Community Colleges in the Evolving STEM Education Landscape


Book Description

The National Research Council (NRC) and National Academy of Engineering (NAE) have released a new report, Community Colleges in the Evolving STEM Education Landscape: Summary of a Summit. Based on a national summit that was supported by the National Science Foundation and organized by the NRC and the NAE, the report highlights the importance of community colleges, especially in emerging areas of STEM (Sciene, Technology, Engineering, and Mathematics) and preparation of the STEM workforce. Community colleges are also essential in accommodating growing numbers of students and in retraining displaced workers in skills needed in the new economy. Community Colleges in the Evolving STEM Education Landscape: Summary of a Summit looks at the changing and evolving relationships between community colleges and four-year institutions, with a focus on partnerships and articulation processes that can facilitate student success in STEM; expanding participation of students from historically underrepresented populations in undergraduate STEM education; and how subjects, such as mathematics, can serve as gateways or barriers to college completion.




Community Colleges and STEM


Book Description

As United States policymakers and national leaders are increasing their attention to producing workers skilled in science, technology, engineering, and mathematics (STEM), community colleges are being called on to address persistence of minorities in these disciplines. In this important volume, contributors discuss the role of community colleges in facilitating access and success to racial and ethnic minority students in STEM. Chapters explore how community colleges can and do facilitate the STEM pipeline, as well as the experiences of these students in community college, including how psychological factors, developmental coursework, expertiential learning, and motivation affect student success. Community Colleges and STEM ultimately provides recommendations to help increase retention and persistence. This important book is a crucial resource for higher education institutions and community colleges as they work to advance success among racial and ethnic minorities in STEM education.




Preparing a STEM Workforce through Career-Technical Education


Book Description

This volume examines STEM education, preparation, and career exploration--and the role of career and technical education (CTE) in preparing individuals for the STEM workforce. Highlighting avenues for success and exemplary practices, the volume covers topics such as: 1) Incorporating experiential learning activities for students in CTE-STEM programs, 2) Providing avenues and effective strategies for closing the skills gap for students in CTE-STEM through funding and evaluation and assessment activities, 3) Highlighting the experiences of women in CTE-STEM related programs, and 4) Implications for policy and practice. This is the 178th volume of this Jossey-Bass quarterly report series. Essential to the professional libraries of presidents, vice presidents, deans, and other leaders in today's open-door institutions, New Directions for Community Colleges provides expert guidance in meeting the challenges of their distinctive and expanding educational mission.




Girls and Women of Color In STEM


Book Description

The 11 chapters in this book provide a glimpse into the journeys that women from diverse backgrounds and ethnic differences take in their higher education undergraduate or graduate careers. The diverse women include ethnicities of Arabic, Asian, African-American, American Indian, and Latina.




The STEM Pathway and Student Retention


Book Description

This work introduces methods that aid in freshman retention (in the transition from high school and to remain in the university of origin) and orient them towards a successful career in science. Specific examples of successful approaches are given as well as detailed plans for how to engage these students. Pitfalls as well as success are described. In addition this work provides a detailed description of how to develop the students into a cohort that exhibits comradery. Three types of cohort form, those within the freshman class, those among the upperclassmen and those between the freshmen and upperclassmen. The program works because the social reality is that the peer mentor has a better repertoire with the first semester freshmen than the faculty or staff and assists with student success. Factors such as financial aid, policy, and support systems influence student success. In the sciences, students often struggle with the content and adjusting to the college experience. Research states that a mentorship program supports retention as well as enhances the student experience during college. This program creates a cohort group among the upperclassmen mentors and freshmen and provides leadership development for all involved.




STEM Models of Success


Book Description

As the U.S. focuses on positioning itself to retain and advance its status as a world leader in technology and scientific innovation, a recognition that community colleges are a critical site for intervention has become apparent. Community colleges serve the lion’s share of the nation’s postsecondary students. In fact, 40% of all undergraduate students are enrolled in community colleges, these students account for nearly 30% of all STEM undergraduate majors in postsecondary institutions. These students serve as a core element of the STEM pipeline into four-year colleges and universities via the community college transfer function. Moreover, community colleges are the primary postsecondary access point for non-traditional students, including students of color, first-generation, low-income, and adult students. This is a particularly salient point given that these populations are sordidly underrepresented among STEM graduates and in the STEM workforce. Increasing success among these populations can contribute significantly to advancing the nation’s interests in STEM. As such, the community college is situated as an important site for innovative practices that have strong implications for bolstering the nation’s production and sustenance of a STEM labor force. In recognition of this role, the National Science Foundation and private funding agencies have invested millions of dollars into research and programs designed to bolster the STEM pipeline. From this funding and other independently sponsored inquiry, promising programs, initiatives, and research recommendations have been identified. These efforts hold great promise for change, with the potential to transform the education and outcome of STEM students at all levels. This important book discusses many of these promising programs, initiatives, and research-based recommendations that can impact the success of STEM students in the community college. This compilation is timely, on the national landscape, as the federal government has placed increasing importance on improving STEM degree production as a strategy for America’s future stability in an increasingly competitive global marketplace. Informed by research and theory, each chapter in this volume blazes new territory in articulating how community colleges can advance outcomes for students in STEM, particularly those from historically underrepresented and underserved communities.




Indicators for Monitoring Undergraduate STEM Education


Book Description

Science, technology, engineering and mathematics (STEM) professionals generate a stream of scientific discoveries and technological innovations that fuel job creation and national economic growth. Ensuring a robust supply of these professionals is critical for sustaining growth and creating jobs growth at a time of intense global competition. Undergraduate STEM education prepares the STEM professionals of today and those of tomorrow, while also helping all students develop knowledge and skills they can draw on in a variety of occupations and as individual citizens. However, many capable students intending to major in STEM later switch to another field or drop out of higher education altogether, partly because of documented weaknesses in STEM teaching, learning and student supports. Improving undergraduate STEM education to address these weaknesses is a national imperative. Many initiatives are now underway to improve the quality of undergraduate STEM teaching and learning. Some focus on the national level, others involve multi-institution collaborations, and others take place on individual campuses. At present, however, policymakers and the public do not know whether these various initiatives are accomplishing their goals and leading to nationwide improvement in undergraduate STEM education. Indicators for Monitoring Undergraduate STEM Education outlines a framework and a set of indicators that document the status and quality of undergraduate STEM education at the national level over multiple years. It also indicates areas where additional research is needed in order to develop appropriate measures. This publication will be valuable to government agencies that make investments in higher education, institutions of higher education, private funders of higher education programs, and industry stakeholders. It will also be of interest to researchers who study higher education.




Changing the Face of Engineering


Book Description

How can academic institutions, corporations, and policymakers foster African American participation and advancement in engineering? For much of America’s history, African Americans were discouraged or aggressively prevented from becoming scientists and engineers. Those who did enter STEM fields found that their inventions and discoveries were often neither recognized nor valued. Even today, particularly in the field of engineering, the participation of African American men and women is shockingly low, and some evidence indicates that the situation might be getting worse. In Changing the Face of Engineering, twenty-four eminent scholars address the underrepresentation of African Americans in engineering from a wide variety of disciplinary and professional perspectives while proposing workable classroom solutions and public policy initiatives. They combine robust statistical analyses with personal narratives of African American engineers and STEM instructors who, by taking evidenced-based approaches, have found success in graduating African American engineers. Changing the Face of Engineering argues that the continued underrepresentation of African Americans in engineering impairs the ability of the United States to compete successfully in the global marketplace. This volume will be of interest to STEM scholars and students, as well as policymakers, corporations, and higher education institutions.




On My Own


Book Description

2020 ASHE Council for the Advancement of Higher Education Programs (CAHEP) Barbara Townsend Lecture Award 2021 Transfer Champion-Catalyst Award from the National Institute for the Study of Transfer Students (NISTS) 2021 Outstanding Publication Award, AERA Division J Publication and Research On My Own: The Challenge and Promise of Building Equitable STEM Transfer Pathways is the first book of its kind to provide a detailed, on-the-ground examination of the difficult paths—curricular, interpersonal, and institutional—that students must chart through community college. The book follows 1,670 two-year college students over four years as they begin STEM programs in the Midwest and documents their educational and life experiences as they moved toward, or away, from the prospect of transfer to a four-year institution. Their stories reveal that they were on their own, left to navigate the pathways to transfer without meaningful institutional support. The students pursued one of four pathways, or momentum trajectories: linear upward, detoured, deferred, or taking a break. The preexisting and lasting disparities in their access to education and financial resources, their experiences with teaching and advising, and the conundrum between support from and for family, among others, propelled them onto different trajectories in their quest for transfer. As this book makes painfully clear, the current state of transfer acts as a mechanism that perpetuates and worsens inequities in educational outcomes. As Xueli Wang argues, to cultivate an equitable STEM transfer pathway, culturally relevant and responsive supports that are accessible, welcoming, and validating must be put in place at the institutional level and appeal to the talent, motivation, and unique needs of historically marginalized students. In doing so, postsecondary institutions will be better positioned to fulfill their promise as an equitable pathway to bachelor’s degrees and beyond.




Delivering Promise


Book Description

An invigorating take on how community and technical colleges can center equity in fostering institutional transformation