposal to develop in the coming year a Design Guide for Undergraduate Earth system Science Education to be based upon the experience of the 63 NASA-supported ESSE teams over the past 15 years. As a living document on the Web, the Design Guide would utilize and share ESSE experiences that: - Advance understanding of the Earth as a system - Apply ESS to the Vision for Space Exploration - Create environments appropriate for teaching and learning ESS - Improve STEM literacy and broaden career paths - Transform institutional priorities and approaches to ESS - Embrace ESS within Minority Serving Institutions - Build collaborative interdisciplinary partnerships - Develop ESS learning resources and modules The Design Guide aims to be a synthesis of just how ESS has been and is being implemented in the college and university environment, listing items essential for undergraduate Earth system education that reflect the collective wisdom of the ESS education community. The Design Guide will focus the vision for ESS in the coming decades, define the challenges, and explore collaborative processes that utilize the next generation of information and communication technology.

Drilling Deep Into STEM Education with JOIDES Resolution Education and Outreach Officers

NASA Astrophysics Data System (ADS)

Christiansen, E. A.

2015-12-01

During International Ocean Discovery Program (IODP) expeditions, IODP scientists and Education/Outreach (E/O) Officers enter classrooms and informal science venues via live Internet video links between the JOIDES Resolution (JR) and land-based learning centers. Post-expedition, E/O Officers, serving as JR Ambassadors, deepen and broaden the learning experience by bringing STEM from the JR to the general public through targeted outreach events at those land-based sites. Youth and adult learners participate in scientific inquiry through interactive activities linked directly to the video broadcast experience. Outreach venues include museums, summer camps, and after-school programs; classroom visits from E/O Officers encompass kindergarten to undergraduate school groups and often include professional development for educators. Events are hands-on with simulations, expedition samples, core models, and equipment available for interaction. This program can serve as a model for linking virtual and real experiences; deepening the educational value of virtual field trip events; and bringing cutting edge science into both classrooms and informal science venues.

Activities, Animations, and Online Tools to Enable Undergraduate Student Learning of Geohazards, Climate Change, and Water Resources

NASA Astrophysics Data System (ADS)

Pratt-Sitaula, B. A.; Walker, B.; Douglas, B. J.; Cronin, V. S.; Funning, G.; Stearns, L. A.; Charlevoix, D.; Miller, M. M.

2017-12-01

The NSF-funded GEodesy Tools for Societal Issues (GETSI) project is developing teaching resources for use in introductory and majors-level courses, emphasizing a broad range of geodetic methods and data applied to societally important issues. The modules include a variety of hands-on activities, demonstrations, animations, and interactive online tools in order to facilitate student learning and engagement. A selection of these activities will be showcased at the AGU session. These activities and data analysis exercises are embedded in 4-6 units per module. Modules can take 2-3 weeks of course time total or individual units and activities can be selected and used over just 1-2 class periods. Existing modules are available online via serc.carleton.edu/getsi/ and include "Ice mass and sea level changes", "Imaging active tectonics with LiDAR and InSAR", "Measuring water resources with GPS, gravity, and traditional methods", "Surface process hazards", and "GPS, strain, and earthquakes". Modules, and their activities and demonstrations were designed by teams of faculty and content experts and underwent rigorous classroom testing and review using the process developed by the Science Education Resource Center's InTeGrate Project (serc.carleton.edu/integrate). All modules are aligned to Earth Science and Climate literacy principles. GETSI collaborating institutions are UNAVCO (which runs NSF's Geodetic Facility), Indiana University, and Mt San Antonio College. Initial funding came from NSF's TUES (Transforming Undergraduate Education in STEM). A second phase of funding from NSF IUSE (Improving Undergraduate STEM Education) is just starting and will fund another six modules (including their demonstrations, activities, and hands-on activities) as well as considerably more instructor professional development to facilitate implementation and use.

A cosmic Ray Muon Experiment: a Way to Teach Standard Model of Particles at Community Colleges

NASA Astrophysics Data System (ADS)

Barazandeh, C.; Gutarra-Leon, A.; Rivas, R.; Glaser, H.; Majewski, W.

2016-11-01

This experiment is an example of research for early undergraduate students and of its benefits and challenges as an accessible strategy for community colleges, in the spirit of the report on improving undergraduate STEM education from the US President's Council of Advisors on Science and Technology. The goals of this project include measuring average low- energy muon flux, day/night flux difference, time dilation, energy spectra of electrons and muons in arbitrary units, muon decay curve, average lifetime of muons. From the lifetime data we calculate the weak coupling constant gw, electric charge e and the Higgs energy density.

Integrating Leadership Development throughout the Undergraduate Science Curriculum

ERIC Educational Resources Information Center

Reed, Kelynne E.; Aiello, David P.; Barton, Lance F.; Gould, Stephanie L.; McCain, Karla S.; Richardson, John M.

2016-01-01

This article discusses the STEM (science, technology, engineering, and mathematics) Teaching and Research (STAR) Leadership Program, developed at Austin College, which engages students in activities integrated into undergraduate STEM courses that promote the development of leadership behaviors. Students focus on interpersonal communication,…

Supporting a Diverse Community of Undergraduate Researchers in Satellite and Ground-Based Remote Sensing

NASA Astrophysics Data System (ADS)

Blake, R.; Liou-Mark, J.

2012-12-01

The U.S. remains in grave danger of losing its global competitive edge in STEM. To find solutions to this problem, the Obama Administration proposed two new national initiatives: the Educate to Innovate Initiative and the $100 million government/private industry initiative to train 100,000 STEM teachers and graduate 1 million additional STEM students over the next decade. To assist in ameliorating the national STEM plight, the New York City College of Technology has designed its NSF Research Experience for Undergraduate (REU) program in satellite and ground-based remote sensing to target underrepresented minority students. Since the inception of the program in 2008, a total of 45 undergraduate students of which 38 (84%) are considered underrepresented minorities in STEM have finished or are continuing with their research or are pursuing their STEM endeavors. The program is comprised of the three primary components. The first component, Structured Learning Environments: Preparation and Mentorship, provides the REU Scholars with the skill sets necessary for proficiency in satellite and ground-based remote sensing research. The students are offered mini-courses in Geographic Information Systems, MATLAB, and Remote Sensing. They also participate in workshops on the Ethics of Research. Each REU student is a member of a team that consists of faculty mentors, post doctorate/graduate students, and high school students. The second component, Student Support and Safety Nets, provides undergraduates a learning environment that supports them in becoming successful researchers. Special networking and Brown Bag sessions, and an annual picnic with research scientists are organized so that REU Scholars are provided with opportunities to expand their professional community. Graduate school support is provided by offering free Graduate Record Examination preparation courses and workshops on the graduate school application process. Additionally, students are supported by college counselors. Many of the students are first generation college students who often face issues that can impede their academic progress. The last component, Vision and Impetus for Advancement, allows REU Scholars to see themselves as STEM scientists and workforce professionals. Exposure trips provide students with an opportunity to meet scientists working in industry. Additionally, the students also present their research and participate at local, regional, and national conferences. Furthermore, since many of the students were never given the chance to visit STEM-focused industries and conferences. The program, therefore, helps to broaden their STEM experience. Of the 38 REU Scholars, 16%(6) of them are in graduate school in the STEM disciplines, 21%(8) of them have graduated and are in the STEM workforce, and 63%(24) of them continue to pursue their STEM degrees. Three of the students have won first place recognition for their research, and two of the students will be co-authors for two peer-review publications and one book chapter. Additionally, survey results show that 84% of the student participants now indicate interest in pursuing Master's degrees in STEM and 75% indicate interest in pursuing doctoral degrees in STEM. This program is supported by NSF REU grant #1062934.

The Mathematics Attitudes and Perceptions Survey: an instrument to assess expert-like views and dispositions among undergraduate mathematics students

NASA Astrophysics Data System (ADS)

Code, Warren; Merchant, Sandra; Maciejewski, Wes; Thomas, Matthew; Lo, Joseph

2016-08-01

One goal of an undergraduate education in mathematics is to help students develop a productive disposition towards mathematics. A way of conceiving of this is as helping mathematical novices transition to more expert-like perceptions of mathematics. This conceptualization creates a need for a way to characterize students' perceptions of mathematics in authentic educational settings. This article presents a survey, the Mathematics Attitudes and Perceptions Survey (MAPS), designed to address this need. We present the development of the MAPS instrument and its validation on a large (N = 3411) set of student data. Results from various MAPS implementations corroborate results from analogous instruments in other STEM disciplines. We present these results and highlight some in particular: MAPS scores correlate with course grades; students tend to move away from expert-like orientations over a semester or year of taking a mathematics course; and interactive-engagement type lectures have less of a negative impact, but no positive impact, on students' overall orientations than traditional lecturing. We include the MAPS instrument in this article and suggest ways in which it may deepen our understanding of undergraduate mathematics education.

STEm Minority Graduate Program

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

Nicholas, Kaen E

ABSTRACT The state of science, technology, engineering and math (STEM) education in the United States has seen some unfavorable assessments over the past decade. In early February, 2010 the House of Representatives heard testimony on undergraduate and graduate education. The message from the panel, which included experts from academia, STEM-based industries, and the National Science Foundation (NSF) was dire and required an urgent response. The experts along with the committee's chairperson, U. S. Representative Daniel Lipinski (D-IL) cited that the complexity of Science, Technology, Engineering, and Mathematics applications and coursework and the methodology utilized to teach these subjects are forcingmore » students out of these disciplines. As the National Academies described in its 2007 report Rising Above the Gathering Storm, successful STEM education is not just an academic pursuit it's a necessity for competing in the knowledge-based economy that the United States had a key role in creating. The potential for action is being made available again as the America COMPETES Act of 2007 is up for reauthorization. Its initial focus was on STEM education at the K-12 levels, but efforts at the undergraduate and graduate levels are needed to retain students to fill the jobs left vacant as baby boomers retire. The Educational Advancement Alliance, Inc. (EAA) has for two decades created programs that have not only addressed the issues of ensuring that students are aptly prepared for college but have focused its efforts over the past decade on increasing the number of students who pursue degrees in STEM disciplines. For the EAA, the introduction of the wonders of science begins at the elementary and middle school level via the Learning Lab, a state-of-the-art mobile science laboratory that visits students in grades 4-6 at the various schools throughout Philadelphia and The Math/Tech Academy which meets on Saturdays for students in grades 5-7. For the past two years the EAA has assisted college graduates in their quest to attain advanced degrees in STEM by providing fellowships. The EAA continued this effort by recruiting and providing fellowships to students who aspired to continue their education at the graduate level. The fellowships provided funding for tuition, fees, books, technology, and stipends to assist with room, board, and living expenses during the academic year and salary, transportation, and living expenses to those students who secured internships with the Department of Energy. Additionally the EAA designed and implemented needed support systems to ensure successful completion of the Masters degree programs, including but not limited to membership in professional associations, attendance at industry and academic conferences, and professional development workshops, and tutorial assistance if needed. This program assisted over 80 students directly and society-at-large by helping to educate and develop future physicists, engineers, biostatisticians, and researchers who will have the necessary skillsets to fill the increasing numbers of positions that require such expertise.« less

An Investigation of Faculty Relationships as a Source of Motivation for STEM Undergraduates at a Historically Black University

NASA Astrophysics Data System (ADS)

Mitchell, Aquila

2011-12-01

The expansion of STEM education and career opportunities among underrepresented populations is a national priority. Therefore, more research is needed that examines the institutional, instructional and individual factors related to African American students' success in these fields. This dissertation study was drawn from a larger mixed-methods longitudinal study (Freeman and Winston, 2007). It utilized a concurrent embedded design of mixed methods (Creswell, 2009), to investigate faculty relationships as a source of motivation for STEM undergraduates at a HBCU. Bandura's (1986) social cognitive theory was the theoretical basis for this study. The following research questions were examined: (a) What is the nature of student-faculty relationships among STEM undergraduates attending an HBCU; (b) How does the nature of faculty student relationships vary by gender and STEM major; (c) How do student-faculty relationships influence students' persistence in STEM, self-concept of ability in mathematics and in science and grade point average; and (d) Does the influence of student-faculty relationships on self-concept of ability in mathematics and in science and grade point average vary by gender and STEM major? Freshman college students (N=167) who had a declared major in STEM fall 2009 were participants in this study. Students were predominately Black/African American (82%) and predominately female (71%). The Student-Professor Interaction Scale (SPIS) was used to measure various dimensions of student-faculty interactions (Cokley, Komarraju, Rosales, et al., 2006). The Experiences with Faculty Scale (Pace & Kuh, 1998) was used to measure the frequency of student's experiences with faculty. Self-Concept of Ability Scales in Mathematics and in Science (Marsh, 1999) was used to measure students' global perception of their abilities. An open-ended question was designed to expand and provide breadth to the quantitative results. Findings indicated that student-faculty relationships had a statistically significant influence on students self concept of ability in mathematics and in science, GPA and persistence. In addition, gender moderated the relationship between respectful interactions and self-concept of ability in mathematics. This study adds to the scholarly body of research by providing a perspective on African American student achievement and success within STEM and the role the HBCU professor plays in their motivation and achievement.

The Role of Student-Advisor Interactions in Apprenticing Undergraduate Researchers into a Scientific Community of Practice

NASA Astrophysics Data System (ADS)

Thiry, Heather; Laursen, Sandra L.

2011-12-01

Among science educators, current interest in undergraduate research (UR) is influenced both by the traditional role of the research apprenticeship in scientists' preparation and by concerns about replacing the current scientific workforce. Recent research has begun to demonstrate the range of personal, professional, and intellectual benefits for STEM students from participating in UR, yet the processes by which student-advisor interactions contribute to these benefits are little understood. We employ situated learning theory (Lave and Wenger, Situated learning: legitimate peripheral participation, Cambridge University Press, Cambridge in 1991) to examine the role of student-advisor interactions in apprenticing undergraduate researchers, particularly in terms of acculturating students to the norms, values, and professional practice of science. This qualitative study examines interviews with a diverse sample of 73 undergraduate research students from two research-extensive institutions. From these interviews, we articulate a continuum of practices that research mentors employed in three domains to support undergraduate scientists-in-training: professional socialization, intellectual support, and personal/emotional support. The needs of novice students differed from those of experienced students in each of these areas. Novice students needed clear expectations, guidelines, and orientation to their specific research project, while experienced students needed broader socialization in adopting the traits, habits, and temperament of scientific researchers. Underrepresented minority students, and to a lesser extent, women, gained confidence from their interactions with their research mentors and broadened their future career and educational possibilities. Undergraduate research at research-extensive universities exemplifies a cycle of scientific learning and practice where undergraduate researchers are mentored by graduate students and postdoctoral researchers, who are themselves apprentices to faculty members. As such, research mentors of undergraduate students should be aware of the dual scientific and educational aspects of their advising role and its significance in shaping students' identities and career trajectories.

Āwhina Revolution: A Bayesian Analysis of Undergraduate and Postgraduate Completion Rates from a Program for Māori and Pacific Success in STEM Disciplines.

PubMed

Richardson, Ken; Clark, Zaramasina; Gaines, Michael; Kingi, Hautahi; Miller, Sonja; Pearson, Willie; Richardson, Liz

2018-01-01

Māori and Pacific students generally do not attain the same levels of tertiary success as New Zealanders of European descent, particularly in science, technology, engineering, and mathematics (STEM) subjects. Te Rōpū Āwhina (Āwhina), an equity initiative at Victoria University of Wellington in New Zealand between 1999 and 2015, aimed to produce Māori and Pacific professionals in STEM disciplines who contribute to Māori and Pacific community development and leadership. A hierarchical Bayesian approach was used to estimate posterior standardized completion rates for 3-year undergraduate and 2-year postgraduate degrees undertaken by non-Māori-Pacific and Māori-Pacific students. Results were consistent with an Āwhina effect, that is, Āwhina's positive influence on (combined) Māori and Pacific success. © 2018 K. Richardson et al. CBE—Life Sciences Education © 2018 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Workforce and graduate school outcomes of NOAA's Educational Partnership Program

NASA Astrophysics Data System (ADS)

Christenson, T.; Kaplan, M.

2017-12-01

Underrepresented groups, including Black, Hispanic, Native American, Alaska Native, Native Hawaiian and Pacific Island professionals remain underrepresented in STEM fields generally, and in the ocean and atmospheric sciences specifically. NOAA has tried to address this disparity through a number of initiatives under the Educational Partnership Program with Minority Serving Institutions (EPP MSI) which currently has two components: four Cooperative Science Centers (CSCs) aligned with NOAA's mission areas; and an Undergraduate Scholarship Program (USP), both established in 2001. In order to determine the outcomes for the program participants and the impacts of these programs on degree completions and on the workforce, the EPP MSI undertook a multi-pronged effort to identify career and education achievements for 80% of the approximately 1750 EPP MSI alumni, 75% of whom are from underrepresented groups. This was accomplished through 1) searching online resources (e.g. professional web pages, LinkedIn, etc.), 2) personal communication with program-associated faculty, 3) National Student Clearinghouse, 4) a survey of former scholars conducted by Insight Policy Research, and 5) self-reporting though NOAA's Voluntary Alumni Update System. Results show that 60% of CSC alumni currently hold an advanced degree in a STEM field with another 8% currently working toward one. 66% of EPP Undergraduate Scholars go to graduate school. 72% of CSC and USP alumni are currently employed in or pursuing a graduate degree in a NOAA-related* field. More than 70 CSC graduates currently work for NOAA as contractors or federal employees while more than 240 work for other government agencies. More than 400 are employed in the private sector. Of more than 225 PhD graduates, 66 have completed or currently hold post-doctoral positions in NOAA mission fields; 71 have held faculty positions at major universities. However, one challenge is retaining diverse STEM talent within the Geosciences in light of the lure of lucrative jobs in other STEM fields and ensuring robust outcomes beyond degree completions.

Persistence of Undergraduate Women in STEM Fields

ERIC Educational Resources Information Center

Pedone, Maggie Helene

2016-01-01

The underrepresentation of women in science, technology, engineering, and mathematics (STEM) is a complex problem that continues to persist at the postsecondary level, particularly in computer science and engineering fields. This dissertation explored the pre-college and college level factors that influenced undergraduate women's persistence in…

Stepping Stones to Research: Providing Pipelines from Middle School through PhD

NASA Astrophysics Data System (ADS)

Noel-Storr, Jacob; Baum, S. A.; RIT Insight Lab SSR Team; Carlson CenterImaging Science Faculty, Chester F.

2014-01-01

We present a decade's worth of strategies designed to promote and provide "Stepping Stones to Research" to provide a realistic pipeline of educational opportunities, with multiple gateways and exit points, for students moving towards STEM careers along the "STEM pipeline". We also illustrate how the Stepping Stones are designed to incidentally co-inside with related external opportunities through which we can also guide and support our mentees on their paths. We present programs such as middle school family science programs, high school research opportunities, high school internships, undergraduate research pathways, research experiences for undergraduates, and other opportunities. We will highlight the presentations being made at this very meeting -- from the first presentation of a high school student, to a dissertation presentation of a PhD graduate -- that have benefited from this stepping stone principle. We also reflect on the essential nature of building a "researcher-trust", even as a young student, of advocates and mentors who can support the continuation of a scientific career.

Research and Teaching: Development of Undergraduate Teaching Assistants as Effective Instructors in STEM Courses

ERIC Educational Resources Information Center

Philipp, Stephanie B.; Tretter, Thomas; Rich, Christine V.

2016-01-01

This study examined the development of peer mentoring skills and deepening of content knowledge by trained and supported undergraduate teaching assistants working with students in entry-level STEM courses across nine departments at a large research-intensive U.S. university.

Effective Recruiting and Intrusive Retention Strategies for Diversifying the Geosciences through a Research Experiences for Undergraduate Program

NASA Astrophysics Data System (ADS)

Liou-Mark, J.; Blake, R.; Norouzi, H.; Yuen-Lau, L.; Ikramova, M.

2016-12-01

Worse than in most Science, Technology, Engineering, and Mathematics (STEM) fields, underrepresented minority (URM) groups in the geosciences are reported to be farthest beneath the national benchmarks. Even more alarming, the geosciences have the lowest diversity of all the STEM disciplines at all three levels of higher education. In order to increase the number of underrepresented groups in the geosciences, a National Science Foundation funded Research Experiences for Undergraduates (REU) program at the New York City College of Technology has implemented effective recruitment strategies to attract and retain diverse student cohorts. Recruitment efforts include: 1) establishing partnership with the local community colleges; 2) forging collaborations with scientists of color; 3) reaching out to the geoscience departments; and 4) forming relationships with STEM organizations. Unlike the other REU programs which primarily provide a summer-only research experience, this REU program engages students in a year-long research experience. Students begin their research in the summer for nine weeks, and they continue their research one day a week in the fall and spring semesters. During the academic year, they present their projects at conferences. They also serve as STEM ambassadors to community and high school outreach events. This one-year triad connection of 1) professional organizations/conferences, 2) continual research experience, and 3) service constituent has resulted in higher retention and graduation rates of URMs in the STEM disciplines. Both formative and summative program assessment have uncovered and shown that strong recruitment efforts accompanied by intrusive retention strategies are essential to: a) sustain and support STEM URMs in developing confidence as scientists; b) create formal and informal STEM communities; and c) provide a clear pathway to advanced degrees and to the geoscience workforce. This project is supported by NSF REU Grant #1560050.

Assessing Attitudes Towards Science During an Adaptive Online Astrobiology Course: Comparing Online and On-Campus Undergraduates

NASA Astrophysics Data System (ADS)

Perera, Viranga; Mead, Chris; Buxner, Sanlyn; Horodyskyj, Lev; Semken, Steven; Lopatto, David; Anbar, Ariel

2016-10-01

General-education Science, Technology, Engineering, and Mathematics (STEM) courses are accepted as essential to a college education. An often cited reason is to train a scientifically literate populace who can think critically and make informed decisions about complex issues such as climate change, health care, and atomic energy. Goals of these STEM courses, therefore, go beyond content knowledge to include generating positive attitudes towards science, developing competence in evaluating scientific information in everyday life and understanding the nature of science. To gauge if such non-content learning outcomes are being met in our course, an online astrobiology course called Habitable Worlds, we administered the Classroom Undergraduate Research Experience (CURE) survey to students. The survey was administered before and after completion of the course for three semesters starting with the Fall 2014 semester and ending with the Fall 2015 semester (N = 774). A factor analysis indicated three factors on attitudes: toward science education, toward the interconnectedness of science with non-science fields, and toward the nature of science. Here we present some differences between students enrolled in online degree programs (o-course) and those enrolled in traditional undergraduate programs (i-course). While mean course grades were similar, changes in attitudes toward science differ significantly between o-course and i-course students. The o-course students began the course with more positive attitudes across all three factors than the i-course students. Their attitudes toward science education improved during the course, while the i-course students showed no change. Attitudes toward the other two factors declined in both populations during the course, but declines were smaller among o-course students. These differences may indicate lesser intrinsic motivation among the i-course students. The CURE survey has not been used before in an online course; therefore, we will continue to examine factor analysis, student interviews, and expert review data to validate it for online science courses.

Increasing College Students' Interest and Engagement in STEM: A Comparison of Strategies for Challenging STEM Stereotypes

NASA Astrophysics Data System (ADS)

Shin, Jiyun Elizabeth L.

Increasing science, technology, engineering, and mathematics (STEM) graduates has become an important part of the education agenda in the U.S. in recent years. Stereotypes about STEM (i.e., belief that STEM abilities are innate, and that European American men are best suited for STEM) have been identified as one of the critical factors that may contribute to low recruitment and retention of STEM students. Drawing from the literatures on biological essentialism and role models, this study compared different strategies for challenging STEM stereotypes among undergraduate students in STEM and non-STEM fields. STEM stereotypes were challenged directly with research articles that provided non-biological explanations for STEM success and interest (a strategy used in the essentialism research) and indirectly with biographies of successful STEM role models who are underrepresented in their field and who succeeded through hard work (a strategy used in the role model research). Contrary to the predictions, exposure to the role model biographies, research articles, or combination of both did not have statistically significant effects on participants' reported STEM interest and academic intentions. Possible explanations for the lack of significant findings as well as suggestions for developing effective interventions to promote STEM engagement among students are discussed.

Discovery and Broad Relevance May Be Insignificant Components of Course-Based Undergraduate Research Experiences (CUREs) for Non-Biology Majors.

PubMed

Ballen, Cissy J; Thompson, Seth K; Blum, Jessamina E; Newstrom, Nicholas P; Cotner, Sehoya

2018-01-01

Course-based undergraduate research experiences (CUREs) are a type of laboratory learning environment associated with a science course, in which undergraduates participate in novel research. According to Auchincloss et al. (CBE Life Sci Educ 2104; 13:29-40), CUREs are distinct from other laboratory learning environments because they possess five core design components, and while national calls to improve STEM education have led to an increase in CURE programs nationally, less work has specifically focused on which core components are critical to achieving desired student outcomes. Here we use a backward elimination experimental design to test the importance of two CURE components for a population of non-biology majors: the experience of discovery and the production of data broadly relevant to the scientific or local community. We found nonsignificant impacts of either laboratory component on students' academic performance, science self-efficacy, sense of project ownership, and perceived value of the laboratory experience. Our results challenge the assumption that all core components of CUREs are essential to achieve positive student outcomes when applied at scale.

Becoming a Scientist: Research Findings on STEM Students' Gains from Conducting Undergraduate Research

NASA Astrophysics Data System (ADS)

Hunter, A.; Laursen, S.; Thiry, H.; Seymour, E.

2006-12-01

Undergraduate research is widely believed to enhance STEM students' education and increase their persistence to graduate education and careers in the sciences. Yet until very recently, little evidence from research and evaluation studies was available to substantiate such claims and document what students gain from doing undergraduate research or how these gains come about. We have conducted a three-year qualitative research study of STEM students participating in UR at four liberal arts colleges with a strong tradition of faculty-led summer research apprenticeships. Benefits to students reported by both students and their faculty advisors are categorized into six main categories of gains in skills, knowledge, "thinking like a scientist," career preparation, career development, and personal and professional growth. Student and faculty observations are strongly corroborative, but also differ in interesting ways that reflect the distinct perspectives of each group: students are still in the midst of discovering their own career paths while faculty advisors have observed the later career development of their past research students. While not all students find UR to heighten their interest in graduate school, they do find it a powerful growth experience that clarifies their career ambitions by providing a "real world" experience of science. For students whose interest in science is reinforced, UR has a significant role in their professional socialization into the culture and norms of science, which we call "becoming a scientist," through interactions that draw them into the scientific community and experiences that deepen their understanding of the nature of research. Cumulatively, the qualitative data set of nearly 350 interviews offers a rich portrayal of the UR enterprise from a variety of perspectives. Longitudinal data enable us to track the influence of UR on students' career and education trajectories in the years after college, and comparative data from a group of students who did not undertake UR or pursued alternate experiences reveal the extent to which some benefits of UR may be derived from other experiences. Faculty interviews reveal the costs and benefits to faculty of participating in this intensive form of science education. The presentation will highlight key findings and emphasize their relevance to faculty and program directors undertaking UR or seeking to generate its benefits through other activities.

ADVANCing the Agenda for Gender Equity

ERIC Educational Resources Information Center

Laursen, Sandra L.; Austin, Ann E.; Soto, Melissa; Martinez, Dalinda

2015-01-01

In recent years, women's representation in the science, technology, engineering, and mathematics (STEM) fields has grown at the undergraduate level, with STEM degrees earned by US women reaching parity in some fields and making notable progress in others. Yet the faculty with whom these undergraduates interact in classes and labs are much less…

"Underprepared" and "At-Risk": Disrupting Deficit Discourses in Undergraduate STEM Recruitment and Retention Programming

ERIC Educational Resources Information Center

Castro, Erin L.

2014-01-01

This paper highlights deficit-oriented descriptions of underrepresented undergraduate students in STEM intervention programs at large public 4-year universities. Drawing from interview data and using critical discourse analysis, the author identifies how deficit discourses are mobilized among program staff and argues that such descriptions…

Pipelines and Pathways: Women of Color in Undergraduate STEM Majors and the College Experiences That Contribute to Persistence

ERIC Educational Resources Information Center

Espinosa, Lorelle L.

2011-01-01

Supporting undergraduate achievement in science, technology, engineering, and mathematics (STEM) disciplines is paramount to ensuring our nation's continued scientific and technological advancement. In this quantitative study, Lorelle Espinosa examines the effect of precollege characteristics, college experiences, and institutional setting on the…

Addressing the Underrepresentation of Women in Physics at Multiple Levels

NASA Astrophysics Data System (ADS)

Greco, Shannon; Dominguez, Arturo; Ortiz, Deedee; Zwicker, Andrew

2016-10-01

APS provides support to several universities and research institutions to host Conferences for Undergraduate Women in Physics (CUWiP). The goal of these Conferences is to provide practical tools and a community to help women persist in physics and STEM careers. This is particularly relevant for the DPP where women make up only 7% of the membership. In January 2017, Princeton University and the Princeton Plasma Physics Laboratory (PPPL) will host a CUWiP. CUWiP and the Science Undergraduate Laboratory Internship (SULI) program expose undergraduates to the variety of possible careers in plasma physics and fusion energy in academia, government labs or private industry. We will report on the success of a number of PPPL programs to engage women at all levels in physics and highlight how programs such as CUWiP and SULI contribute to this goal. Special thanks to the Department of Energy for supporting PPPL's education programs and to APS for supporting the Conference for Undergraduate Women in Physics.

Preparing physics students for careers outside of academia

NASA Astrophysics Data System (ADS)

Redmond, Kendra; Czujko, Roman; Sauncy, Toni

2014-03-01

Most undergraduate physics programs focus on preparing students for physics graduate school, but in reality around 40% of physics bachelor's degree recipients go directly into the workforce. In response to calls for more STEM workers and a desire to see more students of all ambitions benefit from a physics education, the American Institute of Physics has been exploring how physics departments can better prepare their students to enter the STEM workforce after the bachelor's degree, and how students can better prepare themselves to enter the STEM workforce. This poster will include results from this NSF-funded Career Pathways Project, including an overview of common features of departments that successfully prepare students to enter the workforce and a career toolbox we have created for physics students. Work supported by NSF award 1011829.

Connecting Physics Bachelors to Their Dream Jobs

NASA Astrophysics Data System (ADS)

Bhattacharya, Shouvik

2013-01-01

People who earn bachelor’s degrees in physics are highly employable. Employers value the skills that physics bachelor’s recipients acquire and develop over their four years of a college education, such as complex problem solving, advanced mathematics, teamwork and programming. The Career Pathways Project of the American Institute of Physics (AIP) aims to better prepare physics undergraduates for the science, technology, engineering, and math (STEM) workforce. This presentation will include a discussion of common features among departments visited by the AIP’s Career Pathways team, ideas for a career workshop for physics undergraduates, and advice on how to make the most out of a job fair and how to start effective online professional networking.

An Integrated Model for Improving Undergraduate Geoscience Workforce Readiness

NASA Astrophysics Data System (ADS)

Keane, C. M.; Houlton, H. R.

2017-12-01

Within STEM fields, employers are reporting a widening gap in the workforce readiness of new graduates. As departments continue to be squeezed with new requirements, chasing the latest technologies and scientific developments and constrained budgets, formal undergraduate programs struggle to fully prepare students for the workforce. One major mechanisms to address gaps within formal education is in life-long learning. Most technical and professional fields have life-long learning requirements, but it is not common in the geosciences, as licensing requirements remain limited. By introducing the concept of career self-management and life-long learning into the formal education experience of students, we can build voluntary engagement and shift some of the preparation burden from existing degree programs. The Geoscience Online Learning Initiative (GOLI) seeks to extend professional life-long learning into the formal education realm. By utilizing proven, effective means to capture expert knowledge, the GOLI program constructs courses in the OpenEdX platform, where the content authors and society staff continuously refine the material into effective one- to two-hour long asynchronous modules. The topical focus of these courses are outside of the usual scope of the academic curriculum, but are aligned with applied technical or professional issues. These courses are provided as open education resources, but also qualify for CEUs as the ongoing professional microcredential in the profession. This way, interested faculty can utilize these resources as focused modules in their own course offerings or students can engage in the courses independently and upon passing the assessments and paying of a nominal fee, be awarded CEUs which count towards their professional qualifications. Establishing a continuum of learning over one's career is a critical cultural change needed for students to succeed and be resilient through the duration of a career. We will examine how this approach mimics successful efforts in other STEM fields and where it aligns with both ongoing evolution in professional geoscience employment and broader trends in STEM career management.

Who Leaves, Who Stays? Psychological Predictors of Undergraduate Chemistry Students' Persistence

ERIC Educational Resources Information Center

Shedlosky-Shoemaker, Randi; Fautch, Jessica M.

2015-01-01

The number of undergraduate students completing degrees in STEM disciplines has been declining over the last few decades. With a growing body of research considering what predicts persistence in STEM fields, one approach is to consider individual differences as predictors of attrition in the major. The current study utilized a variety of…

Engineering education research: Impacts of an international network of female engineers on the persistence of Liberian undergraduate women studying engineering

NASA Astrophysics Data System (ADS)

Rimer, Sara; Reddivari, Sahithya; Cotel, Aline

2015-11-01

As international efforts to educate and empower women continue to rise, engineering educators are in a unique position to be a part of these efforts by encouraging and supporting women across the world at the university level through STEM education and outreach. For the past two years, the University of Michigan has been a part of a grassroots effort to encourage and support the persistence of engineering female students at University of Liberia. This effort has led to the implementation of a leadership camp this past August for Liberian engineering undergraduate women, meant to: (i) to empower engineering students with the skills, support, and inspiration necessary to become successful and well-rounded engineering professionals in a global engineering market; and (ii) to strengthen the community of Liberian female engineers by building cross-cultural partnerships among students resulting in a international network of women engineers. This session will present qualitative research findings on the impact of this grassroots effort on Liberian female students? persistence in engineering, and the future directions of this work.

Promoting professional identity, motivation, and persistence: Benefits of an informal mentoring program for female undergraduate students

PubMed Central

Bloodhart, Brittany; Barnes, Rebecca T.; Adams, Amanda S.; Clinton, Sandra M.; Pollack, Ilana; Godfrey, Elaine; Burt, Melissa; Fischer, Emily V.

2017-01-01

Women are underrepresented in a number of science, technology, engineering, and mathematics (STEM) disciplines. Limited diversity in the development of the STEM workforce has negative implications for scientific innovation, creativity, and social relevance. The current study reports the first-year results of the PROmoting Geoscience Research, Education, and SuccesS (PROGRESS) program, a novel theory-driven informal mentoring program aimed at supporting first- and second-year female STEM majors. Using a prospective, longitudinal, multi-site (i.e., 7 universities in Colorado/Wyoming Front Range & Carolinas), propensity score matched design, we compare mentoring and persistence outcomes for women in and out of PROGRESS (N = 116). Women in PROGRESS attended an off-site weekend workshop and gained access to a network of volunteer female scientific mentors from on- and off-campus (i.e., university faculty, graduate students, and outside scientific professionals). The results indicate that women in PROGRESS had larger networks of developmental mentoring relationships and were more likely to be mentored by faculty members and peers than matched controls. Mentoring support from a faculty member benefited early-undergraduate women by strengthening their scientific identity and their interest in earth and environmental science career pathways. Further, support from a faculty mentor had a positive indirect impact on women’s scientific persistence intentions, through strengthened scientific identity development. These results imply that first- and second- year undergraduate women’s mentoring support networks can be enhanced through provision of protégé training and access to more senior women in the sciences willing to provide mentoring support. PMID:29091969

Promoting professional identity, motivation, and persistence: Benefits of an informal mentoring program for female undergraduate students.

PubMed

Hernandez, Paul R; Bloodhart, Brittany; Barnes, Rebecca T; Adams, Amanda S; Clinton, Sandra M; Pollack, Ilana; Godfrey, Elaine; Burt, Melissa; Fischer, Emily V

2017-01-01

Women are underrepresented in a number of science, technology, engineering, and mathematics (STEM) disciplines. Limited diversity in the development of the STEM workforce has negative implications for scientific innovation, creativity, and social relevance. The current study reports the first-year results of the PROmoting Geoscience Research, Education, and SuccesS (PROGRESS) program, a novel theory-driven informal mentoring program aimed at supporting first- and second-year female STEM majors. Using a prospective, longitudinal, multi-site (i.e., 7 universities in Colorado/Wyoming Front Range & Carolinas), propensity score matched design, we compare mentoring and persistence outcomes for women in and out of PROGRESS (N = 116). Women in PROGRESS attended an off-site weekend workshop and gained access to a network of volunteer female scientific mentors from on- and off-campus (i.e., university faculty, graduate students, and outside scientific professionals). The results indicate that women in PROGRESS had larger networks of developmental mentoring relationships and were more likely to be mentored by faculty members and peers than matched controls. Mentoring support from a faculty member benefited early-undergraduate women by strengthening their scientific identity and their interest in earth and environmental science career pathways. Further, support from a faculty mentor had a positive indirect impact on women's scientific persistence intentions, through strengthened scientific identity development. These results imply that first- and second- year undergraduate women's mentoring support networks can be enhanced through provision of protégé training and access to more senior women in the sciences willing to provide mentoring support.

Cognitive and Motivational Factors that Inspire Hispanic Female Students to Pursue STEM-Related Academic Programs that Lead to Careers in Science, Technology, Engineering, and Mathematics

NASA Astrophysics Data System (ADS)

Morel-Baker, Sonaliz

Hispanics, and women in particular, continue to be underrepresented in the fields of science, technology, engineering, and mathematics (STEM). The purpose of this study was to analyze cognitive and motivational factors that inspired Hispanic female college students to major in STEM programs and aspire to academic success. This mixed methods study was conducted using both quantitative and qualitative data collection and analysis techniques in a sequential phase. Quantitative data were collected through the use of the 80-item Honey and Mumford Learning Styles Questionnaire, which was focused on the students' learning styles and how they impact Hispanic female students upon engaging in a STEM-related curriculum. Qualitative data were collected during interviews focusing on factors that led students to select, participate in, and make a commitment to some aspect of a STEM-related program. The questions that were asked during the interviews were intended to examine whether the existence of role models and STEM initiatives motivate Hispanic female students to major in STEM-related academic programs and aspire to academic success. The participants in this study were undergraduate Hispanic female students majoring in STEM-related academic programs and at a four-year university. The results indicate that the majority of the participants (88%) identified as reflectors, 4% as activists, 4% as theorists, and 4% as pragmatists. The results from the interviews suggested that the existence of role models (family members, educators, or STEM professionals) was a factor that motivated Hispanic females to major in STEM-related subjects and that exposure to STEM initiatives during K-12 education motivated Hispanic females to pursue a career in STEM.

Students who demonstrate strong talent and interest in STEM are initially attracted to STEM through extracurricular experiences.

PubMed

VanMeter-Adams, Amy; Frankenfeld, Cara L; Bases, Jessica; Espina, Virginia; Liotta, Lance A

2014-01-01

What early experiences attract students to pursue an education and career in science, technology, engineering, and mathematics (STEM)? Does hands-on research influence them to persevere and complete a major course of academic study in STEM? We evaluated survey responses from 149 high school and undergraduate students who gained hands-on research experience in the 2007-2013 Aspiring Scientists Summer Internship Programs (ASSIP) at George Mason University. Participants demonstrated their strong interest in STEM by volunteering to participate in ASSIP and completing 300 h of summer research. The survey queried extracurricular experiences, classroom factors, and hands-on projects that first cultivated students' interest in the STEM fields, and separately evaluated experiences that sustained their interest in pursuing a STEM degree. The majority of students (65.5%, p < 0.0001) reported extracurricular encounters, such as the influence of a relative or family member and childhood experiences, as the most significant factors that initially ignited their interest in STEM, while hands-on lab work was stated as sustaining their interest in STEM (92.6%). Based on these findings collected from a cohort of students who demonstrated a strong talent and interest in STEM, community-based programs that create awareness about STEM for both children and their family members may be key components for igniting long-term academic interest in STEM. © 2014 A. VanMeter-Adams et al. CBE—Life Sciences Education © 2014 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Snapshots of Authentic Scientific Inquiry and Teacher Preparation: Undergraduate STEM Courses, Preservice and Inservice Teachers' Experiences

NASA Astrophysics Data System (ADS)

French, Debbie Ann

In this dissertation, the researcher describes authentic scientific inquiry (ASI) within three stages of teacher preparation and development: a1) undergraduate STEM courses, b2) preservice secondary science education methods courses, and c3) inservice teacher professional development (PD). Incorporating (ASI)-- pedagogy closely modeling the research practices of scientists--is at the forefront of national science, technology, engineering, and mathematics (STEM) initiatives and the Next Generation Science Standards (NGSS). In the first of three research articles, 42 students participated in an introductory astronomy course which employed inquiry-based pedagogy. The researcher administered the Test Of Astronomy STandards (TOAST) pre/post instruction. In the second article, 56 preservice secondary science teachers completed ideal lesson plan scenarios before and after 80 hours of methods instruction. The researcher scored the scenarios using a rubrirubric developedc according to the NGSS Science and Engineering Practices, and analyzed the components from the scenarios. The third article surveyed 63 inservice STEM teachers with prior research and industry experience. The researcher highlights teacher ASI perspectives. Overall, teachers incorporated opportunities for K-20 students to use scientific instrumentation and technology to collect and analyze data, work collaboratively, and develop evidence-based conclusions. Few teachers provided opportunities for students to ask scientific questions or disseminate results, suggesting the need that teachers (at all levels) need scaffolded instruction in these areas. The researcher argues that while ASI and STEM PDs are effective for teachers, developing similar interest, on-going communities of practice may provide support for teacher to implement the ASI practices in their classrooms.

Oceanography and Geoscience Scholars at Texas A&M University Funded through the NSF S-STEM (Scholarships in Science, Technology, Engineering and Mathematics) Program

NASA Astrophysics Data System (ADS)

Richardson, M. J.; Gardner, W. D.

2016-02-01

Over the last seven years we have led the creation and implementation of the Oceanography and Geoscience Scholars programs at Texas A&M University. Through these programs we have been able to provide scholarship support for 92 undergraduates in Geosciences and 29 graduate students in Oceanography. Fifty-seven undergraduate scholars have graduated in Geosciences: 30 undergraduate students in Meteorology, 7 in Geology, and 20 in Environmental Geosciences. Two students have graduated in other STEM disciplines. Twenty-four students are in the process of completing their undergraduate degrees in STEM disciplines. Twenty-three students have graduated with MS or PhD degrees in Oceanography and five PhD students are completing their dissertations. As specified in the program solicitation all of the scholars are academically talented students with demonstrated financial need as defined by the FAFSA (Free Application for Federal Student Aid). We have endeavored to recruit students from underrepresented groups. One-third of the undergraduate scholars were from underrepresented groups; 28% of the graduate students. We will present the challenges and successes of these programs.

#BlackGirlMagic: The Influence of Identity Expression on STEM Identity and Retention for Black Females in Undergraduate Research Experiences

ERIC Educational Resources Information Center

Morton, Terrell Roderick

2017-01-01

Research and reports promote targeted interventions such as the undergraduate research experience to address issues with Black student retention and matriculation in Science, Technology, Engineering, and Math (STEM). The effectiveness of these interventions are purported to be their ability to foster strong associations between Black students and…

The Perceived Undergraduate Classroom Experiences of African American Women in Science, Technology, Engineering, and Mathematics (STEM)

ERIC Educational Resources Information Center

Holmes, Kimberly Monique

2013-01-01

The purpose of this dissertation study was to explore African-American women's perceptions of undergraduate STEM classroom experiences, and the ways in which those experiences have supported or hindered their persistence in physics majors. The major research question guiding this study was: How do African-American women perceive the climate and…

Characterization of Pollution Transport into Texas Using OMI and TES Satellite and In Situ data, and HYSPLIT Back Trajectory Analyses: implications for TCEQ State Implementation Plans and High School/Undergraduate STEM Education

NASA Astrophysics Data System (ADS)

Boxe, C.; Bella, D.; Khaimova, J.; Culpepper, J.; Ahmed, N.; Belkalai, A.; Ealy, J.; Arroyo, I.; Lahoumh, M.; Jenkins, O.; Emmanuel, S.; Andrews, J.; Fu, D.; Wu, L.; Choi, Y.; Morris, G.; Osterman, G. B.; Johnson, L. P.; Austin, S. A.

2014-12-01

Using an online trajectory analysis tool NASA, ArcGIS, Satellite and EPA in situ data, we assess whether high pollution events in Texas are primarily sourced locally or remotely. We focus satellite data that exemplify high O3 and NO2 over Texas's lower troposphere. Four day back trajectory analyses of all dates show that upper-, mid-, and lower-tropospheric air over Texas, containing high O3, is transported from the Gulf of Mexico, Southeast USA, Midwest USA, Northeast USA, the Atlantic Ocean, Pacific Ocean, Mexico, etc. Only day showed air at 1 km is sourced within Texas. Satellite data show O3 enhancements in the boundary layer and O3 and NO2 enhancements via tropospheric column profiles. These enhancements complement four-day trajectory analysis. This study provides a viable basis for more quantifiable and accurate information for developing effective air quality State Implementation Plans. STEM Impact: (i) D. Bella was an NSF-LSAMP undergraduate research mentee with me at Medgar Evers College-CUNY; she received a B.S. in Environmental Science (and a Chemistry Minor) and is now a Ph.D. graduate student at University at Albany's School of Public Health. (ii) J. Khaimova is an undergraduate Geology and Planetary Science B.S. major at Brooklyn College-CUNY. I have supported Jessica's summer internship in summer 2013 as a CUNY Summer Research Fellow, where she is currently an NSF-REU research mentee at Pennsylvania State University's Meteorology Department. (iii) J. Culpepper received his B.S. in Environmental Science from MEC-CUNY and will be a Ph.D. student, Fall 2014 at University of Iowa's Civil and Environmental Engineering Department. (iv) S. Gentle was a high school researcher with me within ACS's Project SEED Program for high school students. S. Gentle will start her undergraduate career Fall 2014 at Pennsylvania State University and seeks to attain a B.S. in Chemistry. (v). All parties, including high school and undergraduate researchers seek to attend medical/graduate school to pursue an M.D/Ph.D. in a STEM-discipline.

Untypical Undergraduate Research: Player Motion Analysis in Sports

NASA Astrophysics Data System (ADS)

Loerke, Dinah

There is significant concern about the degree of attrition in STEM disciplines from the start of K-12 through to the end of higher education, and the analysis of the `leaky pipeline' from the various institutions has identified a critical decline - which may be as high as 60 percent - between the fraction of students who identify as having an interest in a science or engineering major at the start of college/university, and the fraction of students who ultimately graduate with a STEM degree. It has been shown that this decline is even more dramatic for women and underrepresented minorities (Blickenstaff 2005, Metcalf 2010). One intervention which has been proven to be effective for retention of potential STEM students is early research experience, particularly if it facilitates the students' integration into a STEM learning community (Graham et al. 2013, Toven-Lindsey et al. 2015). In other words, to retain students in STEM majors, we would like to encourage them to `think of themselves as scientists', and simultaneously promote supportive peer networks. The University of Denver (DU) already has a strong undergraduate research program. However, while the current program provides valuable training for many students, it likely comes too late to be effective for student retention in STEM, because it primarily serves older students who have already finished the basic coursework in their discipline; within physics, we know that the introductory physics courses already serve as gatekeeper courses that cause many gifted but `non-typical' students to lose interest in pursuing a STEM major (Tobias 1990). To address this issue, my lab is developing a small research spinoff program in which we apply spatiotemporal motion analysis to the motion trajectories of players in sports, using video recordings of DU Pioneer hockey games. This project aims to fulfill a dual purpose: The research is framed in a way that we think is attractive and accessible for beginning students who have not yet finished the basic physics course sequence, and we hope to use it to attract untypical and retain undecided students in physics. Secondly, since mathematical techniques for trajectory analysis are independent of scale, we hope to harness the creativity and analytical intuition of undergraduates to simultaneously benefit our core biophysical research program.

"It's been a long journey": Exploring educationally mobile students' transition into STEM majors at a university

NASA Astrophysics Data System (ADS)

Arreygue, Aimee

Today, one third of all college students are considered educationally "mobile," which means they will change institutions during their undergraduate careers. The concept of educational mobility challenges the traditional idea of students moving through an educational pipeline in a linear fashion, and recognizes that many of today's students, including those in STEM fields (Science, Technology, Engineering, Mathematics), will have multiple transition points. The purpose of this qualitative study was to examine the transitional experiences of educationally mobile students moving into and through the STEM disciplines at a public university. Students who move from one educational environment to another undergo a significant transition process, and understanding this process for individual students and the institution's role in supporting transition has implications for educational policy. Grounded in the conceptual framework guided by Schlossberg's Transition Theory, and Swail, Redd, and Perna's Geometric Model for Student Persistence and Achievement, this study explores the following research question: How do students who are educationally mobile experience academic, social, and institutional support while transitioning into and through STEM disciplines at a four-year public university? Eighteen science and mathematics majors participated in this study, all of whom attended at least one institution of higher education prior to their current attendance at Mountain View University, a four-year comprehensive Hispanic Serving Institution (HSI) in Southern California. Participants were interviewed utilizing a semi-structured interview protocol and completed a demographic questionnaire as well. Trustworthiness measures included member checking and peer debriefing. The findings of this study show that educationally mobile students are savvy agents of their education, and make personal and professional sacrifices in their pursuit of a STEM degree. They want to connect to like-minded individuals on campus, and make efforts to seek help. Findings also show that institutional agents play an important role in helping educationally mobile students navigate institutional obstacles in the transition process. Recommendations include increased dialogue about articulation and the transfer processes among institutions, engaging in more consistent advising practices (both at the community college and the university), enabling purposeful social interactions during the transition process, and researching disaggregated populations of educationally mobile students.

Closing the Gaps and Filling the STEM Pipeline: A Multidisciplinary Approach

NASA Astrophysics Data System (ADS)

Doerschuk, Peggy; Bahrim, Cristian; Daniel, Jennifer; Kruger, Joseph; Mann, Judith; Martin, Cristopher

2016-08-01

There is a growing demand for degreed science, technology, engineering and mathematics (STEM) professionals, but the production of degreed STEM students is not keeping pace. Problems exist at every juncture along the pipeline. Too few students choose to major in STEM disciplines. Many of those who do major in STEM drop out or change majors. Females and minorities remain underrepresented in STEM. The success rate of college students who are from low-income background or first-generation students is much lower than that of students who do not face such challenges. Some of those who successfully complete their degree need help in making the transition to the workforce after graduation. A program at Lamar University takes a multidisciplinary approach to addressing these problems. It is designed to recruit, retain and transition undergraduates to careers in STEM, focusing its efforts on five science disciplines and on these "at-risk" students. The program was supported by a 5-year grant from the National Science Foundation and is supported through August 31, 2016 by Lamar University and a grant from ExxonMobil. A formal assessment plan documents the program's success. The program received an award from the Texas Higher Education Board for its contributions towards Closing the Gaps in Higher Education in Texas. This paper describes the program's theoretical framework, research questions, methods, evaluation plan, and instruments. It presents an analysis of the results achieved using these methods and implications for improvements to the program resulting from lessons learned.

Creating and Sustaining University-Community Partnerships in Science Education (Invited)

NASA Astrophysics Data System (ADS)

Finkelstein, N.

2009-12-01

Despite years of research and investment, we have yet to see the widespread implementation of a myriad research-proven instructional strategies in STEM education[1]. To address this challenge, we present and analyze one such strategy, a theoretically-grounded model of university-community partnership [2] that engages university students and children in a collective enterprise that has the potential to improve the participation and education of all. We document the impact of this effort on: university participants who learn about education, the community and science; children in the community who learn about science, the nature of science and develop their identities and attitudes towards science; and, shifts in institutional structures which may allow these programs to be part of standard practice. This project is designed to be sustained and scaled, and is analyzed through the application of a new framework [3] which brings together theories of STEM change that come from studies in higher education, faculty development and disciplinary-based education research in STEM. [1] National Research Council. (2003). Improving Undergraduate Instruction in Science, Technology, Engineering, and Mathematics: Report of A Workshop. Washington, D.C.: The National Academies Press. [2] Finkelstein, N. and Mayhew, L. (2008). Acting in Our Own Self-Interest: Blending University and Community. Proceedings of the 2008 Physics Education Research Conf, AIP Press. Melville NY, 1064, 19-22. [3] Henderson, C., Finkelstein, N. & Beach A. (to appear). Beyond Dissemination in College science teaching: An Introduction to Four Core Change Strategies. Accepted May 2009 in Journal of College Science Teaching.

The Education and Public Outreach Plan for UCLA's Institute for Planets and Exoplanets (iPLEX)

NASA Astrophysics Data System (ADS)

Glesener, G. B.; Jewitt, D. C.; Curren, I. S.

2012-12-01

Increasing the number and diversity of students pursuing and completing STEM education is a crucial part of UCLA's Institute for Planets and Exoplanets (iPLEX)'s goal of promoting research on planetary systems around the sun and other stars. Cultivating students' interest and success in STEM subject areas from K-12 to the bachelor's degree is an important factor in student retention. As they pursue a bachelor's degree in a STEM major, many become discouraged and decide not to finish with this type of degree; women, underrepresented minorities (URM), and students of low socioeconomic status (SES) have the highest attrition rates (Bayer 2010). Focusing primarily on students at the high school and community college levels, our education and public outreach plan utilizes the multidisciplinary science of astrobiology as a resource for building stronger learning environments in STEM education. By implementing formal education programs that encourage and foster student learning in STEM fields, we intend to (1) increase the efficiency with which students move from high school into STEM-related undergraduate programs, (2) improve the corresponding transfer rate from community colleges to advanced degree programs in STEM at the 4-year university level, and (3) create more opportunities for students to become involved in meaningful research as they progress in their studies. To ensure the success of these programs, we will partner with teachers from local high schools and community colleges, and UCLA's Center X. By being geographically located in Los Angeles County, having one of the highest URM populations in the United States (US Census Bureau, 2007), and partnering with Hampton University (HU) in Virginia, whose student body is 91% African American, we are in a position to make a large impact on diversity. To further ensure the success of our EPO, an independent evaluator will measure and track the following program objectives: increase (1) post-secondary STEM enrollment; (2) community college student transfer rates into four-year universities as STEM majors; (3) science knowledge and effective pedagogical practices for high school and community college teachers; and (4) collaboration between UCLA astrobiology scientists, high school teachers, and community college instructors. Building stronger learning environments for STEM students should result in higher retention rates through the various academic transitions toward the bachelor's, increasing the probability of graduation. Educating the community informally is also important for cultivating students' interest and success in STEM education. In the informal education part of our EPO plan, we will partner with Astronomy Without Borders (AWB) to disseminate planetary and astronomical results to the public, contribute to a series of public astrobiology talks at The Los Angeles County Museum of Natural History, and participate in the Exploring Your Universe / UCLA Science Day event held every year to bring science to the community. Helping young learners achieve success in STEM education through EPO programs that afford meaningful STEM experiences is the ultimate goal of UCLA's iPLEX EPO plan. We hope to make a significant impact on our community and build upon the efforts of our colleagues in STEM education to increase the retention of students pursuing degrees in STEM fields.

The Effects of Mentored Problem-Based STEM Teaching on Pre-Service Elementary Teachers: Scientific Reasoning and Attitudes Toward STEM Subjects

NASA Astrophysics Data System (ADS)

Caliendo, Julia C.

Problem-based learning in clinical practice has become an integral part of many professional preparation programs. This quasi-experimental study compared the effect of a specialized 90-hour field placement on elementary pre-service teachers' scientific reasoning and attitudes towards teaching STEM (science, technology, engineering, and math) subjects. A cohort of 53 undergraduate elementary education majors, concurrent to their enrollment in science and math methods classes, were placed into one of two clinical practice experiences: (a) a university-based, problem-based learning (PBL), STEM classroom, or (b) a traditional public school classroom. Group gain scores on the Classroom Test of Scientific Reasoning (CTSR) and the Teacher Efficacy and Attitudes Toward STEM Survey-Elementary Teachers (T-STEM) survey were calculated. A MANCOVA revealed that there was a significant difference in gain scores between the treatment and comparison groups' scientific reasoning (p = .011) and attitudes towards teaching STEM subjects (p = .004). The results support the hypothesis that the pre-service elementary teachers who experienced STEM mentoring in a PBL setting will have an increase in their scientific reasoning and produce positive attitudes towards teaching STEM subjects. In addition, the results add to the existing research suggesting that elementary pre-service teachers require significant academic preparation and mentored support in STEM content.

Raising Awareness in Science Education for Women (RAISE-W)

NASA Astrophysics Data System (ADS)

Faherty, Jacqueline K.; Holford, M.

2014-01-01

Raising Awareness in Science Education for Women (RAISE-W) is a 501c non profit corporation whose mission is to aid in increasing and retaining the number of women - especially underrepresented females - engaged in scientific teaching and research. Initiated by a Protein Chemist and an Astronomer, our ultimate goal has been to develop informational tools and create innovative outreach programs for women across all STEM fields. At present RAISE-W is recruiting women at the undergraduate, graduate, and early career stages to participate in a unique, 1-year, executive coaching program modeled after those used in the business sector.

Integrative Approach for a Transformative Freshman-Level STEM Curriculum

PubMed Central

Curran, Kathleen L.; Olsen, Paul E.; Nwogbaga, Agashi P.; Stotts, Stephanie

2016-01-01

In 2014 Wesley College adopted a unified undergraduate program of evidence-based high-impact teaching practices. Through foundation and federal and state grant support, the college completely revised its academic core curriculum and strengthened its academic support structures by including a comprehensive early alert system for at-risk students. In this core, science, technology, engineering, and mathematics (STEM) faculty developed fresh manifestations of integrated concept-based introductory courses and revised upper-division STEM courses around student-centered learning. STEM majors can participate in specifically designed paid undergraduate research experiences in directed research elective courses. Such a college-wide multi-tiered approach results in institutional cultural change. PMID:27064213

Assessing Student Attitudes Towards Science in an Adaptive Online Astrobiology Course: Comparing Online and On-Campus Undergraduates

NASA Astrophysics Data System (ADS)

Buxner, S.; Perera, V.; Mead, C.; Horodyskyj, L.; Semken, S. C.; Lopatto, D.; Anbar, A. D.

2016-12-01

General-education Science, Technology, Engineering, and Mathematics (STEM) courses are considered essential to a college education, in part, to train students to think critically and to make informed decisions about complex scientific issues such as climate change and public health. Therefore, the goals of these STEM courses go beyond content knowledge to include generating positive attitudes towards science, developing competence in evaluating scientific information in everyday life, and understanding the nature of science. The Classroom Undergraduate Research Experience (CURE) survey is frequently used to measure these attitudes, but it has not previously been used in an online, general education course. In this work, we administered the CURE survey for three semesters (N = 774) before and after completion of an online astrobiology course called Habitable Worlds. We compare students taking this course as part of fully-online degree programs (o-course) with those taking it as part of traditional undergraduate programs (i-course). More females and older students were among the o-course group, while overall the course had more white students than the Arizona State University average. Mean course grades were similar between the two groups but attitudes toward science differred significantly. O-course students began the course with more positive attitudes than i-course students, and o-course students also showed more positive changes at the end of the course. These differences suggest lesser intrinsic motivation among the i-course students. Additionally, pre-course attitudes correlated with final course grade for o-course students, but not for i-course students, which implies that success among o-course students is influenced by different factors than i-course students. Thus, effective student support strategies may differ for online-only students. Future work will include student interviews to better calibrate the CURE survey to online science courses.

What Experiences Help Students Become Scientists? A Comparative Study of Research and Other Sources of Personal and Professional Gains for STEM Undergraduates

ERIC Educational Resources Information Center

Thiry, Heather; Laursen, Sandra L.; Hunter, Anne-Barrie

2011-01-01

In this study of curricular and co-curricular learning in STEM disciplines at four liberal arts colleges, comparative analysis of 62 interviews with graduating seniors demonstrates that out-of-class experiences fostered many intellectual, personal, and professional gains. Undergraduate research, in particular, helped to shape science identities…

Peer Mentor Program for the General Chemistry Laboratory Designed to Improve Undergraduate STEM Retention

ERIC Educational Resources Information Center

Damkaci, Fehmi; Braun, Timothy F.; Gublo, Kristin

2017-01-01

We describe the design and implementation of an undergraduate peer mentor program that can overlay an existing general chemistry laboratory and is designed to improve STEM student retention. For the first four freshman cohorts going through the program, year-to-year retention improved by a four-year average of 20% for students in peer-mentored…

Writing-to-learn in undergraduate science education: a community-based, conceptually driven approach.

PubMed

Reynolds, Julie A; Thaiss, Christopher; Katkin, Wendy; Thompson, Robert J

2012-01-01

Despite substantial evidence that writing can be an effective tool to promote student learning and engagement, writing-to-learn (WTL) practices are still not widely implemented in science, technology, engineering, and mathematics (STEM) disciplines, particularly at research universities. Two major deterrents to progress are the lack of a community of science faculty committed to undertaking and applying the necessary pedagogical research, and the absence of a conceptual framework to systematically guide study designs and integrate findings. To address these issues, we undertook an initiative, supported by the National Science Foundation and sponsored by the Reinvention Center, to build a community of WTL/STEM educators who would undertake a heuristic review of the literature and formulate a conceptual framework. In addition to generating a searchable database of empirically validated and promising WTL practices, our work lays the foundation for multi-university empirical studies of the effectiveness of WTL practices in advancing student learning and engagement.

Perceptions of Plagiarism by STEM Graduate Students: A Case Study.

PubMed

Leonard, Michelle; Schwieder, David; Buhler, Amy; Bennett, Denise Beaubien; Royster, Melody

2015-12-01

Issues of academic integrity, specifically knowledge of, perceptions and attitudes toward plagiarism, are well documented in post-secondary settings using case studies for specific courses, recording discourse with focus groups, analyzing cross-cultural education philosophies, and reviewing the current literature. In this paper, the authors examine the perceptions of graduate students in science, technology, engineering, and mathematics (STEM) disciplines at the University of Florida regarding misconduct and integrity issues. Results revealed students' perceptions of the definition and seriousness of potential academic misconduct, knowledge of institutional procedures, and views on faculty actions, all with a focus on divergences between U.S. and internationally-educated students. The open-ended questions provide anecdotal evidence to highlight personal experiences, positive and negative, aimed at the faculty, international students and undergraduates. Combined, these findings outline an important part of the campus academic integrity culture at a major American university. Recommendations for local actions also are discussed.

Linking research and education: an undergraduate research apprenticeship focusing on geologic and ecological impacts of the Elwha River Restoration

NASA Astrophysics Data System (ADS)

Ogston, A. S.; Eidam, E.; Webster, K. L.; Hale, R. P.

2016-02-01

Experiential learning is becoming well-rooted in undergraduate curriculum as a means of stimulating interest in STEM fields, and of preparing students for future careers in scientific research and communication. To further these goals in coastal sciences, an intensive, research-focused course was developed at the UW Friday Harbor Labs. The course revolved around an active NSF-funded research project concerning the highly publicized Elwha River Restoration project. Between 2008 and 2014, four groups of research "apprentices" spent their academic quarter in residence at a small, coastal marine lab in a learning environment that integrated interdisciplinary lectures, workshops on data analysis and laboratory methods, and the research process from proposal to oceanographic research cruise to publication. This environment helped students gain important skills in fieldwork planning and execution, laboratory and digital data analyses, and manuscript preparation from start to finish—all while elevating their knowledge of integrated earth science topics related to a coastal restoration project. Students developed their own research proposals and pursued their individual interests within the overall research topic, thereby expanding the overall breadth of the NSF-funded research program. The topics of student interest were often beyond the researcher's expertise, which ultimately led to more interdisciplinary findings beyond the quarter-long class. This also provided opportunities for student creativity and leadership, and for collaboration with fellow course participants and with students from many other disciplines in residence at the marine lab. Tracking the outcomes of the diverse student group undertaking this program indicates that these undergraduate (and post-bac) students are generally attending graduate school at a high rate, and launching careers in education, coastal management, and other STEM fields.

Long-term Academic and Career Impacts of Undergraduate Research: Diverse Pathways to Geoscience Careers Following a Summer Atmospheric Science Research Internship

NASA Astrophysics Data System (ADS)

Trott, C. D.; Sample McMeeking, L. B.; Boyd, K.; Bowker, C.

2015-12-01

Research experiences for undergraduates (REU) have been shown to support the success of STEM undergraduates through improving their research skills, ability to synthesize knowledge, and personal and professional development, all while socializing them into the nature of science. REUs are further intended to support STEM career choice and professional advancement, and have thus played a key role in diversity efforts. Recruiting and retaining diverse students in STEM through REUs is of particular importance in the geosciences, where women and ethnic minorities continue to be significantly underrepresented. However, few studies have examined the long-term impacts of these REUs on students' academic and career trajectories. Further, those that do exist primarily study the experiences of current graduate students, scientists, and faculty members—that is, those who have already persisted—which overlooks the multiple academic and career paths REU students might follow and may preclude a thorough examination of REUs' diversity impacts. In this long-term retrospective study of the academic and career impacts of a REU program at a large Western U.S. research university, we interviewed 17 former REU participants on their expectations prior to their REU participation, their experiences during the REU, the immediate outcomes from the experience, and its long-term impacts on their academic and career choices. To address gaps in the existing literature on REU impacts, we purposively sampled students who have taken a variety of educational and career paths, including those not engaged in science research. Despite varied trajectories, the majority of the students we interviewed have persisted in the geosciences and attest to the REU's profound impact on their career-related opportunities and choices. This presentation describes students' diverse STEM pathways and discusses how students' REU expectations, experiences, and immediate outcomes continued to make an impact long-term.

Think 500, not 50! A scalable approach to student success in STEM.

PubMed

LaCourse, William R; Sutphin, Kathy Lee; Ott, Laura E; Maton, Kenneth I; McDermott, Patrice; Bieberich, Charles; Farabaugh, Philip; Rous, Philip

2017-01-01

UMBC, a diverse public research university, "builds" upon its reputation in producing highly capable undergraduate scholars to create a comprehensive new model, STEM BUILD at UMBC. This program is designed to help more students develop the skills, experience and motivation to excel in science, technology, engineering, and mathematics (STEM). This article provides an in-depth description of STEM BUILD at UMBC and provides the context of this initiative within UMBC's vision and mission. The STEM BUILD model targets promising STEM students who enter as freshmen or transfer students and do not qualify for significant university or other scholarship support. Of primary importance to this initiative are capacity, scalability, and institutional sustainability, as we distill the advantages and opportunities of UMBC's successful scholars programs and expand their application to more students. The general approach is to infuse the mentoring and training process into the fabric of the undergraduate experience while fostering community, scientific identity, and resilience. At the heart of STEM BUILD at UMBC is the development of BUILD Group Research (BGR), a sequence of experiences designed to overcome the challenges that undergraduates without programmatic support often encounter (e.g., limited internship opportunities, mentorships, and research positions for which top STEM students are favored). BUILD Training Program (BTP) Trainees serve as pioneers in this initiative, which is potentially a national model for universities as they address the call to retain and graduate more students in STEM disciplines - especially those from underrepresented groups. As such, BTP is a research study using random assignment trial methodology that focuses on the scalability and eventual incorporation of successful measures into the traditional format of the academy. Critical measures to transform institutional culture include establishing an extensive STEM Living and Learning Community to increase undergraduate retention, expanding the adoption of "active learning" pedagogies to increase the efficiency of learning, and developing programs to train researchers to effectively mentor a greater portion of the student population. The overarching goal of STEM BUILD at UMBC is to retain students in STEM majors and better prepare them for post baccalaureate, graduate, or professional programs as well as careers in biomedical and behavioral research.

An analysis of scientific self-efficacy as a benefit of summer research participation for underrepresented minorities in science, technology, engineering, and mathematics (STEM) fields

NASA Astrophysics Data System (ADS)

Carter, Frances D.

2011-12-01

Low participation and performance in science, technology, engineering, and mathematics (STEM) fields by U.S. citizens are widely recognized as major problems with substantial economic, political, and social ramifications. Studies of collegiate interventions designed to broaden participation in STEM fields suggest that participation in undergraduate research is a key program component that enhances such student outcomes as undergraduate GPA, graduation, persistence in a STEM major, and graduate school enrollment. However, little is known about the mechanisms that are responsible for these positive effects. The current study hypothesizes that undergraduate research participation increases scientific self-efficacy and scientific research proficiency. This hypothesis was tested using data obtained from a survey of minority students from several STEM intervention programs that offer undergraduate research opportunities. Students were surveyed both prior to and following the summer of 2010. Factor analysis was used to examine the factor structure of participants' responses on scientific self-efficacy and scientific research proficiency scales. Difference-in-difference analysis was then applied to the resulting factor score differences to estimate the relationship of summer research participation with scientific self-efficacy and scientific research proficiency. Factor analytic results replicate and further validate previous findings of a general scientific self-efficacy construct (Schultz, 2008). While the factor analytic results for the exploratory scientific research proficiency scale suggest that it was also a measureable construct, the factor structure was not generalizable over time. Potential reasons for the lack of generalizability validity for the scientific research proficiency scale are explored and recommendations for emerging scales are provided. Recent restructuring attempts within federal science agencies threaten the future of STEM intervention programs. Causal estimates of the effect of undergraduate research participation on specific and measurable benefits can play an important role in ensuring the sustainability of STEM intervention programs. Obtaining such estimates requires additional studies that, inter alia, incorporate adequate sample sizes, valid measurement scales, and the ability to account for unobserved variables. Political strategies, such as compromise, can also play an important role in ensuring the sustainability of STEM intervention programs.

Students Who Demonstrate Strong Talent and Interest in STEM Are Initially Attracted to STEM through Extracurricular Experiences

PubMed Central

Frankenfeld, Cara L.; Bases, Jessica; Espina, Virginia; Liotta, Lance A.

2014-01-01

What early experiences attract students to pursue an education and career in science, technology, engineering, and mathematics (STEM)? Does hands-on research influence them to persevere and complete a major course of academic study in STEM? We evaluated survey responses from 149 high school and undergraduate students who gained hands-on research experience in the 2007–2013 Aspiring Scientists Summer Internship Programs (ASSIP) at George Mason University. Participants demonstrated their strong interest in STEM by volunteering to participate in ASSIP and completing 300 h of summer research. The survey queried extracurricular experiences, classroom factors, and hands-on projects that first cultivated students’ interest in the STEM fields, and separately evaluated experiences that sustained their interest in pursuing a STEM degree. The majority of students (65.5%, p < 0.0001) reported extracurricular encounters, such as the influence of a relative or family member and childhood experiences, as the most significant factors that initially ignited their interest in STEM, while hands-on lab work was stated as sustaining their interest in STEM (92.6%). Based on these findings collected from a cohort of students who demonstrated a strong talent and interest in STEM, community-based programs that create awareness about STEM for both children and their family members may be key components for igniting long-term academic interest in STEM. PMID:25452491

The Three-Pronged Approach to Community Education: An Ongoing Hydrologic Science Outreach Campaign Directed from a University Research Center

NASA Astrophysics Data System (ADS)

Gallagher, L.; Morse, M.; Maxwell, R. M.

2017-12-01

The Integrated GroundWater Modeling Center (IGWMC) at Colorado School of Mines has, over the past three years, developed a community outreach program focusing on hydrologic science education, targeting K-12 teachers and students, and providing experiential learning for undergraduate and graduate students. During this time, the programs led by the IGWMC reached approximately 7500 students, teachers, and community members along the Colorado Front Range. An educational campaign of this magnitude for a small (2 full-time employees, 4 PIs) research center required restructuring and modularizing of the outreach strategy. We refined our approach to include three main "modules" of delivery. First: grassroots education delivery in the form of K-12 classroom visits, science fairs, and teacher workshops. Second: content development in the form of lesson plans for K-12 classrooms and STEM camps, hands-on physical and computer model activities, and long-term citizen science partnerships. Lastly: providing education/outreach experiences for undergraduate and graduate student volunteers, training them via a 3-credit honors course, and instilling the importance of effective science communication skills. Here we present specific case studies and examples of the successes and failures of our three-pronged system, future developments, and suggestions for entities newly embarking on an earth science education outreach campaign.

Undergraduate Women's Persistence in the Sciences

ERIC Educational Resources Information Center

George-Jackson, Casey E.

2014-01-01

This study uses longitudinal data of undergraduate students from five public land-grant universities to better understand undergraduate students' persistence in and switching of majors, with particular attention given to women's participation in science, technology, engineering, and mathematics (STEM) fields. Specifically, the study examines…

Teaching Resources and Instructor Professional Development for Integrating Laser Scanning, Structure from Motion, and GPS Surveying into Undergraduate Field Courses

NASA Astrophysics Data System (ADS)

Pratt-Sitaula, B.; Charlevoix, D. J.; Douglas, B. J.; Crosby, B. T.; Crosby, C. J.; Lauer, I. H.; Shervais, K.

2017-12-01

Field experiences have long been considered an integral part of geoscience learning. However, as data acquisition technologies evolve, undergraduate field courses need to keep pace so students gain exposure to new technologies relevant to the modern workforce. Maintaining expertise on new technologies is also challenging to established field education programs. Professional development and vetted curriculum present an opportunity to advance student exposure to new geoscience data acquisition technology. The GEodesy Tools for Societal Issues (GETSI) Field Collection, funded by NSF's Improving Undergraduate STEM Education program, addresses these needs in geodesy field education. Geodesy is the science of accurately measuring Earth's size, shape, orientation, mass distribution and the variations of these with time. Modern field geodesy methods include terrestrial laser scanning (TLS), kinematic and static GPS/GNSS surveying (global positioning system/global navigation satellite system), and structure from motion (SfM) photogrammetry. The GETSI Field Collection is a collaborative project between UNAVCO, Indiana University, and Idaho State University. The project is provides curriculum modules and instructor training (in the form of short courses) to facilitate the inclusion of SfM, TLS, and GPS surveying into geoscience courses with field components. The first module - Analyzing High Resolution Topography with TLS and SfM - is available via SERC; (serc.carleton.edu/getsi/teaching_materials/high-rez-topo) the second module - "High Precision Positioning with Static and Kinematic GPS/GNSS" - will be published in 2018. The module development and assessment follows the standards of the InTeGrate Project (an NSF STEP Center)previously tested on geodesy content in the GETSI classroom collection (serc.carleton.edu/getsi). This model emphasizes use of best practices in STEM education, including situating learning in the context of societal importance. Analysis of student work during development and testing shows a high level of achievement of module learning goals. Two four-day short courses have been run to train instructors on best practices for integration of these topics into field courses. Overall participant satisfaction with the short courses has been 9 out of 10.

College Students' Conceptions of Stem Cells, Stem Cell Research, and Cloning

ERIC Educational Resources Information Center

Concannon, James P.; Siegel, Marcelle A.; Halverson, Kristy; Freyermuth, Sharyn

2010-01-01

In this study, we examined 96 undergraduate non-science majors' conceptions of stem cells, stem cell research, and cloning. This study was performed at a large, Midwest, research extensive university. Participants in the study were asked to answer 23 questions relating to stem cells, stem cell research, and cloning in an on-line assessment before…

Walking the Path Together from High School to STEM Majors and Careers: Utilizing Community Engagement and a Focus on Teaching to Increase Opportunities for URM Students

NASA Astrophysics Data System (ADS)

Finkel, Liza

2017-02-01

Despite decades of efforts to increase the participation of women and people from underrepresented minority groups (URM) in science and math majors and careers, and despite the increasing diversification of the US population as a whole (Planty et al in National Center for Education Statistics, Institute of Education Sciences, U.S. Department of Education, Washington, DC, 2008), participation in STEM majors and STEM careers (including STEM teaching) remains stubbornly male and white (Landivar in American Community Survey Reports, ACS-24, U.S. Census Bureau, Washington, DC, 2013; National Science Foundation and National Center for Science and Engineering Statistics in Special Report NSF 15-311, Arlington, VA, 2015). This paper describes a project with two central goals: (1) to provide opportunities for URM high school students to engage in authentic science and math inquiry with the support of skilled college undergraduate mentors in the hope that these experiences will encourage these high school students to choose and persist in pursuing careers in STEM fields and, even if they do not choose those careers, to feel confident making complex, science or math-based decisions in their everyday lives and (2) to help the mentors (young people, mostly STEM majors) see teaching as a vital, intellectually challenging career that can provide them the opportunity to work for social justice in their communities. While it is unlikely that any one experience will help young people overcome the long odds that face them as they consider either path, our analysis suggests that projects of this kind can make a meaningful contribution to the effort.

Connecting Scientists, College Students, Middle School Students & Elementary Students through Intergenerational Afterschool STEM Programming

NASA Astrophysics Data System (ADS)

Ali, N. A.; Paglierani, R.; Raftery, C. L.; Romero, V.; Harper, M. R.; Chilcott, C.; Peticolas, L. M.; Hauck, K.; Yan, D.; Ruderman, I.; Frappier, R.

2015-12-01

The Multiverse education group at UC Berkeley's Space Sciences Lab created the NASA-funded "Five Stars Pathway" model in which five "generations" of girls and women engage in science together in an afterschool setting, with each generation representing one stage in the pathway of pursuing a career in science, technology, engineering, or math (STEM). The five stages are: elementary-age students, middle-school-age students, undergraduate-level college students, graduate-level college students and professional scientists. This model was field-tested at two Girls Inc. afterschool locations in the San Francisco Bay Area and distributed to Girls Inc. affiliates and other afterschool program coordinators nationwide. This presentation will explore some of the challenges and success of implementing a multigenerational STEM model as well as distributing the free curriculum for interested scientists and college students to use with afterschool programs.

Is It the Intervention or the Students? Using Linear Regression to Control for Student Characteristics in Undergraduate STEM Education Research

PubMed Central

Theobald, Roddy; Freeman, Scott

2014-01-01

Although researchers in undergraduate science, technology, engineering, and mathematics education are currently using several methods to analyze learning gains from pre- and posttest data, the most commonly used approaches have significant shortcomings. Chief among these is the inability to distinguish whether differences in learning gains are due to the effect of an instructional intervention or to differences in student characteristics when students cannot be assigned to control and treatment groups at random. Using pre- and posttest scores from an introductory biology course, we illustrate how the methods currently in wide use can lead to erroneous conclusions, and how multiple linear regression offers an effective framework for distinguishing the impact of an instructional intervention from the impact of student characteristics on test score gains. In general, we recommend that researchers always use student-level regression models that control for possible differences in student ability and preparation to estimate the effect of any nonrandomized instructional intervention on student performance. PMID:24591502

Is it the intervention or the students? using linear regression to control for student characteristics in undergraduate STEM education research.

PubMed

Theobald, Roddy; Freeman, Scott

2014-01-01

Although researchers in undergraduate science, technology, engineering, and mathematics education are currently using several methods to analyze learning gains from pre- and posttest data, the most commonly used approaches have significant shortcomings. Chief among these is the inability to distinguish whether differences in learning gains are due to the effect of an instructional intervention or to differences in student characteristics when students cannot be assigned to control and treatment groups at random. Using pre- and posttest scores from an introductory biology course, we illustrate how the methods currently in wide use can lead to erroneous conclusions, and how multiple linear regression offers an effective framework for distinguishing the impact of an instructional intervention from the impact of student characteristics on test score gains. In general, we recommend that researchers always use student-level regression models that control for possible differences in student ability and preparation to estimate the effect of any nonrandomized instructional intervention on student performance.

Scientists Interacting With University Science Educators

NASA Astrophysics Data System (ADS)

Spector, B. S.

2004-12-01

Scientists with limited time to devote to educating the public about their work will get the greatest multiplier effect for their investment of time by successfully interacting with university science educators. These university professors are the smallest and least publicized group of professionals in the chain of people working to create science literate citizens. They connect to all aspects of formal and informal education, influencing everything from what and how youngsters and adults learn science to legislative rulings. They commonly teach methods of teaching science to undergraduates aspiring to teach in K-12 settings and experienced teachers. They serve as agents for change to improve science education inside schools and at the state level K-16, including what science content courses are acceptable for teacher licensure. University science educators are most often housed in a College of Education or Department of Education. Significant differences in culture exist in the world in which marine scientists function and that in which university science educators function, even when they are in the same university. Subsequently, communication and building relationships between the groups is often difficult. Barriers stem from not understanding each other's roles and responsibilities; and different reward systems, assumptions about teaching and learning, use of language, approaches to research, etc. This presentation will provide suggestions to mitigate the barriers and enable scientists to leverage the multiplier effect saving much time and energy while ensuring the authenticity of their message is maintained. Likelihood that a scientist's message will retain its authenticity stems from criteria for a university science education position. These professors have undergraduate degrees in a natural science (e.g., biology, chemistry, physics, geology), and usually a master's degree in one of the sciences, a combination of natural sciences, or a master's including about eighteen hours in a natural science. Their doctorates in science education include in-depth understanding of how people construct basic science concepts and ways to mitigate conceptions not consistent with current science. They have learned ways to transform scientific information to various audiences enabling learners to construct meaningful understanding of science phenomena, the nature of science, and its historical and philosophical underpinnings. Lessons learned from current and past innovations will be presented.

Spaceflight-relevant stem education and outreach: Social goals and priorities

NASA Astrophysics Data System (ADS)

Caldwell, Barrett S.

2015-07-01

This paper is based on a presentation and conference proceedings paper given at the 65th International Astronautical Congress. The paper addresses concerns in education and public outreach (EPO) in science, technology, engineering and mathematics (STEM). The author serves as a Director of a US statewide NASA-funded Space Grant Consortium, with responsibilities to coordinate funding for undergraduate scholarships, graduate fellowships, and program awards. Space Grant is a national NASA network of STEM EPO programs including over 1000 higher education, outreach center, science museum, local government, and corporate partners. As a Space Grant Director, the author interacts with a variety of levels of STEM literacy and sophistication among members of the public. A number of interactions highlight the need for STEM EPO leaders to speak directly to a variety of social goals and priorities. Spaceflight is largely seen as an appealing and potentially desirable STEM application. However, members of the public are often unclear and ill-informed regarding relative expense, relative benefit, and relative breadth of domains of expertise that are relevant to the spaceflight enterprise. In response (and resulting in further disconnects between STEM specialists and the public), focused STEM professionals frequently over-emphasize their own technical specialty and its priority in general because of its importance to that professional. These potential divides in the attempt to share and connect STEM related goals and priorities are discussed as an elaboration of invitations to discuss spacefaring in "futures forum" contexts. Spaceflight can be seen as addressing a combination of "actualization" and "aspirational" goals at social and societal levels. Maslow's hierarchy of needs distinguishes between "basic needs" and "actualization" as a higher-order need. Another aspect of spaceflight is aspirational-it speaks to hopes and desires for levels of flexibility and capability at the societal level. One analogy is the marketing of premium brand luxury items, at lower cost and larger volumes, to larger segments of the population. STEM EPO activities should not be directed solely at the "rocket science" applications of technology and engineering capabilities. Additional effort is needed to connect spaceflight experiences and examples to broader STEM needs, social priorities, and local contexts.

Understanding the Factors That Support the Use of Active Learning Teaching in STEM Undergraduate Courses: Case Studies in the Field of Geoscience

ERIC Educational Resources Information Center

Iverson, Ellen A. Roscoe

2016-01-01

The purpose of this study was to understand the factors that support the adoption of active learning teaching strategies in undergraduate courses by faculty members, specifically in the STEM disciplines related to geoscience. The focus of the study centered on the context of the department which was identified as a gap in evaluation and…

Pathways in STEM: Factors affecting the retention and attrition of talented men and women from the STEM pipeline

NASA Astrophysics Data System (ADS)

Heilbronner, Nancy N.

Many men and women who are talented in science, technology, engineering, and/or mathematics (STEM) choose not to pursue undergraduate majors or careers in these fields. To develop talents in STEM, educators must understand the factors that contribute to an individual's retention in STEM domains, as well as the factors that act as barriers to success, such as the role that gender plays in the underrepresentation of women in certain STEM fields (e.g., computer science and engineering) and changes in recent decades in the process of selecting STEM majors and careers. The purpose of this study was to explore the influences that guide decisions related to the selection of majors and occupations during high school, post-secondary education, and early careers. Survey methodology was used to explore the perceptions of 360 Science Talent Search (STS) semifinalists and finalists during the years 1987-1989 and 1997-1999, and quantitative procedures were used to analyze the data. A majority (74.2%) of STS participants majored in a STEM field in college, and most (68.6%) currently work in a STEM field. A greater percentage of men selected computer science, engineering, physics, and mathematics majors, and a greater percentage of women selected biological science and chemistry. Belief in one's ability to achieve in STEM was a predictor of STEM majors in college and STEM concentrations in graduate school, but differences were found between men's and women's self-efficacy in STEM during high school and in college, as women had lower self-efficacy. Sex was a predictor of STEM majors in college, but perceived quality of academic courses was not. STEM majors also reported more satisfaction with their STEM courses in high school and college than non-STEM majors. In a departure from the results of previous research, the reasons that men and women selected occupations were similar, as were the reasons they chose to leave or not to enter STEM. The most frequently cited reason for attrition was interest in another (non-STEM) field. Participants placed little importance on other reasons for leaving STEM that were identified in previous research, such as competition, social isolation, or financial considerations.

Crisis in Texas Higher Education: The Need for Leadership

NASA Astrophysics Data System (ADS)

Tapia, Richard

2011-10-01

Texas has the fastest growing Hispanic population in the nation. Hispanics will soon comprise a majority of the state's population. Yet this population has a high school drop-out rate of nearly 60% and is vastly underrepresented in STEM (science, technology, engineering, and mathematics) disciplines in the student bodies and faculties of the state's universities. The scientific and economic health of the state is threatened with the formation of such a large scientific underclass. But Rice is making a difference, positioning its underrepresented minority students for STEM leadership throughout the state and nation. The speaker will discuss several successful national award-winning undergraduate and graduate programs that he directs at Rice University that are being heralded as models for the state, region, and nation.

Beneath the numbers: A review of gender disparities in undergraduate education across science, technology, engineering, and math disciplines

NASA Astrophysics Data System (ADS)

Eddy, Sarah L.; Brownell, Sara E.

2016-12-01

[This paper is part of the Focused Collection on Gender in Physics.] This focused collection explores inequalities in the experiences of women in physics. Yet, it is important for researchers to also be aware of and draw insights from common patterns in the experiences of women across science, technology, engineering and mathematics (STEM) disciplines. Here, we review studies on gender disparities across college STEM on measures that have been correlated with retention. These include disparities in academic performance, engagement, self-efficacy, belonging, and identity. We argue that observable factors such as persistence, performance, and engagement can inform researchers about what populations are disadvantaged in a STEM classroom or program, but we need to measure underlying mechanisms to understand how these inequalities arise. We present a framework that helps connect larger sociocultural factors, including stereotypes and gendered socialization, to student affect and observable behaviors in STEM contexts. We highlight four mechanisms that demonstrate how sociocultural factors could impact women in STEM classrooms and majors. We end with a set of recommendations for how we can more holistically evaluate the experiences of women in STEM to help mitigate the underlying inequities instead of applying a quick fix.

Stem cell education for medical students at Tongji University: Primary cell culture and directional differentiation of rat bone marrow mesenchymal stem cells.

PubMed

Jin, Caixia; Tian, Haibin; Li, Jiao; Jia, Song; Li, Siguang; Xu, Guo-Tong; Xu, Lei; Lu, Lixia

2018-03-01

Stem cells are cells that can self-renew and differentiate into a variety of cell types under certain conditions. Stem cells have great potential in regenerative medicine and cell therapy for the treatment of certain diseases. To deliver knowledge about this frontier in science and technology to medical undergraduate students, we designed an innovative practical experiment for freshmen in their second semester. The lab exercise focused on rat bone marrow mesenchymal stem cell (BMSC) isolation, cell culture and differentiation, and it aimed to help students master the aseptic techniques for cell culture, the basic methods and procedures for the primary culture and passage of BMSCs, the basic procedure for the directional differentiation of BMSCs into adipocytes and their subsequent identification by oil-red-O staining. This lab exercise is a very meaningful and useful introduction to stem cell collection and manipulation and inspires medical students to deepen their understanding of translational medicine and regenerative medicine. © 2017 by The International Union of Biochemistry and Molecular Biology, 46(2):151-154, 2018. © 2017 The International Union of Biochemistry and Molecular Biology.

75 FR 456 - Agency Information Collection Activities: Proposed Collection, Comment Request

Federal Register 2010, 2011, 2012, 2013, 2014

2010-01-05

..., technology, engineering, and mathematics (STEM) participation and retention among American Indians, Alaska Natives, and Native Hawaiians through the support of quality STEM teaching through faculty development, STEM degree and curriculum enhancement, and undergraduate research and training opportunities. The...

Multilevel approach to mentoring in the Research Experiences for Undergraduates programs

NASA Astrophysics Data System (ADS)

Bonine, K. E.; Dontsova, K.; Pavao-Zuckerman, M.; Paavo, B.; Hogan, D.; Oberg, E.; Gay, J.

2015-12-01

This presentation focuses on different types of mentoring for students participating in Research Experiences for Undergraduates programs with examples, including some new approaches, from The Environmental and Earth Systems Research Experiences for Undergraduates Program at Biosphere 2. While traditional faculty mentors play essential role in students' development as researchers and professionals, other formal and informal mentoring can be important component of the REU program and student experiences. Students receive mentoring from program directors, coordinators, and on site undergraduate advisors. While working on their research projects, REU students receive essential support and mentoring from undergraduate and graduate students and postdoctoral scientists in the research groups of their primary mentors. Cohort living and group activities give multiple opportunities for peer mentoring where each student brings their own strengths and experiences to the group. Biosphere 2 REU program puts strong emphasis on teaching students to effectively communicate their research to public. In order to help REUs learn needed skills the outreach personnel at Biosphere 2 mentor and advise students both in groups and individually, in lecture format and by personal example, on best outreach approaches in general and on individual outreach projects students develop. To further enhance and strengthen outreach mentoring we used a novel approach of blending cohort of REU students with the Cal Poly STAR (STEM Teacher And Researcher) Program fellows, future K-12 STEM teachers who are gaining research experience at Biosphere 2. STAR fellows live together with the REU students and participate with them in professional development activities, as well as perform research side by side. Educational background and experiences gives these students a different view and better preparation and tools to effectively communicate and adapt science to lay audiences, a challenge commonly facing researchers but rarely taught to future scientists. In addition, REU students act as mentors themselves to the middle and high school students in Biosphere 2 Science Academy sharing with them exciting research they are doing and their experiences about doing science and life in college.

Increasing Persistence in Undergraduate Science Majors: A Model for Institutional Support of Underrepresented Students

PubMed Central

Toven-Lindsey, Brit; Levis-Fitzgerald, Marc; Barber, Paul H.; Hasson, Tama

2015-01-01

The 6-yr degree-completion rate of undergraduate science, technology, engineering, and mathematics (STEM) majors at U.S. colleges and universities is less than 40%. Persistence among women and underrepresented minorities (URMs), including African-American, Latino/a, Native American, and Pacific Islander students, is even more troubling, as these students leave STEM majors at significantly higher rates than their non-URM peers. This study utilizes a matched comparison group design to examine the academic achievement and persistence of students enrolled in the Program for Excellence in Education and Research in the Sciences (PEERS), an academic support program at the University of California, Los Angeles, for first- and second-year science majors from underrepresented backgrounds. Results indicate that PEERS students, on average, earned higher grades in most “gatekeeper” chemistry and math courses, had a higher cumulative grade point average, completed more science courses, and persisted in a science major at significantly higher rates than the comparison group. With its holistic approach focused on academics, counseling, creating a supportive community, and exposure to research, the PEERS program serves as an excellent model for universities interested in and committed to improving persistence of underrepresented science majors and closing the achievement gap. PMID:25828403

Physics education research: A research subfield of physics with gender parity

NASA Astrophysics Data System (ADS)

Barthelemy, Ramón S.; Van Dusen, Ben; Henderson, Charles

2015-12-01

Women currently outnumber men in obtaining undergraduate degrees but are underrepresented within STEM fields. However, women's representation varies by STEM field, and even further by STEM subfield. One field that has held a persistent low representation of women is physics. This paper seeks to uncover the truth behind an anecdotal claim that the subfield of physics education research (PER) has a higher representation of women than physics as a whole. Graduate students in PER completed an online survey to assess their demographics, trajectory in PER, climate experiences, and goals for their research. The response rate for the survey was 68%, yielding 125 total respondents. This paper will focus on the 91 respondents enrolled in U.S. graduate programs. It was found that women make up 51% of the U.S. PER graduate students in this sample, as compared to only 19% of physics graduate students overall. Survey findings also revealed that both women and men in PER graduate programs experience similarly positive working relationships with faculty and fellow students. Last, both men and women reported building a stronger scientific workforce and becoming better teachers as goals for their PER research.

Bringing STEM to Life

ERIC Educational Resources Information Center

Berkeihiser, Mike; Ray, Dori

2013-01-01

The interdisciplinary approach that science, technology, engineering and mathematics (STEM) projects inspire in both teachers and students "brings to light a larger picture that promotes real-world scientific applications, which has in turn been shown to increase undergraduate persistence in STEM." The high school students have been…

Climate Literacy: STEM and Climate Change Education and Remote Sensing Applications

NASA Astrophysics Data System (ADS)

Reddy, S. R.

2015-12-01

NASA Innovations in Climate Education (NICE) is a competitive project to promote climate and Earth system science literacy and seeks to increase the access of underrepresented minority groups to science careers and educational opportunities. A three year funding was received from NASA to partnership with JSU and MSU under cooperative agreement "Strengthening Global Climate Change education through Remote Sensing Application in Coastal Environment using NASA Satellite Data and Models". The goal is to increase the number of highschool and undergraduate students at Jackson State University, a Historically Black University, who are prepared to pursue higher academic degrees and careers in STEM fields. A five Saturday course/workshop was held during March/April 2015 at JSU, focusing on historical and technical concepts of math, enginneering, technology and atmosphere and climate change and remote sensing technology and applications to weather and climate. Nine students from meteorology, biology, industrial technology and computer science/engineering of JSU and 19 high scool students from Jackson Public Schools participated in the course/workshop. The lecture topics include: introduction to remote sensing and GIS, introduction to atmospheric science, math and engineering, climate, introduction to NASA innovations in climate education, introduction to remote sensing technology for bio-geosphere, introduction to earth system science, principles of paleoclimatology and global change, daily weather briefing, satellite image interpretation and so on. In addition to lectures, lab sessions were held for hand-on experiences for remote sensing applications to atmosphere, biosphere, earth system science and climate change using ERDAS/ENVI GIS software and satellite tools. Field trip to Barnett reservoir and National weather Service (NWS) was part of the workshop. Basics of Earth System Science is a non-mathematical introductory course designed for high school seniors, high school teachers and undergraduate students who may or may not have adequate exposure to fundamental concepts of the key components of the modern earth system and their interactions. This is an online course that will be delivered using Blackboard platform available at Jackson State University.

How Undergraduate Women Choose STEM Careers

NASA Astrophysics Data System (ADS)

Hughes, Roxanne

2013-03-01

In 2010 women represented half of the US population and over half of current graduates from college (57%) but less than a third of undergraduate degrees in science and engineering (STEM). This underrepresentation is worse in certain fields such as physics (21%), and engineering (22%) compared to 52% in chemistry. This underrepresentation is not only a social and cultural issue, but it is also cause for alarm in regard to the United States' ability to maintain its technological and economic dominance in the global economy. STEM fields provide valuable contributions to the nation's economic and environmental security (Augustine, 2005; Chang, 2009; Riegle-Crumb and King, 2010; Robelen, 2010; Tessler, 2008), paying practitioners well and bringing in revenue for successful businesses and governments (National Science Board [NSB], 2008; Riegle-Crumb and King). Consequently, addressing the underrepresentation of women and increasing their persistence in STEM fields will increase the number of scientists and engineers contributing to these fields, which could, in turn, improve the nation's economy, safety, and technological revenues. Research indicates that there are internal and external factors that affect the ability of women to see future success in STEM and to identify with the STEM and consequently persist. This presentation will summarize the current literature on issues affecting undergraduate women's retention in STEM as well as present strategies to improve this retention. Part of this presentation will draw from my own research studies in this area. The findings from my study and others reveal that only women who participate in redefinition strategies related to their marginalized status are able to persist; those who cannot redefine their marginality in relation to the dominant discourse of STEM begin to lose interest or doubt their competence in the field, resulting in their departure from STEM.

Writing-to-Learn in Undergraduate Science Education: A Community-Based, Conceptually Driven Approach

PubMed Central

Reynolds, Julie A.; Thaiss, Christopher; Katkin, Wendy; Thompson, Robert J.

2012-01-01

Despite substantial evidence that writing can be an effective tool to promote student learning and engagement, writing-to-learn (WTL) practices are still not widely implemented in science, technology, engineering, and mathematics (STEM) disciplines, particularly at research universities. Two major deterrents to progress are the lack of a community of science faculty committed to undertaking and applying the necessary pedagogical research, and the absence of a conceptual framework to systematically guide study designs and integrate findings. To address these issues, we undertook an initiative, supported by the National Science Foundation and sponsored by the Reinvention Center, to build a community of WTL/STEM educators who would undertake a heuristic review of the literature and formulate a conceptual framework. In addition to generating a searchable database of empirically validated and promising WTL practices, our work lays the foundation for multi-university empirical studies of the effectiveness of WTL practices in advancing student learning and engagement. PMID:22383613

The Classroom Observation Protocol for Undergraduate STEM (COPUS): a new instrument to characterize university STEM classroom practices.

PubMed

Smith, Michelle K; Jones, Francis H M; Gilbert, Sarah L; Wieman, Carl E

2013-01-01

Instructors and the teaching practices they employ play a critical role in improving student learning in college science, technology, engineering, and mathematics (STEM) courses. Consequently, there is increasing interest in collecting information on the range and frequency of teaching practices at department-wide and institution-wide scales. To help facilitate this process, we present a new classroom observation protocol known as the Classroom Observation Protocol for Undergraduate STEM or COPUS. This protocol allows STEM faculty, after a short 1.5-hour training period, to reliably characterize how faculty and students are spending their time in the classroom. We present the protocol, discuss how it differs from existing classroom observation protocols, and describe the process by which it was developed and validated. We also discuss how the observation data can be used to guide individual and institutional change.

The Classroom Observation Protocol for Undergraduate STEM (COPUS): A New Instrument to Characterize University STEM Classroom Practices

PubMed Central

Smith, Michelle K.; Jones, Francis H. M.; Gilbert, Sarah L.; Wieman, Carl E.

2013-01-01

Instructors and the teaching practices they employ play a critical role in improving student learning in college science, technology, engineering, and mathematics (STEM) courses. Consequently, there is increasing interest in collecting information on the range and frequency of teaching practices at department-wide and institution-wide scales. To help facilitate this process, we present a new classroom observation protocol known as the Classroom Observation Protocol for Undergraduate STEM or COPUS. This protocol allows STEM faculty, after a short 1.5-hour training period, to reliably characterize how faculty and students are spending their time in the classroom. We present the protocol, discuss how it differs from existing classroom observation protocols, and describe the process by which it was developed and validated. We also discuss how the observation data can be used to guide individual and institutional change. PMID:24297289

Transforming a Traditional Inquiry-Based Science Unit into a STEM Unit for Elementary Pre-service Teachers: A View from the Trenches

NASA Astrophysics Data System (ADS)

Schmidt, Matthew; Fulton, Lori

2016-04-01

The need to prepare students with twenty-first-century skills through STEM-related teaching is strong, especially at the elementary level. However, most teacher education preparation programs do not focus on STEM education. In an attempt to provide an exemplary model of a STEM unit, we used a rapid prototyping approach to transform an inquiry-based unit on moon phases into one that integrated technology in a meaningful manner to develop technological literacy and scientific concepts for pre-service teachers (PSTs). Using qualitative case study methodology, we describe lessons learned related to the development and implementation of a STEM unit in an undergraduate elementary methods course, focusing on the impact the inquiry model had on PSTs' perceptions of inquiry-based science instruction and how the integration of technology impacted their learning experience. Using field notes and survey data, we uncovered three overarching themes. First, we found that PSTs held absolutist beliefs and had a need for instruction on inquiry-based learning and teaching. Second, we determined that explicit examples of effective and ineffective technology use are needed to help PSTs develop an understanding of meaningful technology integration. Finally, the rapid prototyping approach resulted in a successful modification of the unit, but caused the usability of our digital instructional materials to suffer. Our findings suggest that while inquiry-based STEM units can be implemented in existing programs, creating and testing these prototypes requires significant effort to meet PSTs' learning needs, and that iterating designs is essential to successful implementation.

The master degree: A critical transition in STEM doctoral education

NASA Astrophysics Data System (ADS)

Lange, Sheila Edwards

The need to broaden participation in the nation's science, technology, engineering, and mathematics (STEM) undergraduate and graduate programs is currently a matter of national urgency. The small number of women and underrepresented minorities (URM) earning doctoral degrees in STEM is particularly troubling given significant increases in the number of students earning master's degrees since 1990. In the decade between 1990 and 2000, the total number of master's recipients increased by 42%. During this same time period, the number of women earning master's degrees increased by 56%, African Americans increased by 132%, American Indians by 101%, Hispanics by 146%, and Asian Americans by 117% (Syverson, 2003). Growth in underrepresented group education at the master's level raises questions about the relationship between master's and doctoral education. Secondary data analysis of the Survey of Earned Doctorates (SED) was used to examine institutional pathways to the doctorate in STEM disciplines and transitions from master's to doctoral programs by race and gender. While the study revealed no significant gender differences in pathways, compared to White and Asian American students, URM students take significantly different pathways to the doctorate. URM students are significantly more likely to earn the bachelor's, master's, and doctoral degrees at three different institutions. Their path is significantly more likely to include earning a master's degree en route to the doctorate. Further, URM students are more likely to experience transition between the master's and doctoral degrees, and the transitions are not limited to those who earn master's degrees at master's-only institutions. These findings suggest that earning a master's degree is more often a stepping stone to the doctorate for URM students. Master's degree programs, therefore, have the potential to be a valuable resource for policymakers and graduate programs seeking to increase the diversity of URM students earning doctorates in STEM.

Increasing Access for Economically Disadvantaged Students: The NSF/CSEM & S-STEM Programs at Louisiana State University

NASA Astrophysics Data System (ADS)

Wilson, Zakiya S.; Iyengar, Sitharama S.; Pang, Su-Seng; Warner, Isiah M.; Luces, Candace A.

2012-10-01

Increasing college degree attainment for students from disadvantaged backgrounds is a prominent component of numerous state and federal legislation focused on higher education. In 1999, the National Science Foundation (NSF) instituted the "Computer Science, Engineering, and Mathematics Scholarships" (CSEMS) program; this initiative was designed to provide greater access and support to academically talented students from economically disadvantaged backgrounds. Originally intended to provide financial support to lower income students, this NSF program also advocated that additional professional development and advising would be strategies to increase undergraduate persistence to graduation. This innovative program for economically disadvantaged students was extended in 2004 to include students from other disciplines including the physical and life sciences as well as the technology fields, and the new name of the program was Scholarships for Science, Technology, Engineering and Mathematics (S-STEM). The implementation of these two programs in Louisiana State University (LSU) has shown significant and measurable success since 2000, making LSU a Model University in providing support to economically disadvantaged students within the STEM disciplines. The achievement of these programs is evidenced by the graduation rates of its participants. This report provides details on the educational model employed through the CSEMS/S-STEM projects at LSU and provides a path to success for increasing student retention rates in STEM disciplines. While the LSU's experience is presented as a case study, the potential relevance of this innovative mentoring program in conjunction with the financial support system is discussed in detail.

A Seminar Course to Prepare Astronomy Undergraduate Students for Multiple Career Paths

NASA Astrophysics Data System (ADS)

Hayes-Gehrke, Melissa; Harris, Andrew

2018-01-01

The increasing focus on the importance of STEM careers has led increasing numbers of students to enroll in STEM majors at the University of Maryland, including traditionally smaller majors such as Astronomy. The pursuit of a PhD is neither desirable nor appropriate for many of these students, but most of them lack knowledge of other options open to students with a rigorous science undergraduate degree. We have developed an interactive seminar (1-credit) course (first offered in Fall 2017) intended to expose new Astronomy majors to an array of possible career paths, and give them guidance on steps they can take to prepare for these careers as well as graduate school. Supporting topics include discussions of the elements necessary for success in their undergraduate studies, skills needed preparing for undergraduate research and internship experiences, and showing them how and when an undergraduate research experience will be beneficial for them. We present the seminar course learning goals, topic list and course structure, and results of pre- and post-attitudes surveys.

A community engagement project in an undergraduate oceanography course to increase engagement and representation in marine science among high school students

NASA Astrophysics Data System (ADS)

Clark, C. D.; Prairie, J. C.; Walters, S. A.

2016-02-01

In the context of undergraduate education in oceanography, we are constantly striving for innovative ways to enhance student learning and enthusiasm for marine science. Community engagement is a form of experiential education that not only promotes a better understanding of concepts among undergraduate students but also allows them to interact with the community in a way that is mutually beneficial to both parties. Here I present on my experience in incorporating a community engagement project in my undergraduate physical oceanography course at the University of San Diego (USD) in collaboration with Mission Bay High School (MBHS), a local Title 1 International Baccalaureate high school with a high proportion of low-income students and students from underrepresented groups in STEM. As part of this project, the undergraduate students from my physical oceanography course were challenged to develop interactive workshops to present to the high school students at MBHS on some topic in oceanography. Prior to the workshops, the USD students met with the high school students at MBHS during an introductory meeting in which they could learn about each other's interests and backgrounds. The USD students then worked in teams of three to design a workshop proposal in which they outlined their plan for a workshop that was interactive and engaging, relying on demonstrations and activities rather than lecture. Each of the three teams then presented their workshops on separate days in the Mission Bay High School classroom. Finally, the USD students met again with the high school students at MBHS for a conclusion day in which both sets of students could discuss their experiences with the community engagement project. Through the workshop itself and a reflection essay written afterwards, the USD students learned to approach concepts in oceanography from a different perspective, and think about how student backgrounds can inform teaching these concepts. I will describe preliminary outcomes of this project and discuss the potential of community engagement projects in general to positively impact and integrate both undergraduate and high school education in ocean science.

The persistence of Black males in the STEM fields at Texas State University

NASA Astrophysics Data System (ADS)

Day, Beverly Woodson

For the past five years, enrollment in the College of Science and Engineering by first-time undergraduate students has steadily increased. However, retaining the students through their first-year and their persistence to their second year of college and beyond has been problematic. The purpose of this study is to add to the knowledge of why Black students, specifically Black men, are not persisting at Texas State University in the STEM majors. It will also determine if specific factors like the SAT scores, parent's education, high school rank, college GPA, college science and math courses (physics, math, biology and chemistry), college credits earned and average GPA in all science and math college courses predict college preparation and college performance for all students and for Black male students.

Using Place-Based Independent Class Projects as a Means to Hone Research Skills and Prepare a Future Geospatial Workforce

NASA Astrophysics Data System (ADS)

Prakash, A.; Gens, R.; Cristobal, J.; Waigl, C. F.; Balazs, M. S.; Graham, P. R.; Butcher, C. E.; Sparrow, E. B.

2015-12-01

It is never too early to bring in your own research into teaching. Considerable efforts have been made globally to introduce STEM research themes in K12 environments. These efforts a laudable as they help to create STEM identity in students and get students excited to pursue higher education. The task of a post-secondary educator is to build on that excitement and ensure that the students who enter higher education come out knowledgeable, skilled, and employable. At the University of Alaska Fairbanks we have structured our geospatial curricula to include place-based, independent research projects in several semester-long classes. These class-projects serve as mini capstone research experiences that take a student through the entire process of research including: identifying a problem or need; building a hypothesis; formulating the science question; searching, acquiring, and processing data; analyzing and interpreting the research results; and presenting the outcomes in written and oral format to a peer group. Over a decade of experience has shown that students tend to engage and perform well when the research addresses an authentic problem they can relate to and take ownership of. Over 150 student-lead class projects using a variety of freely available datasets have contributed not only to preparing the future workforce, but also to enhancing the research profile of UAF. We extended the same model to a summer internship program where graduate students who have gone through the experience of an in-class research project serve as mentors for undergraduate interns. Even the condensed time frame yields positive outcomes including joint publications between faculty, staff, graduate students and undergraduate students in the peer-reviewed literature.

A case study for integrated STEM outreach in an urban setting using a do-it-yourself vertical jump measurement platform.

PubMed

Drazan, John F; Danielsen, Heather; Vercelletto, Matthew; Loya, Amy; Davis, James; Eglash, Ron

2016-08-01

The purpose of this study was to develop and deploy a low cost vertical jump platform using readily available materials for Science, Technology, Engineering, and Mathematics (STEM) education and outreach in the inner city. The platform was used to measure the jumping ability of participants to introduce students to the collection and analysis of scientific data in an engaging, accessible manner. This system was designed and fabricated by a student team of engineers as part of a socially informed engineering and design class. The vertical jump platform has been utilized in 10 classroom lectures in physics and biology. The system was also used in an after school program in which high school volunteers prepared a basketball based STEM outreach program, and at a community outreach events with over 100 participants. At present, the same group of high school students are now building their own set of vertical jump platform under the mentorship of engineering undergraduates. The construction and usage of the vertical jump platform provides an accessible introduction to the STEM fields within the urban community.

Enhancing STEM Education through Cubesats: Using Satellite Integration as a Teaching Tool at a Non-Tech School

NASA Astrophysics Data System (ADS)

Bernardes, S.; Cotten, D. L.

2016-12-01

University-based satellite programs have been successfully used as a platform for teaching STEM related fields, bringing tremendous benefits to graduate and undergraduate education. Considering their infrastructure and curricula, tech schools have traditionally been considered logical candidates for hosting such programs. More recently, with the dissemination of small satellites initiatives, non-tech schools have been presented the opportunity of developing satellite design and implementation programs. This work reports on the experiences and challenges associated with implementing a satellite program at the University of Georgia (UGA), a non-tech university. With funding from the Air Force Research Laboratory's (AFRL) University Nanosat Program (UNP) and NASA's Undergraduate Student Instrument Project (USIP) a team of undergraduates at UGA has recently been tasked with building two small satellites and helping to create a Small Satellite Research Laboratory (SSRL) at the university. Unique features of the satellite program at UGA include its team of students from a broad range of backgrounds and departments (Engineering, Computer Science, Art, Business, and Geography) and the previous exposure of many of these students to synergistic technologies, including arduino and unmanned aerial systems. We show how informal exposure to those technologies and willingness of students to focus on areas outside of their field of study can benefit from the implementation of satellite programs. In this regard, we report on methods and techniques used to find and recruit driven and knowledgeable students to work in a high paced field such as satellite system integration. We show how students and faculty from multiple departments have collaborated to reach a common, far reaching goal and describe our proposed methods to evaluate and measure educational goals based around SSRL and its projects. We also present the challenges associated with the lack of a developed engineering program, including our solutions to a shortage of equipment and expertise regarding building satellite systems and a satellite laboratory. Finally, we our outreach methods, including K-12, and share our experience and successes finding industry partners, considering an absence of background in the field and prior collaborations.

Movers, Shakers, & Everyone in Between: Faculty Personas Surrounding Active Learning in the Undergraduate STEM Classroom

ERIC Educational Resources Information Center

Guy, Batsheva R.

2017-01-01

This qualitative study explores the attitudes that STEM (Science, Technology, Engineering, and Mathematics) faculty have about active learning (AL), the barriers that STEM faculty face when implementing AL, and what would encourage STEM faculty to use AL. Data was gathered using a modified Group-Level Assessment (GLA), a participatory method meant…

The California-Arizona Minority Partnership for Astronomy Research and Education (CAMPARE): A New Model for Promoting Minority Participation in Astronomy Research and Education

NASA Astrophysics Data System (ADS)

Rudolph, Alexander L.; Impey, C. D.; Bieging, J. H.; Phillips, C. B.; Tieu, J.; Prather, E. E.; Povich, M. S.

2013-01-01

The California-Arizona Minority Partnership for Astronomy Research and Education (CAMPARE) program represents a new and innovative kind of research program for undergraduates: one that can effectively carry out the goal of recruiting qualified minority and female students to participate in Astronomy and Planetary Science research opportunities, while mentoring them in a way to maximize the chance that these students will persist in obtaining their undergraduate degrees in STEM fields, and potentially go on to obtain their PhDs or pursue careers in those fields. The members of CAMPARE comprise a network of comprehensive universities and community colleges in Southern California and Arizona (most of which are minority serving institutions), and four major research institutions (University of Arizona Steward Observatory, the SETI Institute, and JPL/Caltech). Most undergraduate research programs focus on a single research institution. By having multiple institutions, we significantly broaden the opportunities for students, both in terms of breadth of research topics and geographical location. In its first three years, the CAMPARE program has had 20 undergraduates from two CSU campuses, both Hispanic Serving Institutions, take part in research and educational activities at four research institutions, the University of Arizona Steward Observatory, the SETI Institute, and JPL/Caltech. Of the 20 participants, 9 are women and 11 are men, a much more even split than is typical in Astronomy research programs; 10 are Hispanic, 2 are African American, and 1 is part Native American, including 2 female Hispanic and 2 female African-American participants, an exceptionally high participation rate (65%) for students from underrepresented minority groups. Of the five participants who have graduated since the program began, two are in graduate programs in Physics or Astronomy, two are pursuing a K-12 teaching credential, and one has enlisted in the Nuclear Propulsion Officer Candidate (NUPOC) program of the U.S. Navy.

NASA Science Mission Directorate Education and Public Outreach: Engaging with Scientists and Educators through the Higher Education Working Group

NASA Astrophysics Data System (ADS)

Schultz, Gregory R.; Gross, Nicholas; Buxner, Sanlyn; Low, Russanne; Moldwin, Mark; Fraknoi, Andrew; Grier, Jennifer A.

2015-01-01

The NASA Science Mission Directorate (SMD) Education and Public Outreach (EPO) Forums have established a Higher Education Working Group (HEWG), which has explored and surveyed the higher education landscape with regard to different subjects, such as community colleges and diversity. The HEWG is composed of representatives from each of the SMD EPO Forums, along with 'external' members who have rotated in and out, and the co-authors here constitute the present membership, chaired by Nicholas Gross. Most recently, the HEWG has worked to identify the key characteristics of higher education STEM programs that reach diverse populations. While increasing the involvement of students from diverse backgrounds in SMD EPO is a core goal for our community, engaging these students meaningfully requires a dedicated strategy using proven techniques. In reality, while most educational programs have this goal, undertaking it meaningfully is more challenging. For higher education, diversity is a long-standing issue, and the working group could have taken many different paths to explore this important topic. The HEWG has undertaken a review of programs that involve engaging undergraduates from diverse backgrounds in SMD-related research internships or hands-on STEM experiments. This information will be synthesized and documented so that future education efforts can incorporate the most valuable components. Meanwhile, the working group is exploring ways that NASA SMD can be more helpful to higher education faculty and students, and community input is solicited as part of this presentation.

Understanding the Factors that Support the Use of Active Learning Teaching in STEM Undergraduate Courses: Case Studies in the Field of Geoscience

NASA Astrophysics Data System (ADS)

Iverson, Ellen A. Roscoe

The purpose of this study was to understand the factors that support the adoption of active learning teaching strategies in undergraduate courses by faculty members, specifically in the STEM disciplines related to geoscience. The focus of the study centered on the context of the department which was identified as a gap in evaluation and educational research studies of STEM faculty development. The study used a mixed-method case study methodology to investigate the influences of departmental context on faculty members' adoption of active-learning teaching practices. The study compared and contrasted the influence of two faculty development strategies initiated in the field of geoscience. Six university geoscience departments were selected that had participated in two national geoscience professional development programs. Data were generated from 19 faculty interviews, 5 key informant interviews, and documents related to departmental and institutional context. The study concluded that two main factors influenced the degree to which faculty who participated in geoscience faculty development reported adoption of active learning pedagogies. These conclusions are a) the opportunity to engage in informal, regular conversations with departmental colleagues about teaching promoted adoption of new teaching approaches and ideas and b) institutional practices regarding the ways in which teaching practices were typically measured, valued, and incentivized tended to inhibit risk taking in teaching. The conclusions have implications related to institutional policy, faculty development, and the role of evaluation.

Living Learning Communities: An Intervention in Keeping Women Strong in Science, Technology, Engineering, and Mathematics

NASA Astrophysics Data System (ADS)

Belichesky, Jennifer

The purpose of this study was to expand on the current research pertaining to women in science, technology, engineering, and mathematics (STEM) majors, better understand the experiences of undergraduate women in the sciences, identify barriers to female persistence in their intended STEM majors, and understand the impact of the STEM co-educational Living Learning Community (LLC) model on female persistence. This study employed a mixed-methods approach that was grounded in standpoint methodology. The qualitative data were collected through focus groups and one-on-one interviews with the female participants and was analyzed through a critical feminist lens utilizing standpoint methodology and coded utilizing inductive analysis. The quantitative data were collected and analyzed utilizing a simple statistical analysis of key academic variables indicative of student success: cumulative high school GPAs, SAT scores, first year cumulative GPAs, freshman persistence patterns in the intended major, and freshman retention patterns at the university. The findings of this study illustrated that the co-educational LLC model created an inclusive academic and social environment that positively impacted the female participants' experiences and persistence in STEM. The findings also found the inclusion of men in the community aided in the demystification of male superiority in the sciences for the female participants. This study also highlighted the significance of social identity in the decision making process to join a science LLC.

The Influence of Materials Science and Engineering Undergraduate Research Experiences on Public Communication Skills

ERIC Educational Resources Information Center

Ing, Marsha; Fung, Wenson W.; Kisailus, David

2013-01-01

Communicating research findings with others is a skill essential to the success of future STEM professionals. However, little is known about how this skill can be nurtured through participating in undergraduate research. The purpose of this study is to quantify undergraduate participation in research in a materials science and engineering…

Cultivating Minority Scientists: Undergraduate Research Increases Self-Efficacy and Career Ambitions for Underrepresented Students in STEM

ERIC Educational Resources Information Center

Carpi, Anthony; Ronan, Darcy M.; Falconer, Heather M.; Lents, Nathan H.

2017-01-01

In this study, Social Cognitive Career Theory (SCCT) is used to explore changes in the career intentions of students in an undergraduate research experience (URE) program at a large public minority-serving college. Our URE model addresses the challenges of establishing an undergraduate research program within an urban, commuter, underfunded,…

A Geoscience Workforce Model for Non-Geoscience and Non-Traditional STEM Students

NASA Astrophysics Data System (ADS)

Liou-Mark, J.; Blake, R.; Norouzi, H.; Vladutescu, D. V.; Yuen-Lau, L.

2016-12-01

The Summit on the Future of Geoscience Undergraduate Education has recently identified key professional skills, competencies, and conceptual understanding necessary in the development of undergraduate geoscience students (American Geosciences Institute, 2015). Through a comprehensive study involving a diverse range of the geoscience academic and employer community, the following professional scientist skills were rated highly important: 1) critical thinking/problem solving skills; 2) effective communication; 3) ability to access and integrate information; 4) strong quantitative skills; and 5) ability to work in interdisciplinary/cross cultural teams. Based on the findings of the study above, the New York City College of Technology (City Tech) has created a one-year intensive training program that focusses on the development of technical and non-technical geoscience skills for non-geoscience, non-traditional STEM students. Although City Tech does not offer geoscience degrees, the primary goal of the program is to create an unconventional pathway for under-represented minority STEM students to enter, participate, and compete in the geoscience workforce. The selected cohort of STEM students engage in year-round activities that include a geoscience course, enrichment training workshops, networking sessions, leadership development, research experiences, and summer internships at federal, local, and private geoscience facilities. These carefully designed programmatic elements provide both the geoscience knowledge and the non-technical professional skills that are essential for the geoscience workforce. Moreover, by executing this alternate, robust geoscience workforce model that attracts and prepares underrepresented minorities for geoscience careers, this unique pathway opens another corridor that helps to ameliorate the dire plight of the geoscience workforce shortage. This project is supported by NSF IUSE GEOPATH Grant # 1540721.

Diving Deep: A Comparative Study of Educator Undergraduate and Graduate Backgrounds and Their Effect on Student Understanding of Engineering and Engineering Careers, Utilizing an Underwater Robotics Program

NASA Astrophysics Data System (ADS)

Scribner, J. Adam

Numerous studies have demonstrated that educators having degrees in their subjects significantly enhances student achievement, particularly in secondary mathematics and science (Chaney, 1995; Goe, 2007; Rowan, Chiang, & Miller, 1997; Wenglinsky, 2000). Yet, science teachers in states that adopt the Next Generation Science Standards will be facilitating classroom engineering activities despite the fact that few have backgrounds in engineering. This quantitative study analyzed ex-post facto WaterBotics (an innovative underwater robotics curriculum for middle and high school students) data to determine if educators having backgrounds in engineering (i.e., undergraduate and graduate degrees in engineering) positively affected student learning on two engineering outcomes: 1) the engineering design process, and 2) understanding of careers in engineering (who engineers are and what engineers do). The results indicated that educators having backgrounds in engineering did not significantly affect student understanding of the engineering design process or careers in engineering when compared to educators having backgrounds in science, mathematics, technology education, or other disciplines. There were, however, statistically significant differences between the groups of educators. Students of educators with backgrounds in technology education had the highest mean score on assessments pertaining to the engineering design process while students of educators with disciplines outside of STEM had the highest mean scores on instruments that assess for student understanding of careers in engineering. This might be due to the fact that educators who lack degrees in engineering but who teach engineering do a better job of "sticking to the script" of engineering curricula.

PROGRESS (PROmoting Geoscience Research Education and SuccesS): a novel mentoring program for retaining undergraduate women in the geosciences

NASA Astrophysics Data System (ADS)

Clinton, Sandra; Adams, Amanda; Barnes, Rebecca; Bloodhart, Brittany; Bowker, Cheryl; Burt, Melissa; Godfrey, Elaine; Henderson, Heather; Hernandez, Paul; Pollack, Ilana; Sample McMeeking, Laura Beth; Sayers, Jennifer; Fischer, Emily

2017-04-01

Women still remain underrepresented in many areas of the geosciences, and this underrepresentation often begins early in their university career. In 2015, an interdisciplinary team including expertise in the geosciences (multiple sub-disciplines), psychology, education and STEM persistence began a project focused on understanding whether mentoring can increase the interest, persistence, and achievement of undergraduate women in geoscience fields. The developed program (PROGRESS) focuses on mentoring undergraduate female students, starting in their 1st and 2nd year, from two geographically disparate areas of the United States: the Carolinas in the southeastern part of the United States and the Front Range of the Rocky Mountains in the western part of the United States. The two regions were chosen due to their different student demographics, as well as the differences in the number of working female geoscientists in the region. The mentoring program includes a weekend workshop, access to professional women across geoscience fields, and both in-person and virtual peer networks. Four cohorts of students were recruited and participated in our professional development workshops (88 participants in Fall 2015 and 94 participants in Fall 2016). Components of the workshops included perceptions of the geosciences, women in STEM misconceptions, identifying personal strengths, coping strategies, and skills on building their own personal network. The web-platform (http://geosciencewomen.org/), designed to enable peer-mentoring and provide resources, was launched in the fall of 2015 and is used by both cohorts in conjunction with social media platforms. We will present an overview of the major components of the program, discuss lessons learned during 2015 that were applied to 2016, and share preliminary analyses of surveys and interviews with study participants from the first two years of a five-year longitudinal study that follows PROGRESS participants and a control group.

Criminalistics Education and the Role of the Criminalistics Educator.

PubMed

Lindquist, C A

1995-06-01

The uniqueness of criminalistics education stems from the participation of academe, laboratories, and a variety of public agencies, professional associations, and private vendors. One consequence of laboratory and association participation is the premium placed on experience during the evaluation process. An analysis of undergraduate criminalistics programs indicates the existence of considerable reservations about their utility for providing new laboratory personnel. At the masters degree level, however, a consensus appears to exist about the appropriateness of curricular structure and the value of a graduate degree in criminalistics for laboratory employment. Doctoral programs related to criminalistics are also discussed and the need for their maintenance is emphasized. The review concludes with an examination of the role of the criminalistics educator as: academic leader, agent of institutional change, laboratory counter-balance, and catalyst for legal change. Copyright © 1995 Central Police University.

Successes of a new NSF Research Experience for Teachers (RET): Water-Energy Education for the Next Generation (WE2NG) Empowers K-12 Educators to Train Our Future Scientists to Solve Critical STEM Issues

NASA Astrophysics Data System (ADS)

Blaine, A. C.; Martin, A. C.; Hogue, T. S.

2016-12-01

Colorado School of Mines (CSM) recently kicked-off a three year K-12 teacher training program with an inaugural six-week summer Research Experience for Teachers (RET). The WE2NG, or Water-Energy Education for the Next Generation program, hosted nine Colorado public school teachers, giving them content and tools to enhance curricula and STEM topics in the classroom. WE2NG is an NSF (National Science Foundation) RET program that seeks to advance public knowledge and dialogue on the water-energy nexus through integration of teachers, and ultimately their students, by infusing standards-based, active-learning lessons with cutting-edge research in the water-energy nexus. The teachers' experience begins with a six week summer program at CSM that consists of different activities collectively integrated to give participants a holistic understanding of STEM research from inception to actualization. Three days a week, the participants focus on integration into a mentor faculty's research projects concerning water and/or energy. During the other two days, participants benefit from research presentations and lab tours from participating faculty, technical workshops on interdisciplinary topics, interaction with industry via field trips and speakers, and professional collaborative STEM curriculum development training. However, the teachers' experience does not end with the summer program; WE2NG also establishes long-term collaborative relationships with the summer participants by providing classroom support throughout the academic year. Graduate and undergraduate students from CSM Centers on campus are paired with the teachers to provide significant, sustained support and act as liaisons throughout the academic year. This presentation will highlight successes and lessons learned during the first year of the program, including a summary of how collaboration between K-12 teachers, Mines faculty and industry leaders can radically impact STEM education in Colorado.

Education Highlights: Synthetic Nanoparticles

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

Gambacorta, Francesca; Michalska, Martyna

Argonne intern Francesca Gambacorta from University of Illinois at Urbana–Champaign worked with Argonne mentor Phil Laible and Postdoctoral mentor Martyna Michalska to study how black silicon, a synthetic nanomaterial, kills bacteria. This research will help scientists predict other applications of this material in the biomedical field. Argonne aims to develop the next generation of scientists, researchers, and engineers by mentoring over 300 undergraduate and graduate students a year from over 40 STEM majors in over 15 different career development programs. Students come from over 160 colleges and universities in 41 states and 15 countries.

A Five-Year University/Community College Collaboration to Build STEM Pipeline Capacity

ERIC Educational Resources Information Center

Strawn, Clare; Livelybrooks, Dean

2012-01-01

This article investigates the mechanisms through which undergraduate research experiences for community college students can have second-order and multiplier effects on other students and home community college science, technology, engineering, and mathematics (STEM) departments and thus build STEM pipeline capacity. Focus groups with the science…

The STEM Lecture Hall: A Study of Effective Instructional Practices for Diverse Learners

ERIC Educational Resources Information Center

Reimer, Lynn Christine

2017-01-01

First-generation, low-income, underrepresented minority (URM) and female undergraduates are matriculating into science, technology, engineering, and math (STEM) majors at unprecedented levels. However, a disproportionate number of these students end up graduating in non-STEM disciplines. Attrition rates have been observed to spike in conjunction…

STEM for Non-STEM Majors: Enhancing Science Literacy in Large Classes

ERIC Educational Resources Information Center

Jin, Guang; Bierma, Tom

2013-01-01

This study evaluated a strategy using "clickers," POGIL (process oriented guided inquiry learning), and a focused science literacy orientation in an applied science course for non-STEM undergraduates taught in large classes. The effectiveness of these interventions in improving the science literacy of students was evaluated using a…

Teaching Climate Change Through Data Analytics: Updates on the TRELLIS Project at the City University of New York

NASA Astrophysics Data System (ADS)

Rosenzweig, B.; Cak, A. D.

2017-12-01

Community colleges have been identified as a particularly important gateway for the United States' scientific workforce. However, students that begin their higher education at community colleges often face barriers in developing the skills needed for higher-level STEM careers, including basic training in mathematics, programming and communications, deep analytical and problem-solving skills, and experience with working across disciplines. As part of the Undergraduate STEM Interventions in Industry (USI2) Consortium, we have developed a summer bridge program for students in diverse STEM fields transferring from City University of New York (CUNY) community colleges to the City College of New York. Students participating in the program receive training and work on team data analysis projects on various themes related to climate change resilience and New York City. We will discuss our experiences during the first 2 years of implementation of the summer bridge program along with plans for a capstone program for students in their senior year.

The Effects of an Academic Environment Intervention on Science Identification among Women in STEM

ERIC Educational Resources Information Center

Ramsey, Laura R.; Betz, Diana E.; Sekaquaptewa, Denise

2013-01-01

Academic environments can feel unwelcoming for women in science, technology, engineering, and math (STEM) fields. Two studies examined academic environments of female undergraduates majoring in STEM fields at a university in the United States. In Study 1, we compared women in STEM who are in a welcoming environment to those in a traditional STEM…

Stepping onto the STEM Pathway: Factors Affecting Talented Students' Declaration of STEM Majors in College

ERIC Educational Resources Information Center

Heilbronner, Nancy N.

2011-01-01

Despite a growing national need to develop capabilities in science, technology, engineering, and mathematics (STEM), many men and women who are considered talented in these areas during high school choose not to pursue STEM undergraduate majors. A purpose of the current study was to better understand factors that contribute to an individual's…

Engaging actively with issues in the responsible conduct of science: lessons from international efforts are relevant for undergraduate education in the United States.

PubMed

Clements, John D; Connell, Nancy D; Dirks, Clarissa; El-Faham, Mohamed; Hay, Alastair; Heitman, Elizabeth; Stith, James H; Bond, Enriqueta C; Colwell, Rita R; Anestidou, Lida; Husbands, Jo L; Labov, Jay B

2013-01-01

Numerous studies are demonstrating that engaging undergraduate students in original research can improve their achievement in the science, technology, engineering, and mathematics (STEM) fields and increase the likelihood that some of them will decide to pursue careers in these disciplines. Associated with this increased prominence of research in the undergraduate curriculum are greater expectations from funders, colleges, and universities that faculty mentors will help those students, along with their graduate students and postdoctoral fellows, develop an understanding and sense of personal and collective obligation for responsible conduct of science (RCS). This Feature describes an ongoing National Research Council (NRC) project and a recent report about educating faculty members in culturally diverse settings (Middle East/North Africa and Asia) to employ active-learning strategies to engage their students and colleagues deeply in issues related to RCS. The NRC report describes the first phase of this project, which took place in Aqaba and Amman, Jordan, in September 2012 and April 2013, respectively. Here we highlight the findings from that report and our subsequent experience with a similar interactive institute in Kuala Lumpur, Malaysia. Our work provides insights and perspectives for faculty members in the United States as they engage undergraduate and graduate students, as well as postdoctoral fellows, to help them better understand the intricacies of and connections among various components of RCS. Further, our experiences can provide insights for those who may wish to establish "train-the-trainer" programs at their home institutions.

Engaging Actively with Issues in the Responsible Conduct of Science: Lessons from International Efforts Are Relevant for Undergraduate Education in the United States

PubMed Central

Clements, John D.; Connell, Nancy D.; Dirks, Clarissa; El-Faham, Mohamed; Hay, Alastair; Heitman, Elizabeth; Stith, James H.; Bond, Enriqueta C.; Colwell, Rita R.; Anestidou, Lida; Husbands, Jo L.; Labov, Jay B.

2013-01-01

Numerous studies are demonstrating that engaging undergraduate students in original research can improve their achievement in the science, technology, engineering, and mathematics (STEM) fields and increase the likelihood that some of them will decide to pursue careers in these disciplines. Associated with this increased prominence of research in the undergraduate curriculum are greater expectations from funders, colleges, and universities that faculty mentors will help those students, along with their graduate students and postdoctoral fellows, develop an understanding and sense of personal and collective obligation for responsible conduct of science (RCS). This Feature describes an ongoing National Research Council (NRC) project and a recent report about educating faculty members in culturally diverse settings (Middle East/North Africa and Asia) to employ active-learning strategies to engage their students and colleagues deeply in issues related to RCS. The NRC report describes the first phase of this project, which took place in Aqaba and Amman, Jordan, in September 2012 and April 2013, respectively. Here we highlight the findings from that report and our subsequent experience with a similar interactive institute in Kuala Lumpur, Malaysia. Our work provides insights and perspectives for faculty members in the United States as they engage undergraduate and graduate students, as well as postdoctoral fellows, to help them better understand the intricacies of and connections among various components of RCS. Further, our experiences can provide insights for those who may wish to establish “train-the-trainer” programs at their home institutions. PMID:24297287

Leveraging Global Geo-Data and Information Technologies to Bring Authentic Research Experiences to Students in Introductory Geosciences Courses

NASA Astrophysics Data System (ADS)

Ryan, J. G.

2014-12-01

The 2012 PCAST report identified the improvement of "gateway" science courses as critical to increasing the number of STEM graduates to levels commensurate with national needs. The urgent need to recruit/ retain more STEM graduates is particularly acute in the geosciences, where growth in employment opportunities, an aging workforce and flat graduation rates are leading to substantial unmet demand for geoscience-trained STEM graduates. The need to increase the number of Bachelors-level geoscience graduates was an identified priority at the Summit on the Future of Undergraduate Geoscience Education (http://www.jsg.utexas.edu/events/future-of-geoscience-undergraduateeducation/), as was the necessity of focusing on 2-year colleges, where a growing number of students are being introduced to geosciences. Undergraduate research as an instructional tool can help engage and retain students, but has largely not been part of introductory geoscience courses because of the challenge of scaling such activities for large student numbers. However, burgeoning information technology resources, including publicly available earth and planetary data repositories and freely available, intuitive data visualization platforms makes structured, in-classroom investigations of geoscience questions tractable, and open-ended student inquiry possible. Examples include "MARGINS Mini-Lessons", instructional resources developed with the support of two NSF-DUE grant awards that involve investigations of marine geosciences data resources (overseen by the Integrated Earth Data Applications (IEDA) portal: www.iedadata.org) and data visualization using GeoMapApp (www.geomapapp.org); and the growing suite of Google-Earth based data visualization and exploration activities overseen by the Google Earth in Onsite and Distance Education project (geode.net). Sample-based investigations are also viable in introductory courses, thanks to remote instrument operations technologies that allow real student participation in instrument-based data collection and interpretation. It is thus possible to model for students nearly the entire scientific process in introductory geoscience courses, allowing them to experience the excitement of "doing" science and thereby enticing more of them into the field.

Perceived mathematical ability under challenge: a longitudinal perspective on sex segregation among STEM degree fields.

PubMed

Nix, Samantha; Perez-Felkner, Lara; Thomas, Kirby

2015-01-01

Students' perceptions of their mathematics ability vary by gender and seem to influence science, technology, engineering, and mathematics (STEM) degree choice. Related, students' perceptions during academic difficulty are increasingly studied in educational psychology, suggesting a link between such perceptions and task persistence. Despite interest in examining the gender disparities in STEM, these concepts have not been considered in tandem. In this manuscript, we investigate how perceived ability under challenge-in particular in mathematics domains-influences entry into the most sex-segregated and mathematics-intensive undergraduate degrees: physics, engineering, mathematics, and computer science (PEMC). Using nationally representative Education Longitudinal Study of 2002 (ELS) data, we estimate the influence of perceived ability under challenging conditions on advanced high school science course taking, selection of an intended STEM major, and specific major type 2 years after high school. Demonstrating the importance of specificity when discussing how gender influences STEM career pathways, the intersecting effects of gender and perceived ability under mathematics challenge were distinct for each scientific major category. Perceived ability under challenge in secondary school varied by gender, and was highly predictive of selecting PEMC and health sciences majors. Notably, women's 12th grade perceptions of their ability under mathematics challenge increased their probability of selecting PEMC majors over and above biology. In addition, gender moderated the effect of growth mindset on students' selection of health science majors. Perceptions of ability under challenge in general and verbal domains also influenced retention in and declaration of certain STEM majors. The implications of these results are discussed, with particular attention to access to advanced scientific coursework in high school and interventions aimed at enhancing young women's perceptions of their ability, in particular in response to the potentially inhibiting influence of stereotype threat on their pathways to scientific degrees.

Perceived mathematical ability under challenge: a longitudinal perspective on sex segregation among STEM degree fields

PubMed Central

Nix, Samantha; Perez-Felkner, Lara; Thomas, Kirby

2015-01-01

Students' perceptions of their mathematics ability vary by gender and seem to influence science, technology, engineering, and mathematics (STEM) degree choice. Related, students' perceptions during academic difficulty are increasingly studied in educational psychology, suggesting a link between such perceptions and task persistence. Despite interest in examining the gender disparities in STEM, these concepts have not been considered in tandem. In this manuscript, we investigate how perceived ability under challenge—in particular in mathematics domains—influences entry into the most sex-segregated and mathematics-intensive undergraduate degrees: physics, engineering, mathematics, and computer science (PEMC). Using nationally representative Education Longitudinal Study of 2002 (ELS) data, we estimate the influence of perceived ability under challenging conditions on advanced high school science course taking, selection of an intended STEM major, and specific major type 2 years after high school. Demonstrating the importance of specificity when discussing how gender influences STEM career pathways, the intersecting effects of gender and perceived ability under mathematics challenge were distinct for each scientific major category. Perceived ability under challenge in secondary school varied by gender, and was highly predictive of selecting PEMC and health sciences majors. Notably, women's 12th grade perceptions of their ability under mathematics challenge increased their probability of selecting PEMC majors over and above biology. In addition, gender moderated the effect of growth mindset on students' selection of health science majors. Perceptions of ability under challenge in general and verbal domains also influenced retention in and declaration of certain STEM majors. The implications of these results are discussed, with particular attention to access to advanced scientific coursework in high school and interventions aimed at enhancing young women's perceptions of their ability, in particular in response to the potentially inhibiting influence of stereotype threat on their pathways to scientific degrees. PMID:26113823

Renewable Microgrid STEM Education & Colonias Outreach Program

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

None, None

To provide Science, Technology, Engineering, and Math (STEM) outreach and education to secondary students to encourage them to select science and engineering as a career by providing an engineering-based problem-solving experience involving renewable energy systems such as photovoltaic (PV) panels or wind turbines. All public and private schools, community colleges, and vocational training programs would be eligible for participation. The Power Microgrids High School Engineering Experience used renewable energy systems (PV and wind) to provide a design capstone experience to secondary students. The objective for each student team was to design a microgrid for the student’s school using renewable energymore » sources under cost, schedule, performance, and risk constraints. The students then implemented their designs in a laboratory environment to evaluate the completeness of the proposed design, which is a unique experience even for undergraduate college students. This application-based program was marketed to secondary schools in the 28th Congressional District through the Texas Education Agency’s (TEA) Regional Service Centers. Upon application, TEES identified regionally available engineers to act as mentors and supervisors for the projects. Existing curriculum was modified to include microgrid and additional renewable technologies and was made available to the schools.« less

Project WISE: Building STEM-Focused Youth-Programs that Serve the Community

ERIC Educational Resources Information Center

DiLisi, Gregory A.; McMillin, Keith A.; Virostek, Margaret E.

2011-01-01

We describe the design and implementation of Project WISE, a multi-institutional partnership that assembles interdisciplinary teams of undergraduate and high school students charged with developing STEM-focused community youth-programs. Our goal is twofold: (i.) to promote young women's interest in STEM-oriented careers through an early, positive…

Family Matters: Familial Support and Science Identity Formation for African American Female STEM Majors

ERIC Educational Resources Information Center

Parker, Ashley Dawn

2013-01-01

This research seeks to understand the experiences of African American female undergraduates in STEM. It investigates how familial factors and science identity formation characteristics influence persistence in STEM while considering the duality of African American women's status in society. This phenomenological study was designed using critical…

Lenses for Framing Decisions: Undergraduates' Decision Making about Stem Cell Research

ERIC Educational Resources Information Center

Halverson, Kristy Lynn; Siegel, Marcelle A.; Freyermuth, Sharyn K.

2009-01-01

Decision making is influenced by multiple factors, especially when approaching controversial socio-scientific issues, such as stem cell research. In the present study, we used qualitative data from 132 college student papers in a biotechnology course to investigate how students made decisions about stem cell research issues. Students indicated…

Retaining Students in Science, Technology, Engineering, and Mathematics (STEM) Majors

ERIC Educational Resources Information Center

Watkins, Jessica; Mazur, Eric

2013-01-01

In this paper we present results relating undergraduate student retention in science, technology, engineering, and mathematics (STEM) majors to the use of Peer Instruction (PI) in an introductory physics course at a highly selective research institution. We compare the percentages of students who switch out of a STEM major after taking a physics…

Undergraduate STEM Achievement and Retention: Cognitive, Motivational, and Institutional Factors and Solutions

ERIC Educational Resources Information Center

Cromley, Jennifer G.; Perez, Tony; Kaplan, Avi

2016-01-01

Student cognition and motivation, as well as institutional policies, determine student course grades and retention in science, technology, engineering, and mathematics (STEM) majors. Regarding cognition, study skills relate to course grades, and grades relate to retention in STEM. Several aspects of motivation are related to both grades and…

The Role of Identity Development, Values, and Costs in College STEM Retention

ERIC Educational Resources Information Center

Perez, Tony; Cromley, Jennifer G.; Kaplan, Avi

2014-01-01

The current short-term longitudinal study investigated the role of college students' identity development and motivational beliefs in predicting their chemistry achievement and intentions to leave science, technology, engineering, and math (STEM) majors. We collected 4 waves of data over 1 semester from 363 diverse undergraduate STEM students…

The Troubled Success of Black Women in STEM

ERIC Educational Resources Information Center

McGee, Ebony O.; Bentley, Lydia

2017-01-01

We examine the experiences of 3 high-achieving Black undergraduate and graduate women in science, technology, engineering, and mathematics (STEM). Our findings reveal that structural racism, sexism, and race-gender bias were salient in the women's STEM settings. These experiences were sources of strain, which the women dealt with in ways that…

Moving beyond Frontiers: How Institutional Context Affects Degree Production and Student Aspirations in STEM

ERIC Educational Resources Information Center

Eagan, Mark Kevin, Jr.

2010-01-01

Colleges and universities in the U.S. face increasing pressure from policymakers and corporate leaders to increase their production of undergraduate degrees in science, technology, engineering, and mathematics (STEM). These pressures stem from a need to maintain the country's global economic competitiveness in science and engineering innovation.…

STEM Students' Social Agency and Views on Working for Social Change: Are STEM Disciplines Developing Socially and Civically Responsible Students?

ERIC Educational Resources Information Center

Garibay, Juan C.

2015-01-01

Utilizing a national sample of over 6,100 undergraduates, drawn from the Cooperative Institutional Research Program's (CIRP) Freshman Survey and College Senior Survey, this study investigates differences between STEM and non-STEM students at the end of college on the values they place on helping to create a more equitable society. Findings show…

Increasing persistence in undergraduate science majors: a model for institutional support of underrepresented students.

PubMed

Toven-Lindsey, Brit; Levis-Fitzgerald, Marc; Barber, Paul H; Hasson, Tama

2015-01-01

The 6-yr degree-completion rate of undergraduate science, technology, engineering, and mathematics (STEM) majors at U.S. colleges and universities is less than 40%. Persistence among women and underrepresented minorities (URMs), including African-American, Latino/a, Native American, and Pacific Islander students, is even more troubling, as these students leave STEM majors at significantly higher rates than their non-URM peers. This study utilizes a matched comparison group design to examine the academic achievement and persistence of students enrolled in the Program for Excellence in Education and Research in the Sciences (PEERS), an academic support program at the University of California, Los Angeles, for first- and second-year science majors from underrepresented backgrounds. Results indicate that PEERS students, on average, earned higher grades in most "gatekeeper" chemistry and math courses, had a higher cumulative grade point average, completed more science courses, and persisted in a science major at significantly higher rates than the comparison group. With its holistic approach focused on academics, counseling, creating a supportive community, and exposure to research, the PEERS program serves as an excellent model for universities interested in and committed to improving persistence of underrepresented science majors and closing the achievement gap. © 2015 B. Toven-Lindsey et al. CBE—Life Sciences Education © 2015 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Race and Gender Differences in Undergraduate Research Mentoring Structures and Research Outcomes

PubMed Central

Aikens, Melissa L.; Robertson, Melissa M.; Sadselia, Sona; Watkins, Keiana; Evans, Mara; Runyon, Christopher R.; Eby, Lillian T.; Dolan, Erin L.

2017-01-01

Participating in undergraduate research with mentorship from faculty may be particularly important for ensuring the persistence of women and minority students in science. Yet many life science undergraduates at research universities are mentored by graduate or postdoctoral researchers (i.e., postgraduates). We surveyed a national sample of undergraduate life science researchers about the mentoring structure of their research experiences and the outcomes they realized from participating in research. We observed two common mentoring structures: an open triad with undergraduate–postgraduate and postgraduate–faculty ties but no undergraduate–faculty tie, and a closed triad with ties among all three members. We found that men and underrepresented minority (URM) students are significantly more likely to report a direct tie to their faculty mentors (closed triad) than women, white, and Asian students. We also determined that mentoring structure was associated with differences in student outcomes. Women’s mentoring structures were associated with their lower scientific identity, lower intentions to pursue a science, technology, engineering, and mathematics (STEM) PhD, and lower scholarly productivity. URM students’ mentoring structures were associated with higher scientific identity, greater intentions to pursue a STEM PhD, and higher scholarly productivity. Asian students reported lower scientific identity and intentions to pursue a STEM PhD, which were unrelated to their mentoring structures. PMID:28550078

Life Science Professional Societies Expand Undergraduate Education Efforts

PubMed Central

Matyas, Marsha Lakes; Ruedi, Elizabeth A.; Engen, Katie; Chang, Amy L.

2017-01-01

The Vision and Change in Undergraduate Biology Education reports cite the critical role of professional societies in undergraduate life science education and, since 2008, have called for the increased involvement of professional societies in support of undergraduate education. Our study explored the level of support being provided by societies for undergraduate education and documented changes in support during the Vision and Change era. Society representatives responded to a survey on programs, awards, meetings, membership, teaching resources, publications, staffing, finances, evaluation, and collaborations that address undergraduate faculty and students. A longitudinal comparison group of societies responded to surveys in both 2008 and 2014. Results indicate that life science professional societies are extensively engaged in undergraduate education in their fields, setting standards for their discipline, providing vetted education resources, engaging students in both research and education, and enhancing professional development and recognition/status for educators. Societies are devoting funding and staff to these efforts and engaging volunteer leadership. Longitudinal comparison group responses indicate there have been significant and quantifiable expansions of undergraduate efforts in many areas since 2008. These indicators can serve as a baseline for defining, aligning, and measuring how professional societies can promote sustainable, evidence-based support of undergraduate education initiatives. PMID:28130272

WebGURU: The Web-Based Guide to Research for Undergraduates

ERIC Educational Resources Information Center

Mabrouk, Patricia; McIntyre, Ryan; Virrankoski, Milena; Jeliffe, Kirsten

2007-01-01

Undergraduate research (UR) is widely promoted by faculty, administrators, institutions of higher learning, government laboratories, private industry, professional associations, and funding agencies as an effective method of training college students pursuing careers in science, technology, engineering, and mathematics (STEM) disciplines at…

Strengthening STEM performance and persistence: Influence of undergraduate teaching assistants on entry-level STEM students

NASA Astrophysics Data System (ADS)

Philipp, Stephanie B.

Increasing retention of students in science, technology, engineering, or mathematics (STEM) programs of study is a priority for many colleges and universities. This study examines an undergraduate teaching assistant (UTA) program implemented in a general chemistry course for STEM majors to provide peer learning assistance to entrylevel students. This study measured the content knowledge growth of UTAs compared to traditional graduate teaching assistants (GTAs) over the semester, and described the development of peer learning assistance skills of the UTAs as an outcome of semesterlong training and support from both science education and STEM faculty. Impact of the UTA program on final exam grades, persistence of students to enroll in the next chemistry course required by their intended major, and STEM identity of students were estimated. The study sample comprised 284 students in 14 general chemistry recitation sections led by six UTAs and 310 students in 15 general chemistry recitation sections led by three traditional GTAs for comparison. Results suggested that both UTAs and GTAs made significant learning gains in general chemistry content knowledge, and there was no significant difference in content knowledge between UTA and GTA groups. Student evaluations, researcher observations, and chemistry faculty comments confirm UTAs were using the learning strategies discussed in the semester-long training program. UTA-led students rated their TAs significantly higher in teaching quality and student care and encouragement, which correlated with stronger STEM recognition by those students. The results of hierarchical linear model (HLM) analysis showed little variance in final exam grades explained by section-level variables; most variance was explained by student-level variables: mathematics ACT score, college GPA, and intention to enroll in the next general chemistry course. Students having higher college GPAs were helped more by having a UTA. Results from logistic regression of persistence outcome variable showed that students are three times more likely to persist to CHEM 202 if they had a UTA in CHEM 201. Other positive predictors of retention included having strong college grades, and having strong ACT math scores. Coupled with HLM analysis result that UTAs were more effective at helping students with higher college GPAs achieve higher grades, the stronger persistence of UTA-led students showed that the UTA program is an effective program for retention of introductory-level students in STEM majors.

Creating Interdisciplinary STEM Environments at the University of Nebraska at Omaha

NASA Astrophysics Data System (ADS)

Shuster, R. D.; Grandgenett, N. F.

2010-12-01

Effective, integrated and interdisciplinary STEM environments depend upon strong faculty collaboration. During the past decade, the University of Nebraska at Omaha (UNO) has put an emphasis on STEM faculty working together across departments, colleges, and the university system, as well as with local school systems. Supported by a University-wide Content and Pedagogy Committee and a new Office of STEM Education, faculty members have aggressively undertaken and evaluated various interdisciplinary STEM activities. This presentation will briefly describe three of these projects, including evaluation-related data and UNO support mechanisms. First, an interdisciplinary student research project has been developed involving our introductory geology and chemistry courses. The project includes collecting drinking water samples from around Omaha by geology students, the chemical analysis of drinking water by chemistry students, followed by water quality analysis of the chemical data by the geology students. Students learn about the scientific method, potential problems with project design, and limitations of interpretation of real data, while also applying knowledge learned in the class to this real world problem. This project reaches ~600 undergraduate students each year and requires close cooperation between faculty of the Chemistry and Geology programs. Evaluation data indicates that this project has had a positive impact on student attitude towards science in general and towards geology and chemistry in particular. The second project highlighted will be the Silicon Prairie Initiative for Robotics in Information Technology (SPIRIT). The SPIRIT project is a NSF funded collaboration between the UNO College of Education, the University of Nebraska at Lincoln College of Engineering, and local school systems. It strives to integrate the use of educational robotics and sensors in the teaching of STEM topics, particularly at the middle school and high school levels. The project has designed a flexible online curriculum that includes over 200 lessons with technical tutorials, assessments, and various resources. More than 250 teachers have been trained in extended workshops. Criterion-referenced test data of the students involved with these teachers have been encouraging. Further pilot test data also showed increases in positive STEM attitudes. The third project highlighted will be an interdisciplinary online Earth system science course for in-service teachers associated with the Earth System Science Education Alliance (ESSEA), which includes 42 universities across the U.S.. ESSEA instructional modules have been designed and shared by the participating institutions. UNO has been offering ESSEA coursework with participating faculty from Teacher Education (College of Education) and Geology (College of Arts & Sciences), writing ESSEA modules, and examining student feedback since 2004: involving more than 250 teachers, crossing a wide range of STEM-related teaching certifications. Project effectiveness has been examined by use of surveys, focus groups, and course products. By collaborating with colleagues across disciplines, colleges, and institutions, it is possible to have a positive impact on STEM education, through course offerings at UNO and through teacher professional development.

Learning from our global competitors: A comparative analysis of science, technology, engineering and mathematics (STEM) education pipelines in the United States, Mainland China and Taiwan

NASA Astrophysics Data System (ADS)

Chow, Christina M.

Maintaining a competitive edge within the 21st century is dependent on the cultivation of human capital, producing qualified and innovative employees capable of competing within the new global marketplace. Technological advancements in communications technology as well as large scale, infrastructure development has led to a leveled playing field where students in the U.S. will ultimately be competing for jobs with not only local, but also international, peers. Thus, the ability to understand and learn from our global competitors, starting with the examination of innovative education systems and best practice strategies, is tantamount to the economic development, and ultimate survival, of the U.S. as a whole. The purpose of this study was to investigate the current state of science, technology, engineering and mathematics (STEM) education and workforce pipelines in the U.S., China, and Taiwan. Two broad research questions examined STEM workforce production in terms of a) structural differences in primary and secondary school systems, including analysis of minimum high school graduation requirements and assessments as well as b) organizational differences in tertiary education and trends in STEM undergraduate and graduate degrees awarded in each region of interest. While each of the systems studied had their relative strengths and weaknesses, each of the Asian economies studied had valuable insights that can be categorized broadly in terms of STEM capacity, STEM interest and a greater understanding of global prospects that led to heightened STEM awareness. In China and Taiwan, STEM capacity was built via both traditional and vocational school systems. Focused and structured curriculum during the primary and early secondary school years built solid mathematics and science skills that translated into higher performance on international assessments and competitions. Differentiated secondary school options, including vocational high school and technical colleges and programs beginning shortly after junior high produced a greater number of alternatives for producing STEM capable students. A heightened interest in the STEM fields was built upon standardized academic core curriculum that ultimately yielded a greater percentage of qualified and interested Asian students pursuing bachelor's and advanced STEM degrees both in their native country and abroad. Rewards and incentives built into school systems, expansion of tertiary degree-granting programs, as well as the development of multiple university entrance pathways has served to heighten interest and perception of STEM careers as well as recruit top students into STEM fields. Further, foreign language classes, starting from either the first or third year of primary school, coupled with information technology and other experimental science and research themed classes, resulted in students who were more aware of global market demands. Analysis of longitudinal data shows that over a nine-year period, this combination of increased STEM capacity, interest and awareness resulted in a far greater percentage of 9th graders who eventually became STEM certificate, bachelor's, and advanced degree holders capable of competing in the global marketplace.

45 CFR 86.15 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-10-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally...

45 CFR 86.15 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-10-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally...

45 CFR 86.15 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-10-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally...

45 CFR 86.15 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-10-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally...

45 CFR 86.15 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-10-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally...

Getting the Most Out of Dual-Listed Courses: Involving Undergraduate Students in Discussion Through Active Learning Techniques

NASA Astrophysics Data System (ADS)

Tasich, C. M.; Duncan, L. L.; Duncan, B. R.; Burkhardt, B. L.; Benneyworth, L. M.

2015-12-01

Dual-listed courses will persist in higher education because of resource limitations. The pedagogical differences between undergraduate and graduate STEM student groups and the underlying distinction in intellectual development levels between the two student groups complicate the inclusion of undergraduates in these courses. Active learning techniques are a possible remedy to the hardships undergraduate students experience in graduate-level courses. Through an analysis of both undergraduate and graduate student experiences while enrolled in a dual-listed course, we implemented a variety of learning techniques used to complement the learning of both student groups and enhance deep discussion. Here, we provide details concerning the implementation of four active learning techniques - role play, game, debate, and small group - that were used to help undergraduate students critically discuss primary literature. Student perceptions were gauged through an anonymous, end-of-course evaluation that contained basic questions comparing the course to other courses at the university and other salient aspects of the course. These were given as a Likert scale on which students rated a variety of statements (1 = strongly disagree, 3 = no opinion, and 5 = strongly agree). Undergraduates found active learning techniques to be preferable to traditional techniques with small-group discussions being rated the highest in both enjoyment and enhanced learning. The graduate student discussion leaders also found active learning techniques to improve discussion. In hindsight, students of all cultures may be better able to take advantage of such approaches and to critically read and discuss primary literature when written assignments are used to guide their reading. Applications of active learning techniques can not only address the gap between differing levels of students, but also serve as a complement to student engagement in any science course design.

A Community Mentoring Model for STEM Undergraduate Research Experiences

ERIC Educational Resources Information Center

Kobulnicky, Henry A.; Dale, Daniel A.

2016-01-01

This article describes a community mentoring model for UREs that avoids some of the common pitfalls of the traditional paradigm while harnessing the power of learning communities to provide young scholars a stimulating collaborative STEM research experience.

6 CFR 17.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Sections 17.300 through 17.310 do not apply to any public institution of undergraduate higher education that traditionally...

6 CFR 17.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Sections 17.300 through 17.310 do not apply to any public institution of undergraduate higher education that traditionally...

6 CFR 17.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Sections 17.300 through 17.310 do not apply to any public institution of undergraduate higher education that traditionally...

6 CFR 17.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Sections 17.300 through 17.310 do not apply to any public institution of undergraduate higher education that traditionally...

6 CFR 17.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Sections 17.300 through 17.310 do not apply to any public institution of undergraduate higher education that traditionally...

The Nautilus Exploration Program: Utilizing Live Ocean Exploration as a Platform for STEM Education and Outreach

NASA Astrophysics Data System (ADS)

Fundis, A.; Cook, M.; Sutton, K.; Garson, S.; Poulton, S.; Munro, S.

2016-02-01

By sparking interest in scientific inquiry and engineering design at a young age through exposure to ocean exploration and innovative technologies, and building on that interest throughout students' educational careers, the Ocean Exploration Trust (OET) aims to motivate more students to be lifelong learners and pursue careers in STEM fields. Utilizing research conducted aboard Exploration Vessel Nautilus, the ship's associated technologies, and shore-based facilities at the University of Rhode Island — including the Graduate School of Oceanography and the Inner Space Center — we guide students to early career professionals through a series of educational programs focused on STEM disciplines and vocational skills. OET also raises public awareness of ocean exploration and research through a growing online presence, live streaming video, and interactions with the team aboard the ship 24 hours a day via the Nautilus Live website (www.nautiluslive.org). Annually, our outreach efforts bring research launched from Nautilus to tens of millions worldwide and allow the public, students, and scientists to participate in expeditions virtually from shore. We share the Nautilus Exploration Program's strategies, successes, and lessons learned for a variety of our education and outreach efforts including: 1) enabling global audiences access to live ocean exploration online and via social media; 2) engaging onshore audiences in live and interactive conversations with scientists and engineers on board; 3) engaging young K-12 learners in current oceanographic research via newly developed lessons and curricula; 4) onshore and offshore professional development opportunities for formal and informal educators; 5) programs and authentic research opportunities for high school, undergraduate, and graduate students onshore and aboard Nautilus; and 6) collaborative opportunities for early career and seasoned researchers to participate virtually in telepresence-enabled, interdisciplinary expeditions.

Improving Underrepresented Minority Student Persistence in STEM.

PubMed

Estrada, Mica; Burnett, Myra; Campbell, Andrew G; Campbell, Patricia B; Denetclaw, Wilfred F; Gutiérrez, Carlos G; Hurtado, Sylvia; John, Gilbert H; Matsui, John; McGee, Richard; Okpodu, Camellia Moses; Robinson, T Joan; Summers, Michael F; Werner-Washburne, Maggie; Zavala, MariaElena

2016-01-01

Members of the Joint Working Group on Improving Underrepresented Minorities (URMs) Persistence in Science, Technology, Engineering, and Mathematics (STEM)-convened by the National Institute of General Medical Sciences and the Howard Hughes Medical Institute-review current data and propose deliberation about why the academic "pathways" leak more for URM than white or Asian STEM students. They suggest expanding to include a stronger focus on the institutional barriers that need to be removed and the types of interventions that "lift" students' interests, commitment, and ability to persist in STEM fields. Using Kurt Lewin's planned approach to change, the committee describes five recommendations to increase URM persistence in STEM at the undergraduate level. These recommendations capitalize on known successes, recognize the need for accountability, and are framed to facilitate greater progress in the future. The impact of these recommendations rests upon enacting the first recommendation: to track successes and failures at the institutional level and collect data that help explain the existing trends. © 2016 M. Estrada et al. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Active learning increases student performance in science, engineering, and mathematics.

PubMed

Freeman, Scott; Eddy, Sarah L; McDonough, Miles; Smith, Michelle K; Okoroafor, Nnadozie; Jordt, Hannah; Wenderoth, Mary Pat

2014-06-10

To test the hypothesis that lecturing maximizes learning and course performance, we metaanalyzed 225 studies that reported data on examination scores or failure rates when comparing student performance in undergraduate science, technology, engineering, and mathematics (STEM) courses under traditional lecturing versus active learning. The effect sizes indicate that on average, student performance on examinations and concept inventories increased by 0.47 SDs under active learning (n = 158 studies), and that the odds ratio for failing was 1.95 under traditional lecturing (n = 67 studies). These results indicate that average examination scores improved by about 6% in active learning sections, and that students in classes with traditional lecturing were 1.5 times more likely to fail than were students in classes with active learning. Heterogeneity analyses indicated that both results hold across the STEM disciplines, that active learning increases scores on concept inventories more than on course examinations, and that active learning appears effective across all class sizes--although the greatest effects are in small (n ≤ 50) classes. Trim and fill analyses and fail-safe n calculations suggest that the results are not due to publication bias. The results also appear robust to variation in the methodological rigor of the included studies, based on the quality of controls over student quality and instructor identity. This is the largest and most comprehensive metaanalysis of undergraduate STEM education published to date. The results raise questions about the continued use of traditional lecturing as a control in research studies, and support active learning as the preferred, empirically validated teaching practice in regular classrooms.

Active learning increases student performance in science, engineering, and mathematics

PubMed Central

Freeman, Scott; Eddy, Sarah L.; McDonough, Miles; Smith, Michelle K.; Okoroafor, Nnadozie; Jordt, Hannah; Wenderoth, Mary Pat

2014-01-01

To test the hypothesis that lecturing maximizes learning and course performance, we metaanalyzed 225 studies that reported data on examination scores or failure rates when comparing student performance in undergraduate science, technology, engineering, and mathematics (STEM) courses under traditional lecturing versus active learning. The effect sizes indicate that on average, student performance on examinations and concept inventories increased by 0.47 SDs under active learning (n = 158 studies), and that the odds ratio for failing was 1.95 under traditional lecturing (n = 67 studies). These results indicate that average examination scores improved by about 6% in active learning sections, and that students in classes with traditional lecturing were 1.5 times more likely to fail than were students in classes with active learning. Heterogeneity analyses indicated that both results hold across the STEM disciplines, that active learning increases scores on concept inventories more than on course examinations, and that active learning appears effective across all class sizes—although the greatest effects are in small (n ≤ 50) classes. Trim and fill analyses and fail-safe n calculations suggest that the results are not due to publication bias. The results also appear robust to variation in the methodological rigor of the included studies, based on the quality of controls over student quality and instructor identity. This is the largest and most comprehensive metaanalysis of undergraduate STEM education published to date. The results raise questions about the continued use of traditional lecturing as a control in research studies, and support active learning as the preferred, empirically validated teaching practice in regular classrooms. PMID:24821756

Predicting Undergraduates' Persistence in Science, Technology, Engineering, and Math Fields

ERIC Educational Resources Information Center

Koch, Amanda Joy

2013-01-01

A national shortage of workers in Science, Technology, Engineering, and Math (STEM) occupations has led to efforts to identify why people leave these fields. Lower persistence rates in STEM for females than for males have also led to examinations of features that cause females to leave STEM fields. The current study examines individual- and…

Building an Academic Community: Minority Serving Institutions and How They Influence Students Pursuing Undergraduate Degrees in STEM

ERIC Educational Resources Information Center

Flower, Alonzo M., III.

2014-01-01

Scientific and technological innovation, according to a report by the National Academy of Sciences (2007), can only be secured with individuals' success in science, technology, engineering, and mathematics (STEM). Because STEM remains White and male-dominated, programs that focus on increasing the participation of female and minority students has…

Who Succeeds in STEM Studies? An Analysis of Binghamton University Undergraduate Students

ERIC Educational Resources Information Center

Kokkelenberg, Edward C.; Sinha, Esha

2010-01-01

Using student level data, the characteristics of STEM and Non-STEM students are examined for attributes associated with academic success. We use fixed effects models to analyze the variables' role in attaining graduation and college GPA and find preparation and ability, as evidenced by Advanced Placement course work, mathematical ability, gender,…

Living Learning Communities: An Intervention in Keeping Women Strong in Science, Technology, Engineering, and Mathematics

ERIC Educational Resources Information Center

Belichesky, Jennifer

2013-01-01

The purpose of this study was to expand on the current research pertaining to women in science, technology, engineering, and mathematics (STEM) majors, better understand the experiences of undergraduate women in the sciences, identify barriers to female persistence in their intended STEM majors, and understand the impact of the STEM co-educational…

The Classroom Observation Protocol for Undergraduate STEM (COPUS): A New Instrument to Characterize University STEM Classroom Practices

ERIC Educational Resources Information Center

Smith, Michelle K.; Jones, Francis H. M.; Gilbert, Sarah L.; Wieman, Carl E.

2013-01-01

Instructors and the teaching practices they employ play a critical role in improving student learning in college science, technology, engineering, and mathematics (STEM) courses. Consequently, there is increasing interest in collecting information on the range and frequency of teaching practices at department-wide and institution-wide scales. To…

The Effects of Doctoral Teaching Development on Early-Career STEM Scholars' College Teaching Self-efficacy.

PubMed

Connolly, Mark R; Lee, You-Geon; Savoy, Julia N

2018-01-01

To help prepare future faculty in science, technology, engineering, and mathematics (STEM) to teach undergraduates, more research universities are offering teaching development (TD) programs to doctoral students who aspire to academic careers. Using social cognitive career theory, we examine the effects of TD programs on early-career STEM scholars' sense of self-efficacy as postsecondary teachers. In 2011, a survey questionnaire was administered to 2156 people who in 2009 were doctoral students in STEM departments at three U.S. research universities; 1445 responded (67%). Regression analysis revealed positive relationships between TD participation and participants' college teaching self-efficacy and positive interaction effects for women. These findings may be used to improve the quality and quantity of TD offerings and help them gain wider acceptance. © 2018 M. R. Connolly et al. CBE—Life Sciences Education © 2018 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

22 CFR 146.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 146.300 through 146.310 do not apply to any public institution of undergraduate higher education that traditionally...

31 CFR 28.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 28.300 through 28.310 do not apply to any public institution of undergraduate higher education that...

43 CFR 41.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-10-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 41.300 through 41.310 do not apply to any public institution of undergraduate higher education that traditionally and...

31 CFR 28.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 28.300 through 28.310 do not apply to any public institution of undergraduate higher education that...

10 CFR 1042.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1042.300 through 1042.310 do not apply to any public institution of undergraduate higher education that traditionally...

22 CFR 229.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 229.300 through 229.310 do not apply to any public institution of undergraduate higher education that traditionally...

31 CFR 28.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 28.300 through 28.310 do not apply to any public institution of undergraduate higher education that...

40 CFR 5.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

... education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 5.300 through 5.310 do not apply to any public institution of undergraduate higher education that traditionally and...

22 CFR 229.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 229.300 through 229.310 do not apply to any public institution of undergraduate higher education that traditionally...

43 CFR 41.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-10-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 41.300 through 41.310 do not apply to any public institution of undergraduate higher education that traditionally and...

22 CFR 146.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 146.300 through 146.310 do not apply to any public institution of undergraduate higher education that traditionally...

31 CFR 28.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 28.300 through 28.310 do not apply to any public institution of undergraduate higher education that...

10 CFR 1042.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1042.300 through 1042.310 do not apply to any public institution of undergraduate higher education that traditionally...

43 CFR 41.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-10-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 41.300 through 41.310 do not apply to any public institution of undergraduate higher education that traditionally and...

28 CFR 54.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 54.300 through 54.310 do not apply to any public institution of undergraduate higher education that traditionally and...

40 CFR 5.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-07-01

... education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 5.300 through 5.310 do not apply to any public institution of undergraduate higher education that traditionally and...

24 CFR 3.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-04-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 3.300 through 3.310 do not apply to any public institution of undergraduate higher education that...

10 CFR 1042.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1042.300 through 1042.310 do not apply to any public institution of undergraduate higher education that traditionally...

22 CFR 229.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 229.300 through 229.310 do not apply to any public institution of undergraduate higher education that traditionally...

31 CFR 28.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-07-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 28.300 through 28.310 do not apply to any public institution of undergraduate higher education that...

24 CFR 3.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-04-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 3.300 through 3.310 do not apply to any public institution of undergraduate higher education that...

40 CFR 5.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 5.300 through 5.310 do not apply to any public institution of undergraduate higher education that traditionally and...

24 CFR 3.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-04-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 3.300 through 3.310 do not apply to any public institution of undergraduate higher education that...

43 CFR 41.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-10-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 41.300 through 41.310 do not apply to any public institution of undergraduate higher education that traditionally and...

22 CFR 229.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 229.300 through 229.310 do not apply to any public institution of undergraduate higher education that traditionally...

10 CFR 1042.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1042.300 through 1042.310 do not apply to any public institution of undergraduate higher education that traditionally...

24 CFR 3.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-04-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 3.300 through 3.310 do not apply to any public institution of undergraduate higher education that...

40 CFR 5.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 5.300 through 5.310 do not apply to any public institution of undergraduate higher education that traditionally and...

40 CFR 5.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 5.300 through 5.310 do not apply to any public institution of undergraduate higher education that traditionally and...

22 CFR 146.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 146.300 through 146.310 do not apply to any public institution of undergraduate higher education that traditionally...

10 CFR 1042.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1042.300 through 1042.310 do not apply to any public institution of undergraduate higher education that traditionally...

28 CFR 54.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 54.300 through 54.310 do not apply to any public institution of undergraduate higher education that traditionally and...

22 CFR 146.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 146.300 through 146.310 do not apply to any public institution of undergraduate higher education that traditionally...

22 CFR 229.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 229.300 through 229.310 do not apply to any public institution of undergraduate higher education that traditionally...

28 CFR 54.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 54.300 through 54.310 do not apply to any public institution of undergraduate higher education that traditionally and...

22 CFR 146.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-04-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 146.300 through 146.310 do not apply to any public institution of undergraduate higher education that traditionally...

28 CFR 54.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 54.300 through 54.310 do not apply to any public institution of undergraduate higher education that traditionally and...

24 CFR 3.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-04-01

... institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 3.300 through 3.310 do not apply to any public institution of undergraduate higher education that...

43 CFR 41.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-10-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 41.300 through 41.310 do not apply to any public institution of undergraduate higher education that traditionally and...

Undergraduate Chemistry Education: A Workshop Summary

ERIC Educational Resources Information Center

Sawyer, Keegan; Alper, Joe

2014-01-01

"Undergraduate Chemistry Education" is the summary of a workshop convened in May 2013 by the Chemical Science Roundtable of the National Research Council to explore the current state of undergraduate chemistry education. Research and innovation in undergraduate chemistry education has been done for many years, and one goal of this…

Life Science Professional Societies Expand Undergraduate Education Efforts

ERIC Educational Resources Information Center

Matyas, Marsha Lakes; Ruedi, Elizabeth A.; Engen, Katie; Chang, Amy L.

2017-01-01

The "Vision and Change in Undergraduate Biology Education" reports cite the critical role of professional societies in undergraduate life science education and, since 2008, have called for the increased involvement of professional societies in support of undergraduate education. Our study explored the level of support being provided by…

Understanding him in STEM: Sharing the stories of African American male scholars in engineering academic programs at a predominantly White university

NASA Astrophysics Data System (ADS)

Hayes, Robert E., III

Globalization of the world economy has confirmed the need for citizens to exemplify competitive capacities in science, technology, engineering, and mathematics fields. Since the 1970s, American higher education has seen increasing numbers of students entering college but has witnessed a decline in the number of students enrolling in STEM programs. African American men fall behind other students in regards to academic performance, persistence, and success throughout primary, secondary, and tertiary schooling. Accordingly, participation of African American men in STEM disciplines is low in comparison to White males and other race groups. Various factors have been identified as contributing to the academic failures of Black men. Poor academic and social preparedness, racial identity issues, institutional climates, negative stereotypes, and fear of success have been cited as potential contributors to the relative invisibility of African American men in STEM disciplines. This study explores the life stories of five African American male scholars in the college of engineering at a predominantly white university. The goal of the qualitative investigation is to help university faculty and administrators understand the institutional, interpersonal, and collective mechanisms influencing the success identities of African American male undergraduates in STEM academic programs. Understanding the lived experiences of this population may help universities innovate stronger supports for men of color in college and broaden the borders for all students interested in STEM careers.

Improving undergraduate medical education about pain assessment and management: A qualitative descriptive study of stakeholders’ perceptions

PubMed Central

Tellier, Pierre-Paul; Bélanger, Emmanuelle; Rodríguez, Charo; Ware, Mark A; Posel, Nancy

2013-01-01

BACKGROUND Pain is one of the most common reasons for individuals to seek medical advice, yet it remains poorly managed. One of the main reasons that poor pain management persists is the lack of adequate knowledge and skills of practicing clinicians, which stems from a perceived lack of pain education during the training of undergraduate medical students. OBJECTIVE: To identify gaps in knowledge with respect to pain management as perceived by students, patients and educators. METHODS: A qualitative descriptive study was conducted. Data were generated through six focus groups with second- and fourth-year medical students, four focus groups with patients and individual semistructured interviews with nine educators. All interviews were audiotaped and an inductive thematic analysis was performed. RESULTS: A total of 70 individuals participated in the present study. Five main themes were identified: assessment of physical and psychosocial aspects of pain; clinical management of pain with pharmacology and alternative therapies; communication and the development of a good therapeutic relationship; ethical considerations surrounding pain; and institutional context of medical education about pain. CONCLUSION: Participating patients, students and pain experts recognized a need for additional medical education about pain assessment and management. Educational approaches need to teach students to gather appropriate information about pain, to acquire knowledge of a broad spectrum of therapeutic options, to develop a mutual, trusting relationship with patients and to become aware of their own biases and prejudice toward patients with pain. The results of the present study should be used to develop and enhance existing pain curricula content. PMID:23985579

Preventing "Neurophobia": Remodeling Neurology Education for 21st-Century Medical Students through Effective Pedagogical Strategies for "Neurophilia".

PubMed

Shelley, Bhaskara P; Chacko, Thomas V; Nair, Balakrishnan R

2018-01-01

Neurology has a reputation, particularly as a complex "head-to-toe" discipline for undergraduate medical students. Neurophobia syndrome, a global phenomenon, fundamentally stems from pedagogical deficiencies during the undergraduate curriculum, the lack of vertical integration between basic neurosciences and clinical bedside neurology, the lack of clinical reasoning exercises, cognitive heuristics, and clinical problem-solving, errors in diagnostic competence, and hyposkilia. This ultimately results in poor clinical competence and proficiency in clinical neurology and causes attrition in nurturing a passion for learning the neurology discipline. This article explores plausible factors that contribute to the genesis of neurophobia and multifaceted strategies to nurture interest in neurosciences and provide possible solutions to demystify neurology education, especially the need for evidence-based educational interventions. Remodeling neurology education through effective pedagogical strategies and remedial measures, and using the Miller's pyramid, would provide a framework for assessing clinical competence in clinical bedside neurology. Technology-enhanced education and digital classrooms would undoubtedly stamp out neurophobia in medical students of the 21 st century. It will not frighten off another generation of nonneurologist physicians to empower them to hone expertise in order to tackle the increasing burden of neurological disorders in India. Furthermore, promoting neurophilia would facilitate the next generation of medical students in pursuing career options in neurology which would be quintessential not only in closing India's looming neurologist workforce gap but also in fostering interest in research imperatives in the next generation of medical students.

Preventing “Neurophobia”: Remodeling Neurology Education for 21st-Century Medical Students through Effective Pedagogical Strategies for “Neurophilia”

PubMed Central

Shelley, Bhaskara P.; Chacko, Thomas V.; Nair, Balakrishnan R.

2018-01-01

Neurology has a reputation, particularly as a complex “head-to-toe” discipline for undergraduate medical students. Neurophobia syndrome, a global phenomenon, fundamentally stems from pedagogical deficiencies during the undergraduate curriculum, the lack of vertical integration between basic neurosciences and clinical bedside neurology, the lack of clinical reasoning exercises, cognitive heuristics, and clinical problem-solving, errors in diagnostic competence, and hyposkilia. This ultimately results in poor clinical competence and proficiency in clinical neurology and causes attrition in nurturing a passion for learning the neurology discipline. This article explores plausible factors that contribute to the genesis of neurophobia and multifaceted strategies to nurture interest in neurosciences and provide possible solutions to demystify neurology education, especially the need for evidence-based educational interventions. Remodeling neurology education through effective pedagogical strategies and remedial measures, and using the Miller's pyramid, would provide a framework for assessing clinical competence in clinical bedside neurology. Technology-enhanced education and digital classrooms would undoubtedly stamp out neurophobia in medical students of the 21st century. It will not frighten off another generation of nonneurologist physicians to empower them to hone expertise in order to tackle the increasing burden of neurological disorders in India. Furthermore, promoting neurophilia would facilitate the next generation of medical students in pursuing career options in neurology which would be quintessential not only in closing India's looming neurologist workforce gap but also in fostering interest in research imperatives in the next generation of medical students. PMID:29720792

Contextual Factors Related to Stereotype Threat and Student Success in Science Technology Engineering Mathematics Education: A Mixed Methods Study

NASA Astrophysics Data System (ADS)

Leker, Lindsey Beth

Stereotype threat is a widely researched phenomenon shown to impact performance in testing and evaluation situations (Katz, Roberts, & Robinson, 1965; Steele & Aronson, 1995). When related to gender, stereotype threat can lead women to score lower than men on standardized math exams (Spencer, Steele, & Quinn, 1999). Stereotype threat may be one reason women have lower enrollment in most science, technology, engineering, and mathematics (STEM) majors, hold a smaller number of STEM careers than men, and have a higher attrition rate in STEM professions (Hill, Corbet, & Rose, 2010; Picho & Brown 2011; Sorby & Baartmans, 2000). Most research has investigated stereotype threat using experiments yielding mixed results (Stoet & Geary, 2012). Thus, there is a need to explore stereotype threat using quantitative surveys and qualitative methods to examine other contextual factors that contribute to gender difference in STEM fields. This dissertation outlined a mixed methods study designed to, first, qualitatively explore stereotype threat and contextual factors related to high achieving women in STEM fields, as well as women who have failed and/or avoided STEM fields. Then, the quantitative portion of the study used the themes from the qualitative phase to create a survey that measured stereotype threat and other contextual variables related to STEM success and failure/avoidance. Fifteen participants were interviewed for the qualitative phase of the study and six themes emerged. The quantitative survey was completed 242 undergraduate participants. T-tests, correlations, regressions, and mediation analyses were used to analyze the data. There were significant relationships between stereotype threat and STEM confidence, STEM anxiety, giving up in STEM, and STEM achievement. Overall, this mixed methods study advanced qualitative research on stereotype threat, developed a much-needed scale for the measurement of stereotype threat, and tested the developed scale.

Rationale and Initial Design for a Virtual Undergraduate Internship in Astronomy

NASA Astrophysics Data System (ADS)

Berryhill, Katie; Slater, T. F.; Slater, S. J.

2012-01-01

In recent decades, research experiences for undergraduates (REUs) programs have provided students with opportunities to spend a summer working on a research project with a faculty mentor. The aim of these programs has generally been to take up the challenge of the Boyer-2 report to introduce research-based learning into the undergraduate experience (Boyer 1998). Recent efforts have been aimed at encouraging women and underrepresented minorities to pursue STEM careers. With the advent of successful models for online degree programs that can add to the STEM workforce pipeline, there is now the possibility of expanding these research experiences to include the new diverse demographic of previously untapped online learners. Many online learners are working adults, and therefore do not have the same flexibility as traditional undergraduates to attend a summer REU at another institution, nor do they have the opportunity for internships at their home institution. This project is intended to leverage significant developments in rapidly emerging social media; investments in Internet-accessible telescopes for professional and amateur use; and contemporary advances in the learning sciences to build pathways through long-term, collaborative, astronomy research projects. The first stage involves developing initial research protocols and online mentoring infrastructures for establishing an ongoing national program for virtual astronomy internships for undergraduate STEM majors. Underlying this project is a plan for students to work collaboratively alongside active professional and amateur astronomers to conduct original research using remotely controlled and robotic telescopes. We anticipate that by the start of this project, more than 100 robotic and remotely controlled telescopes will exist around the world (mo-www.harvard.edu/OWN, aavso.org/aavsonet, and lcogt.net among others) providing continuous world-wide coverage. We plan to test and iteratively build a successful infrastructure for students to take advantage of these and other rapidly emerging resources and support an expansion of the STEM career workforce.

15 CFR 8a.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 8a.300 through 8a.310 do not apply to any public institution of undergraduate higher education that traditionally and...

15 CFR 8a.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 8a.300 through 8a.310 do not apply to any public institution of undergraduate higher education that traditionally and...

15 CFR 8a.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 8a.300 through 8a.310 do not apply to any public institution of undergraduate higher education that traditionally and...

15 CFR 8a.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 8a.300 through 8a.310 do not apply to any public institution of undergraduate higher education that traditionally and...

15 CFR 8a.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-01-01

... vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 8a.300 through 8a.310 do not apply to any public institution of undergraduate higher education that traditionally and...

Effects of a research-infused botanical curriculum on undergraduates' content knowledge, STEM competencies, and attitudes toward plant sciences.

PubMed

Ward, Jennifer Rhode; Clarke, H David; Horton, Jonathan L

2014-01-01

In response to the American Association for the Advancement of Science's Vision and Change in Undergraduate Biology Education initiative, we infused authentic, plant-based research into majors' courses at a public liberal arts university. Faculty members designed a financially sustainable pedagogical approach, utilizing vertically integrated curricular modules based on undergraduate researchers' field and laboratory projects. Our goals were to 1) teach botanical concepts, from cells to ecosystems; 2) strengthen competencies in statistical analysis and scientific writing; 3) pique plant science interest; and 4) allow all undergraduates to contribute to genuine research. Our series of inquiry-centered exercises mitigated potential faculty barriers to adopting research-rich curricula, facilitating teaching/research balance by gathering publishable scholarly data during laboratory class periods. Student competencies were assessed with pre- and postcourse quizzes and rubric-graded papers, and attitudes were evaluated with pre- and postcourse surveys. Our revised curriculum increased students' knowledge and awareness of plant science topics, improved scientific writing, enhanced statistical knowledge, and boosted interest in conducting research. More than 300 classroom students have participated in our program, and data generated from these modules' assessment allowed faculty and students to present 28 contributed talks or posters and publish three papers in 4 yr. Future steps include analyzing the effects of repeated module exposure on student learning and creating a regional consortium to increase our project's pedagogical impact. © 2014 J. R. Ward et al. CBE—Life Sciences Education © 2014 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Effects of the learning assistant experience on in-service teachers' practices

NASA Astrophysics Data System (ADS)

Gray, Kara E.; Webb, David C.; Otero, Valerie K.

2012-02-01

The Colorado Learning Assistant (LA) Program serves as a content-specific supplement to standard teacher preparation programs. In addition to transforming undergraduate STEM courses, it recruits and prepares math and science majors for teaching careers by involving university STEM faculty. The research reported here compares the teaching practices of in-service teachers who participated in the LA experience as undergraduates to a comparison group of teachers who did not participate in the LA program as undergraduates but were certified to teach through the same program. We report on teachers' views of assessments and differences in their teaching practices. This analysis is based on interviews with approximately 30 teachers and observations of their classrooms throughout their induction years of teaching. This work considers how the LA program may help improve current teacher preparation models.

A Theoretical Lens on a Biology Intensive Orientation Program: A Study of Self-Efficacy and Self-Regulation of Freshman Biology Majors

ERIC Educational Resources Information Center

Wheeler, Erin R.

2012-01-01

There is a national effort to increase the number of undergraduate students graduating in science, math, engineering, and technology (STEM) (National Science Foundation, 2007). The majority of students initially populating these STEM majors ultimately switch to and graduate from non-STEM majors (Seymour & Hewitt, 2000; Seymour, 2002). The…

Labour Market Motivation and Undergraduates' Choice of Degree Subject

ERIC Educational Resources Information Center

Davies, Peter; Mangan, Jean; Hughes, Amanda; Slack, Kim

2013-01-01

Labour market outcomes of undergraduates' choice of subject are important for public policy and for students. Policy interest is indicated by the prominence of "employability" in public discourse and in proposals to concentrate government funding in England in supporting STEM subjects (science, technology, engineering and mathematics).…

Undergraduate Research at Two-Year Community Colleges

ERIC Educational Resources Information Center

Schuster, Matthew

2018-01-01

There is a growing movement in academia that focuses on increased efforts at undergraduate research. Historically, this movement has been driven by faculty in the science, technology, engineering, and mathematics (STEM) fields and has only recently become a focus for social sciences in general and political science in particular. For students to…

Resident Graduate Charges at California's Public Universities. Factsheet 07-02

ERIC Educational Resources Information Center

California Postsecondary Education Commission, 2007

2007-01-01

California charges students enrolled in academic graduate degree programs more to attend the State's public universities than it charges undergraduate students. The rationale for this differential stems from two principle factors. First, providing graduate courses is generally more expensive than the cost of providing undergraduate courses.…

Resident Graduate Charges at California's Public Universities. Factsheet 05-02

ERIC Educational Resources Information Center

California Postsecondary Education Commission, 2005

2005-01-01

California charges students enrolled in academic graduate degree programs more to attend the State's public universities than it charges undergraduate students. The rationale for this differential stems from two principle factors. First, providing graduate courses is--on average--more expensive than the cost of providing undergraduate courses.…

77 FR 49832 - Notice of Intent To Seek Approval To Establish an Information Collection

Federal Register 2010, 2011, 2012, 2013, 2014

2012-08-17

... in basic and applied research in STEM. Consult With Other Agencies & the Public NSF has not consulted...). SUPPLEMENTARY INFORMATION: Title: Grantee Reporting Requirements for the Research Experiences for Undergraduates... Information Collection The Research Experiences for Undergraduates (REU) Reporting Module is a component of...

Approaching Undergraduate Research with Students Who Are Deaf and Hard-of-Hearing

ERIC Educational Resources Information Center

Gehret, Austin U.; Trussell, Jessica W.; Michel, Lea V.

2017-01-01

An undergraduate research experience can provide a unique opportunity for students to learn and grow as scientists; when positive, this experience is often transformative and motivates students to pursue science, technology, engineering and mathematics (STEM) graduate degrees or careers. Conversely, negative research experiences can sour a…

Investigation of the Factors That Influence Undergraduate Student Chemistry Course Selection

ERIC Educational Resources Information Center

Hinds, Elsa M.; Shultz, Ginger V.

2018-01-01

The introductory chemistry sequence is a common pathway for undergraduates pursuing science, technology, engineering, and math (STEM) and prehealth careers. Student's academic decision-making has far-reaching consequences for their trajectory, including persistence in the major and ultimate career choice. This phenomenon was studied using a survey…

49 CFR 25.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-10-01

..., professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 25.300 through 25.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its...

36 CFR 1211.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1211.300 through 1211.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

45 CFR 2555.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 2555.300 through 2555.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

36 CFR 1211.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1211.300 through 1211.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

38 CFR 23.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-07-01

... apply only to institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 23.300 through 23.310 do not apply to any public institution of undergraduate higher...

49 CFR 25.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-10-01

..., professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 25.300 through 25.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its...

38 CFR 23.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... apply only to institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 23.300 through 23.310 do not apply to any public institution of undergraduate higher...

49 CFR 25.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-10-01

..., professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 25.300 through 25.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its...

45 CFR 2555.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 2555.300 through 2555.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

38 CFR 23.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

... apply only to institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 23.300 through 23.310 do not apply to any public institution of undergraduate higher...

49 CFR 25.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-10-01

..., professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 25.300 through 25.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its...

36 CFR § 1211.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

..., professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1211.300 through 1211.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from...

45 CFR 2555.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 2555.300 through 2555.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

49 CFR 25.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-10-01

..., professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 25.300 through 25.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its...

38 CFR 23.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... apply only to institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 23.300 through 23.310 do not apply to any public institution of undergraduate higher...

36 CFR 1211.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1211.300 through 1211.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

45 CFR 2555.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 2555.300 through 2555.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

36 CFR 1211.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1211.300 through 1211.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

45 CFR 2555.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 2555.300 through 2555.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

38 CFR 23.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... apply only to institutions of vocational education, professional education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 23.300 through 23.310 do not apply to any public institution of undergraduate higher...

Teacher Knowledge for Active-Learning Instruction: Expert-Novice Comparison Reveals Differences.

PubMed

Auerbach, A J; Higgins, M; Brickman, P; Andrews, T C

2018-01-01

Active-learning strategies can improve science, technology, engineering, and mathematics (STEM) undergraduates' abilities to learn fundamental concepts and skills. However, the results instructors achieve vary substantially. One explanation for this is that instructors commonly implement active learning differently than intended. An important factor affecting how instructors implement active learning is knowledge of teaching and learning. We aimed to discover knowledge that is important to effective active learning in large undergraduate courses. We developed a lesson-analysis instrument to elicit teacher knowledge, drawing on the theoretical construct of teacher noticing. We compared the knowledge used by expert ( n = 14) and novice ( n = 29) active-learning instructors as they analyzed lessons. Experts and novices differed in what they noticed, with experts more commonly considering how instructors hold students accountable, topic-specific student difficulties, whether the instructor elicited and responded to student thinking, and opportunities students had to generate their own ideas and work. Experts were also better able to support their lesson analyses with reasoning. This work provides foundational knowledge for the future design of preparation and support for instructors adopting active learning. Improving teacher knowledge will improve the implementation of active learning, which will be necessary to widely realize the potential benefits of active learning in undergraduate STEM. © 2018 A. J. Auerbach et al. CBE—Life Sciences Education © 2018 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

A Comparison of Internal Dispositions and Career Trajectories after Collaborative versus Apprenticed Research Experiences for Undergraduates.

PubMed

Frantz, Kyle J; Demetrikopoulos, Melissa K; Britner, Shari L; Carruth, Laura L; Williams, Brian A; Pecore, John L; DeHaan, Robert L; Goode, Christopher T

2017-01-01

Undergraduate research experiences confer benefits on students bound for science, technology, engineering, and mathematics (STEM) careers, but the low number of research professionals available to serve as mentors often limits access to research. Within the context of our summer research program (BRAIN), we tested the hypothesis that a team-based collaborative learning model (CLM) produces student outcomes at least as positive as a traditional apprenticeship model (AM). Through stratified, random assignment to conditions, CLM students were designated to work together in a teaching laboratory to conduct research according to a defined curriculum led by several instructors, whereas AM students were paired with mentors in active research groups. We used pre-, mid-, and postprogram surveys to measure internal dispositions reported to predict progress toward STEM careers, such as scientific research self-efficacy, science identity, science anxiety, and commitment to a science career. We are also tracking long-term retention in science-related career paths. For both short- and longer-term outcomes, the two program formats produced similar benefits, supporting our hypothesis that the CLM provides positive outcomes while conserving resources, such as faculty mentors. We discuss this method in comparison with course-based undergraduate research and recommend its expansion to institutional settings in which mentor resources are scarce. © 2017 K. J. Frantz et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Principles and Practices Fostering Inclusive Excellence: Lessons from the Howard Hughes Medical Institute’s Capstone Institutions

PubMed Central

DiBartolo, Patricia Marten; Gregg-Jolly, Leslie; Gross, Deborah; Manduca, Cathryn A.; Iverson, Ellen; Cooke, David B.; Davis, Gregory K.; Davidson, Cameron; Hertz, Paul E.; Hibbard, Lisa; Ireland, Shubha K.; Mader, Catherine; Pai, Aditi; Raps, Shirley; Siwicki, Kathleen; Swartz, Jim E.

2016-01-01

Best-practices pedagogy in science, technology, engineering, and mathematics (STEM) aims for inclusive excellence that fosters student persistence. This paper describes principles of inclusivity across 11 primarily undergraduate institutions designated as Capstone Awardees in Howard Hughes Medical Institute’s (HHMI) 2012 competition. The Capstones represent a range of institutional missions, student profiles, and geographical locations. Each successfully directed activities toward persistence of STEM students, especially those from traditionally underrepresented groups, through a set of common elements: mentoring programs to build community; research experiences to strengthen scientific skill/identity; attention to quantitative skills; and outreach/bridge programs to broaden the student pool. This paper grounds these program elements in learning theory, emphasizing their essential principles with examples of how they were implemented within institutional contexts. We also describe common assessment approaches that in many cases informed programming and created traction for stakeholder buy-in. The lessons learned from our shared experiences in pursuit of inclusive excellence, including the resources housed on our companion website, can inform others’ efforts to increase access to and persistence in STEM in higher education. PMID:27562960

Enhancing Diversity in Undergraduate Science: Self-Efficacy Drives Performance Gains with Active Learning

PubMed Central

Ballen, Cissy J.; Wieman, Carl; Salehi, Shima; Searle, Jeremy B.; Zamudio, Kelly R.

2017-01-01

Efforts to retain underrepresented minority (URM) students in science, technology, engineering, and mathematics (STEM) have shown only limited success in higher education, due in part to a persistent achievement gap between students from historically underrepresented and well-represented backgrounds. To test the hypothesis that active learning disproportionately benefits URM students, we quantified the effects of traditional versus active learning on student academic performance, science self-efficacy, and sense of social belonging in a large (more than 250 students) introductory STEM course. A transition to active learning closed the gap in learning gains between non-URM and URM students and led to an increase in science self-efficacy for all students. Sense of social belonging also increased significantly with active learning, but only for non-URM students. Through structural equation modeling, we demonstrate that, for URM students, the increase in self-efficacy mediated the positive effect of active-learning pedagogy on two metrics of student performance. Our results add to a growing body of research that supports varied and inclusive teaching as one pathway to a diversified STEM workforce. PMID:29054921

Doctoral Programs Need Changes to Attract and Retain Underrepresented Groups

NASA Astrophysics Data System (ADS)

Bernard, R. E.; Mayfield, K. K.

2017-12-01

Geoscience is currently recognized as the least diverse of all STEM fields. While attention typically focuses on K-12 and undergraduate populations, the extreme lack of diversity among graduate students, and doctoral students in particular, should be examined and addressed. In 2016, members of underrepresented minority (URM) groups made up only 6% of those graduating with geoscience PhDs. In all STEM fields, only 48% of Hispanic/Latino and 38% of Black/African American doctoral studies had earned doctorates within 7 years, with 36% of members of these groups leaving the program entirely. Recent studies suggest that these high attrition rates can be attributed, in part, to a mismatch between motivations of URM members and PhD-granting institutions while students are pursuing scientific education and careers. Traditional STEM doctoral programs do not offer, facilitate, or incentivize substantial opportunities to integrate social justice issues, community involvement, and altruism—factors which have been found to be of more importance to these populations than to male members of well-represented groups. URM members are also less likely to be interested in purely academic research careers, so doctoral programs may be failing to attract (and failing to prepare) diverse populations by not offering experiences beyond typical research and TA duties. In this presentation, trends in motivation and persistence among URM students in STEM will be discussed, in addition to highlighting education and outreach activities that can be successfully incorporated for a more fulfilling, balanced, attractive, and preparatory education experience. Specific activities undertaken and recommended by the presenter in her PhD experience include the following: a federal research internship, a state government policy internship, a formal partnership with a local K-12 teacher though a former NSF GK-12 program, a two-week education workshop aboard a scientific research drillship, and attending a research conference geared towards URM students (SACNAS). Suggestions and recommendations will be made for meaningful changes at the institutional, funding agency, societal and community levels.

Urban Climate Change Resilience as a Teaching Tool for a STEM Summer Bridge Program

NASA Astrophysics Data System (ADS)

Rosenzweig, B.; Vorosmarty, C. J.; Socha, A.; Corsi, F.

2015-12-01

Community colleges have been identified as important gateways for the United States' scientific workforce development. However, students who begin their higher education at community colleges often face barriers to developing the skills needed for higher-level STEM careers, including basic training in mathematics, programming, analytical problem solving, and cross-disciplinary communication. As part of the Business Higher Education Forum's Undergraduate STEM Interventions in Industry (USI2) Consortium, we are developing a summer bridge program for students in STEM fields transferring from community college to senior (4-year) colleges at the City University of New York. Our scientific research on New York City climate change resilience will serve as the foundation for the bridge program curriculum. Students will be introduced to systems thinking and improve their analytical skills through guided problem-solving exercises using the New York City Climate Change Resilience Indicators Database currently being developed by the CUNY Environmental Crossroads Initiative. Students will also be supported in conducting an introductory, independent research project using the database. The interdisciplinary nature of climate change resilience assessment will allow students to explore topics related to their STEM field of interest (i.e. engineering, chemistry, and health science), while working collaboratively across disciplines with their peers. We hope that students that participate in the bridge program will continue with their research projects through their tenure at senior colleges, further enhancing their academic training, while actively contributing to the study of urban climate change resilience. The effectiveness of this approach will be independently evaluated by NORC at the University of Chicago, as well as through internal surveying and long-term tracking of participating student cohorts.

29 CFR 36.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 36.300 through 36.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

44 CFR 19.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 19.300 through 19.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

44 CFR 19.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 19.300 through 19.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

44 CFR 19.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 19.300 through 19.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

44 CFR 19.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 19.300 through 19.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

29 CFR 36.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 36.300 through 36.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

29 CFR 36.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 36.300 through 36.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

44 CFR 19.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-10-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 19.300 through 19.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

29 CFR 36.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 36.300 through 36.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

29 CFR 36.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... education, graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 36.300 through 36.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a...

Using Backward Design in Education Research: A Research Methods Essay †

PubMed Central

Jensen, Jamie L.; Bailey, Elizabeth G.; Kummer, Tyler A.; Weber, K. Scott

2017-01-01

Education research within the STEM disciplines applies a scholarly approach to teaching and learning, with the intent of better understanding how people learn and of improving pedagogy at the undergraduate level. Most of the professionals practicing in this field have ‘crossed over’ from other disciplinary fields and thus have faced challenges in becoming experts in a new discipline. In this article, we offer a novel framework for approaching education research design called Backward Design in Education Research. It is patterned on backward curricular design and provides a three-step, systematic approach to designing education projects: 1) Define a research question that leads to a testable causal hypothesis based on a theoretical rationale; 2) Choose or design the assessment instruments to test the research hypothesis; and 3) Develop an experimental protocol that will be effective in testing the research hypothesis. This approach provides a systematic method to develop and carry out evidence-based research design. PMID:29854045

Emergence, Learning Difficulties, and Misconceptions in Chemistry Undergraduate Students' Conceptualizations of Acid Strength

NASA Astrophysics Data System (ADS)

Tümay, Halil

2016-03-01

Philosophical debates about chemistry have clarified that the issue of emergence plays a critical role in the epistemology and ontology of chemistry. In this article, it is argued that the issue of emergence has also significant implications for understanding learning difficulties and finding ways of addressing them in chemistry. Particularly, it is argued that many misconceptions in chemistry may derive from students' failure to consider emergence in a systemic manner by taking into account all relevant factors in conjunction. Based on this argument, undergraduate students' conceptions of acids, and acid strength (an emergent chemical property) were investigated and it was examined whether or not they conceptualized acid strength as an emergent chemical property. The participants were 41 third- and fourth-year undergraduate students. A concept test and semi-structured interviews were used to probe students' conceptualizations and reasoning about acid strength. Findings of the study revealed that the majority of the undergraduate students did not conceptualize acid strength as an emergent property that arises from interactions among multiple factors. They generally focused on a single factor to predict and explain acid strength, and their faulty responses stemmed from their failure to recognize and consider all factors that affect acid strength. Based on these findings and insights from philosophy of chemistry, promoting system thinking and epistemologically sound argumentative discourses among students is suggested for meaningful chemical education.

Rethinking Teaching in STEM Education in a Community College: Role of Instructional Consultation and Digital Technologies

NASA Astrophysics Data System (ADS)

Kurland, Shelley Chih-Hsian

Community college faculty members educate almost half of all U.S. undergraduates, who are often more diverse and more academically underprepared when compared to undergraduate students who attend four-year institutions. In addition, faculty members in community colleges are facing increased accountability for meeting student learning outcomes, expectations to adjust their teaching practices to include active learning practices, and expectations to incorporate more technologies into the classroom. Faculty developers are one of the support structures that faculty members can look to in order to meet those challenges. A survey of literature in faculty development suggests that instructional consultation can play an important role in shaping and transforming teaching practices. Hence, this action research study examined my work using instructional consulting with four full-time STEM faculty colleagues in order to examine and shape their teaching practices with and without the use of digital technologies. The two foci of the research, examining shifts in faculty participants' teaching practices, and my instructional consulting practices, were informed by Thomas and Brown's (2011) social view of learning and the concept of teaching and learning in a "co-learning" environment. Two dominant factors emerged regarding faculty participants' shift in teaching practices. These factors concerned: 1) the perception of control and 2) individual faculty participant's comfort level, expectations, and readiness. In addition to these two dominant factors, the instructional consultation process also supported a range of shifts in either mindset and/or teaching practices. My analysis showed that the use of digital technologies was not an essential factor in shifting faculty participant mindset and/or teaching practices, instead digital technologies were used to enhance the teaching process and students' learning experiences.

Post-vision and change: do we know how to change?

PubMed

D'Avanzo, Charlene

2013-01-01

The scale and importance of Vision and Change in Undergraduate Biology Education: A Call to Action challenges us to ask fundamental questions about widespread transformation of college biology instruction. I propose that we have clarified the "vision" but lack research-based models and evidence needed to guide the "change." To support this claim, I focus on several key topics, including evidence about effective use of active-teaching pedagogy by typical faculty and whether certain programs improve students' understanding of the Vision and Change core concepts. Program evaluation is especially problematic. While current education research and theory should inform evaluation, several prominent biology faculty-development programs continue to rely on self-reporting by faculty and students. Science, technology, engineering, and mathematics (STEM) faculty-development overviews can guide program design. Such studies highlight viewing faculty members as collaborators, embedding rewards faculty value, and characteristics of effective faculty-development learning communities. A recent National Research Council report on discipline-based STEM education research emphasizes the need for long-term faculty development and deep conceptual change in teaching and learning as the basis for genuine transformation of college instruction. Despite the progress evident in Vision and Change, forward momentum will likely be limited, because we lack evidence-based, reliable models for actually realizing the desired "change."

Post–Vision and Change: Do We Know How to Change?

PubMed Central

D’Avanzo, Charlene

2013-01-01

The scale and importance of Vision and Change in Undergraduate Biology Education: A Call to Action challenges us to ask fundamental questions about widespread transformation of college biology instruction. I propose that we have clarified the “vision” but lack research-based models and evidence needed to guide the “change.” To support this claim, I focus on several key topics, including evidence about effective use of active-teaching pedagogy by typical faculty and whether certain programs improve students’ understanding of the Vision and Change core concepts. Program evaluation is especially problematic. While current education research and theory should inform evaluation, several prominent biology faculty–development programs continue to rely on self-reporting by faculty and students. Science, technology, engineering, and mathematics (STEM) faculty-development overviews can guide program design. Such studies highlight viewing faculty members as collaborators, embedding rewards faculty value, and characteristics of effective faculty-development learning communities. A recent National Research Council report on discipline-based STEM education research emphasizes the need for long-term faculty development and deep conceptual change in teaching and learning as the basis for genuine transformation of college instruction. Despite the progress evident in Vision and Change, forward momentum will likely be limited, because we lack evidence-based, reliable models for actually realizing the desired “change.” PMID:24006386

Evolution of Physical Education Undergraduate Majors in Higher Education in China

ERIC Educational Resources Information Center

Jiahong, Wang; Xiang, Ping; Dazhi, Zhang; Liu, Weidong; Gao, Xiaofeng

2017-01-01

Physical education (PE) undergraduate programs in higher education in China have evolved over the last 100 years. As a result, a comprehensive system of physical education undergraduate majors in higher education has been established in today's colleges/universities in China. The large number of students who have completed a physical education…

The Transformative Impact of Undergraduate Research Mentoring on Students and the Role of the Council on Undergraduate Research (CUR) in Supporting Faculty Mentors

NASA Astrophysics Data System (ADS)

Fox, L. K.; Singer, J.

2015-12-01

Undergraduate Research (UR) is broadly accepted as a high impact educational practice. Student participation in UR contributes to measurable gains in content knowledge and skills/methodology, oral and written communication skills, problem solving and critical thinking, self-confidence, autonomy, among others. First-generation college students and students from underrepresented minorities that participate in UR are more likely to remain in STEM majors, persist to graduation, and pursue graduate degrees. While engagement in the research process contributes to these outcomes, the impact of the interaction with the faculty mentor is critical. A number of studies provide evidence that it is the relationship that forms with the faculty mentor that is most valued by students and strongly contributes to their career development. Faculty mentors play an important role in student development and the relationship between mentor and student evolves from teacher to coach to colleague. Effective mentoring is not an inherent skill and is generally not taught in graduate school and generally differs from mentoring of graduate students. Each UR mentoring relationship is unique and there are many effective mentoring models and practices documented in the literature. The Council on Undergraduate Research (CUR) has a long history of supporting faculty who engage in research with undergraduates and offers resources for establishing UR programs at individual, departmental, and institutional levels. The Geosciences Division of CUR leads faculty development workshops at professional meetings and provides extensive resources to support geosciences faculty as UR mentors (http://serc.carleton.edu/NAGTWorkshops/undergraduate_research/index.html). Examples of effective mentoring strategies are highlighted, including a model developed by SUNY- Buffalo State that integrates mentoring directly into the evaluation of UR.

18 CFR 1317.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-04-01

..., graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1317.300 through 1317.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

7 CFR 15a.16 - Admission.

Code of Federal Regulations, 2011 CFR

2011-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

18 CFR 1317.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-04-01

..., graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1317.300 through 1317.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

7 CFR 15a.16 - Admission.

Code of Federal Regulations, 2014 CFR

2014-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

7 CFR 15a.16 - Admission.

Code of Federal Regulations, 2012 CFR

2012-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

34 CFR 106.15 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

34 CFR 106.15 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

18 CFR 1317.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-04-01

..., graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1317.300 through 1317.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

34 CFR 106.15 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

34 CFR 106.15 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

18 CFR 1317.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-04-01

..., graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1317.300 through 1317.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

18 CFR 1317.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-04-01

..., graduate higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 1317.300 through 1317.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has...

34 CFR 106.15 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

7 CFR 15a.16 - Admission.

Code of Federal Regulations, 2013 CFR

2013-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. Subpart C does not apply to any public institution of undergraduate higher education which traditionally and continually from its establishment has had a policy of admitting only...

The Impact of Undergraduate Debt on the Graduate School Enrollment of STEM Baccalaureates

ERIC Educational Resources Information Center

Malcom, Lindsey E.; Dowd, Alicia C.

2012-01-01

While student loans provide college opportunity for many, undergraduate student debt resulting from typical and heavy borrowing hinders future investments in human capital. Propensity score matching analysis of the NSF's 2003 National Survey of Recent College Graduates demonstrates that debt negatively affects the graduate school enrollment of…

Undergraduate Research Experiences: Mentoring, Awareness, and Perceptions--A Case Study at a Hispanic-Serving Institution

ERIC Educational Resources Information Center

Rodríguez Amaya, Laura; Betancourt, Tania; Collins, Kristina Henry; Hinojosa, Orlando; Corona, Carlos

2018-01-01

Background: Undergraduate research experiences (UREs) have been proposed as means to increase the retention and engagement of minority--and more specifically Hispanic--college students in science, technology, engineering, and mathematics (STEM) majors. This study explores the impact of student characteristics such as gender, classification,…

Increasing Persistence in Undergraduate Science Majors: A Model for Institutional Support of Underrepresented Students

ERIC Educational Resources Information Center

Toven-Lindsey, Brit; Levis-Fitzgerald, Marc; Barber, Paul H.; Hasson, Tama

2015-01-01

The 6-yr degree-completion rate of undergraduate science, technology, engineering, and mathematics (STEM) majors at U.S. colleges and universities is less than 40%. Persistence among women and underrepresented minorities (URMs), including African-American, Latino/a, Native American, and Pacific Islander students, is even more troubling, as these…

Changing the Scholarly Sources Landscape with Geomorphology Undergraduate Students

ERIC Educational Resources Information Center

Blackburn, Heidi; Dere, Ashlee

2016-01-01

Science is a core discipline in academia yet the focus of most undergraduate technical writing is generally on the data and results, not the literature review. The Science, Technology, Engineering, and Math (STEM) librarian and a new geology professor at the University of Nebraska at Omaha (UNO) collaborated to develop an information literacy…

Life Science Professional Societies Expand Undergraduate Education Efforts.

PubMed

Matyas, Marsha Lakes; Ruedi, Elizabeth A; Engen, Katie; Chang, Amy L

2017-01-01

The Vision and Change in Undergraduate Biology Education reports cite the critical role of professional societies in undergraduate life science education and, since 2008, have called for the increased involvement of professional societies in support of undergraduate education. Our study explored the level of support being provided by societies for undergraduate education and documented changes in support during the Vision and Change era. Society representatives responded to a survey on programs, awards, meetings, membership, teaching resources, publications, staffing, finances, evaluation, and collaborations that address undergraduate faculty and students. A longitudinal comparison group of societies responded to surveys in both 2008 and 2014. Results indicate that life science professional societies are extensively engaged in undergraduate education in their fields, setting standards for their discipline, providing vetted education resources, engaging students in both research and education, and enhancing professional development and recognition/status for educators. Societies are devoting funding and staff to these efforts and engaging volunteer leadership. Longitudinal comparison group responses indicate there have been significant and quantifiable expansions of undergraduate efforts in many areas since 2008. These indicators can serve as a baseline for defining, aligning, and measuring how professional societies can promote sustainable, evidence-based support of undergraduate education initiatives. © 2017 M. L. Matyas et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Catalyzing Institutional Transformation: Insights from the AAU STEM Initiative

ERIC Educational Resources Information Center

Miller, Emily R.; Fairweather, James S.; Slakey, Linda; Smith, Tobin; King, Tara

2017-01-01

In 2011, the Association of American Universities (AAU) embarked on an ambitious effort to improve the instructional quality and effectiveness of undergraduate introductory Science, Technology, Engineering, and Mathematics (STEM) courses. The primary focus was on sustainable implementation of evidence-based methods of instruction in courses that…

Transforming Spatial Reasoning Skills in the Upper-Level Undergraduate Geoscience Classroom Through Curricular Materials Informed by Cognitive Science Research

NASA Astrophysics Data System (ADS)

Ormand, C. J.; Shipley, T. F.; Dutrow, B. L.; Goodwin, L. B.; Hickson, T. A.; Tikoff, B.; Atit, K.; Gagnier, K. M.; Resnick, I.

2014-12-01

Spatial visualization is an essential skill in the STEM disciplines, including the geosciences. Undergraduate students, including geoscience majors in upper-level courses, bring a wide range of spatial skill levels to the classroom. Students with weak spatial skills may be unable to understand fundamental concepts and to solve geological problems with a spatial component. However, spatial thinking skills are malleable. As a group of geoscience faculty members and cognitive psychologists, we have developed a set of curricular materials for Mineralogy, Sedimentology & Stratigraphy, and Structural Geology courses. These materials are designed to improve students' spatial skills, and in particular to improve students' abilities to reason about spatially complex 3D geological concepts and problems. Teaching spatial thinking in the context of discipline-based exercises has the potential to transform undergraduate STEM education by removing one significant barrier to success in the STEM disciplines. The curricular materials we have developed are based on several promising teaching strategies that have emerged from cognitive science research on spatial thinking. These strategies include predictive sketching, making visual comparisons, gesturing, and the use of analogy. We have conducted a three-year study of the efficacy of these materials in strengthening the spatial skills of students in upper-level geoscience courses at three universities. Our methodology relies on a pre- and post-test study design, with several tests of spatial thinking skills administered at the beginning and end of each semester. In 2011-2012, we used a "business as usual" approach to gather baseline data, measuring how much students' spatial thinking skills improved in response to the existing curricula. In the two subsequent years we have incorporated our new curricular materials, which can be found on the project website: http://serc.carleton.edu/spatialworkbook/activities.html Structural Geology students exposed to the new curricular materials are better able to solve some spatially challenging structural geological problems than students from the baseline year. We are continuing to analyze data from the Mineralogy and Sedimentology/Stratigraphy courses and will have completed the analysis by AGU.

Advancing Earth System Science Literacy and Preparing the Future Geoscience Workforce Through Strategic Investments at the National Science Foundation (Invited)

NASA Astrophysics Data System (ADS)

Karsten, J. L.; Patino, L. C.; Rom, E. L.; Weiler, C. S.

2010-12-01

The National Science Foundation (NSF) is an independent federal agency created 60 years ago by the U.S. Congress "to promote the progress of science; to advance the national health, prosperity, and welfare; to secure the national defense…" NSF is the primary funding agency in the U.S. to support basic, frontier research across all fields in science, engineering, and education, except for medical sciences. With a FY 2011 budget request of more than $955 million, the NSF Directorate for Geosciences (GEO) is the principle source of federal funding for university-based fundamental research in the geosciences and preparation of the next generation of geoscientists. Since its inception, GEO has supported the education and training of a diverse and talented pool of future scientists, engineers, and technicians in the Earth, Ocean, Atmospheric and Geospatial Sciences sub-fields, through support of graduate research assistants, post-doctoral fellows, and undergraduate research experiences. In the late 1990’s and early 2000’s, GEO initiated several programs that expanded these investments to also support improvements in pre-college and undergraduate geoscience education through a variety of mechanisms (e.g., professional development support for K-12 teachers, development of innovative undergraduate curricula, and scientist-mentored research experiences for elementary and secondary students). In addition to GEO’s Geoscience Education (GeoEd), Opportunities for Enhancing Diversity in the Geosciences (OEDG), Global Learning and Observations to Benefit the Environment (GLOBE), and Geoscience Teacher Training (GEO-Teach) programs, GEO participates in a number of cross-Foundation programs, including the Research Experiences for Undergraduates (REU), Integrative Graduate Education and Research Traineeship (IGERT), Ethics Education in Science and Engineering (EESE), NSF Graduate STEM Fellows in K-12 Education (GK-12), and Partnerships for International Research and Education (PIRE) programs, and the new Climate Change Education Partnership (CCEP) program. Many broader impact activities associated with individual research grants supported by GEO contribute to the mix, through integration of research and education. Improving access to high quality geoscience education, developing educational resources and pedagogies that reflect current understandings based on cognitive research on how people learn science in formal and informal settings, cultivating a diverse talent pool for the future, and developing robust mechanisms to evaluate the quality of these various approaches and tools are challenges faced by the entire geosciences research and education community, not just NSF/GEO. In the past two years, GEO has worked collaboratively with the Education and Human Resources (EHR) Directorate, and sister agencies NOAA and NASA, to establish a new GEO Education and Diversity Strategic Framework, that will guide our investments in the future, and identify opportunities for a more cohesive, collaborative, and synergistic approach across NSF and the federal government. Details of this new strategic framework, results of recent program evaluations, and their implications for future NSF/GEO education program funding will be discussed.

32 CFR 196.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 196.300 through 196.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

13 CFR 113.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 113.300 through 113.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

32 CFR 196.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 196.300 through 196.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

32 CFR 196.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 196.300 through 196.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

13 CFR 113.220 - Admissions.

Code of Federal Regulations, 2014 CFR

2014-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 113.300 through 113.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

32 CFR 196.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 196.300 through 196.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

13 CFR 113.220 - Admissions.

Code of Federal Regulations, 2012 CFR

2012-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 113.300 through 113.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

13 CFR 113.220 - Admissions.

Code of Federal Regulations, 2010 CFR

2010-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 113.300 through 113.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

13 CFR 113.220 - Admissions.

Code of Federal Regulations, 2013 CFR

2013-01-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 113.300 through 113.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

32 CFR 196.220 - Admissions.

Code of Federal Regulations, 2011 CFR

2011-07-01

... higher education, and public institutions of undergraduate higher education. (e) Public institutions of undergraduate higher education. §§ 196.300 through 196.310 do not apply to any public institution of undergraduate higher education that traditionally and continually from its establishment has had a policy of...

DoD Educational Intervention Programs for Scientists and Engineers.

DTIC Science & Technology

1995-10-01

Nabeel , ed. The Condition of Education: 1993. Washington, D.C.: U.S.Department of Education, National Center for Education Statistics (NCES 93-290), p...Naval Facilities I Undergraduate Academic Program Undergraduate Navy Naval Ocean Sy Cooperative Education Program (COOP) Undergraduate Navy Naval... Nabeel , ed. The Condition of Education: 1993. Washington, D.C.: U.S. Department of Education, National Center for Education Statistics (NCES 93-290