Download or read book Increasing Stem Participation and Student Success of Developmental Mathematics Students at an Urban Community College written by Vanessa A. Hill and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: This mixed method, quantitative and qualitative, study explores the effects of a curriculum with an emphasis on scientific, technological, and engineering focused problems and careers on student success and interest in Science, Technology, Engineering, and Mathematics (STEM). The setting is an urban community college where in the spring of 2016, 71% of the students tested into developmental mathematics (STCC, 2017). The course of study was Algebra one, a developmental, non-college credit bearing, mathematics course. Students had the option of two paths for the subsequent course, a terminal college level mathematics class, or a STEM pathway developmental algebra two course. Pass rates, pre/posttests, pre/post interest surveys, and subsequent math course were recorded and analyzed. Furthermore, implications and limitations of the study were examined with recommendations for future research presented. The findings were that there was an increase in both path rates, and STEM interest.

Download or read book Increasing Student Success in Developmental Mathematics written by National Academies of Sciences, Engineering, and Medicine and published by National Academies Press. This book was released on 2019-12-18 with total page 123 pages. Available in PDF, EPUB and Kindle. Book excerpt: The Board on Science Education and the Board on Mathematical Sciences and Analytics of the National Academies of Sciences, Engineering, and Medicine convened the Workshop on Increasing Student Success in Developmental Mathematics on March 18-19, 2019. The Workshop explored how to best support all students in postsecondary mathematics, with particular attention to students who are unsuccessful in developmental mathematics and with an eye toward issues of access to promising reforms and equitable learning environments. The two-day workshop was designed to bring together a variety of stakeholders, including experts who have developed and/or implemented new initiatives to improve the mathematics education experience for students. The overarching goal of the workshop was to take stock of the mathematics education community's progress in this domain. Participants examined the data on students who are well-served by new reform structures in developmental mathematics and discussed various cohorts of students who are not currently well served - those who even with access to reforms do not succeed and those who do not have access to a reform due to differential access constraints. Throughout the workshop, participants also explored promising approaches to bolstering student outcomes in mathematics, focusing especially on research and data that demonstrate the success of these approaches; deliberated and discussed barriers and opportunities for effectively serving all students; and outlined some key directions of inquiry intended to address the prevailing research and data needs in the field. This publication summarizes the presentations and discussion of the workshop.

Download or read book Minority Serving Institutions written by National Academies of Sciences, Engineering, and Medicine and published by National Academies Press. This book was released on 2019-02-05 with total page 255 pages. Available in PDF, EPUB and Kindle. Book excerpt: There are over 20 million young people of color in the United States whose representation in STEM education pathways and in the STEM workforce is still far below their numbers in the general population. Their participation could help re-establish the United States' preeminence in STEM innovation and productivity, while also increasing the number of well-educated STEM workers. There are nearly 700 minority-serving institutions (MSIs) that provide pathways to STEM educational success and workforce readiness for millions of students of colorâ€"and do so in a mission-driven and intentional manner. They vary substantially in their origins, missions, student demographics, and levels of institutional selectivity. But in general, their service to the nation provides a gateway to higher education and the workforce, particularly for underrepresented students of color and those from low-income and first-generation to college backgrounds. The challenge for the nation is how to capitalize on the unique strengths and attributes of these institutions and to equip them with the resources, exceptional faculty talent, and vital infrastructure needed to educate and train an increasingly critical portion of current and future generations of scientists, engineers, and health professionals. Minority Serving Institutions examines the nation's MSIs and identifies promising programs and effective strategies that have the highest potential return on investment for the nation by increasing the quantity and quality MSI STEM graduates. This study also provides critical information and perspective about the importance of MSIs to other stakeholders in the nation's system of higher education and the organizations that support them.

Download or read book Innovations in Developmental Math written by Cecilia Le and published by . This book was released on 2011 with total page 20 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nearly 60 percent of incoming community college students are unprepared for college-level work and must take at least one pre-college, "developmental" course, usually in math or English, before enrolling in any credit-bearing classes toward a degree. Within developmental education, students are most likely to need help with mathematics, and students who enter community college needing to take developmental math fare the worst in terms of outcomes making this an issue that deeply affects students. Lack of readiness for college math is as damaging as it is widespread. Students are more likely to fail developmental mathematics than any other course in higher education, according to the Carnegie Foundation for the Advancement of Teaching. Thus, it is not surprising that many students referred to developmental math choose to bypass such courses and services, without knowing the detrimental consequences of this decision on their overall educational goals. This brief looks at three community colleges that have made significant investments in programs to improve student success in developmental math. These colleges are spotlighted for their implementation of the varied approaches to developmental math described above and for their ability to demonstrate outcomes for their students. The community colleges featured in this brief are: (1) Florence-Darlington Technical College in South Carolina; (2) Delaware County Community College in Pennsylvania; and (3) Chaffey College in California. (Contains 4 tables and 11 endnotes.).

Download or read book Improving Urban Schools written by Chance W. Lewis and published by IAP. This book was released on 2013-04-01 with total page 208 pages. Available in PDF, EPUB and Kindle. Book excerpt: Although STEM (Science, Technology, Engineering, and Mathematics) has been diversely defined by various researchers (e.g. Buck Institute, 2003; Capraro & Slough, 2009; Scott, 2009; Wolf, 2008), during the last decade, STEM education has gained an increasing presence on the national agenda through initiatives from the National Science Foundation (NSF) and the Institute for Educational Sciences (IES). The rate of technological innovation and change has been tremendous over the past ten years, and this rapid increase will only continue. STEM literacy is the power to “identify, apply, and integrate concepts from science, technology, engineering, and mathematics to understand complex problems and to innovate to solve them” (Washington State STEM, 2011, Internet). In order for U.S. students to be on the forefront of this revolution, ALL of our schools need to be part of the STEM vision and guide students in acquiring STEM literacy. Understanding and addressing the challenge of achieving STEM literacy for ALL students begins with an understanding of its element and the connections between them. In order to remain competitive, the Committee on Prospering in the Global Economy has recommended that the US optimize “its knowledge-based resources, particularly in science and technology” (National Academies, 2007, p. 4). Optimizing knowledge-based resources needs to be the goal but is also a challenge for ALL educators (Scheurich & Huggins, 2009). Regardless, there is little disagreement that contemporary society is increasingly dependent on science, technology, engineering, and mathematics and thus comprehensive understandings are essential for those pursuing STEM careers. It is also generally agreed that PK-12 students do not do well in STEM areas, both in terms of national standards and in terms of international comparisons (Kuenzi, Matthews, & Mangan, 2006; Capraro, Capraro, Yetkiner, Corlu, Ozel, Ye, & Kim, 2011). The question then becomes what might PK-12 schools do to improve teachers’ and students’ STEM knowledge and skills? This book will look at equity and access issues in STEM education from PK-12, university, and administrative and policy lenses.

Download or read book Orchestrating Effective Practices in Developmental Math written by Patricia Anne Levine-Brown and published by . This book was released on 2015 with total page 324 pages. Available in PDF, EPUB and Kindle. Book excerpt: Developmental mathematics courses are intended to help underprepared students but often are a barrier for hundreds of students who fail these courses. High failure rates prevent students from achieving their academic goals, therefore; educational institutions are looking for methods to increase success in these courses. Such was the case at Florida State College at Jacksonville (FSCJ), where high failure rates in developmental mathematics presented problems to the institution and its students. To increase pass rates in developmental education courses, a college-wide redesign initiative introduced in 2009 led to the implementation of a research-based model for developmental education. This model would be implemented in the form of Academic Success Centers (ASC) incorporating practices tailored to increase student success and persistence. To examine success rates of students taking developmental education courses in the ASCs, the College conducted a longitudinal predictive analytics study known as the Chi-squared Automatic Interaction Detection (CHAID). The CHAID analyzed student success and retention of 10,051 developmental mathematics students over two academic terms. Additionally, the CHAID identified highly successful developmental mathematics teachers. These teachers, and the environment in which they taught (ASCs), became the basis of this qualitative study. The purpose of the study was two-fold. First, it focused on identifying pedagogical practices of highly successful developmental mathematics faculty who taught in the Academic Success Centers at FSCJ. Second, it focused on the areas of impact of the ASC as an environmental factor in student success. Data collected through observations, interviews, and documented analysis, along with the use of text mining, revealed that patterns emerged among participants in which they shared common beliefs about the importance of communicating with students, forming relationships with students, lecture and lab practices, the availability of physical resources, and the availability of academic support services within the environment where they interacted with their students. The intent of using the evidence from the key findings is to provide community college leaders with insight into pedagogical practices shared by highly successful developmental mathematics teachers and the role the learning environment serves in meeting students' educational needs.

Download or read book Developmental Mathematics in Two year Community Colleges and Student Success written by Brenda Catherine Frame and published by . This book was released on 2012 with total page 127 pages. Available in PDF, EPUB and Kindle. Book excerpt: Poor success rates of developmental mathematics courses at community colleges have currently received nationwide attention. Efforts to remedy the situation include complete course redesigns and intervention strategies. A recent intervention strategy in use is the implementation of success courses that are aimed at changing the learning perspectives of developmental students. The purpose of this mixed-method comparative study was to closely examine this strategy as it relates specifically to students studying developmental mathematics at the lowest level at one community college. Students taking the lowest level developmental mathematics course at the participating community college were designated into one of two groups: those taking mathematics with the success course and those taking mathematics without a success course. The study explored students' perceptions and belief structures regarding the study of developmental mathematics and focused on identifying any changes in student belief structures over the course of one semester. Descriptive statistics regarding grade achievement of the population with the student success course provide insight into the possible benefits of the success course for developmental mathematics students. Participants in the study, starting out in the lowest mathematics course offered at the community college, need more mathematics in order to obtain a degree or certificate from the college. Rate of registration for the subsequent mathematics courses were also analyzed in the study. Findings showed that the offering of a success course to students who are at-risk in developmental mathematics has made some improvements in the percentage of students who were able to satisfactorily complete the first level developmental mathematics course at one community college. It also showed that for students who did not pass the success course, there was a nearly one-to-one relationship with unsuccessful completion of a low-level mathematics course. Qualitative data helps explain how the two groups were quite different and also helps to explain findings.

Download or read book Expanding Underrepresented Minority Participation written by Institute of Medicine and published by National Academies Press. This book was released on 2011-07-29 with total page 229 pages. Available in PDF, EPUB and Kindle. Book excerpt: In order for the United States to maintain the global leadership and competitiveness in science and technology that are critical to achieving national goals, we must invest in research, encourage innovation, and grow a strong and talented science and technology workforce. Expanding Underrepresented Minority Participation explores the role of diversity in the science, technology, engineering and mathematics (STEM) workforce and its value in keeping America innovative and competitive. According to the book, the U.S. labor market is projected to grow faster in science and engineering than in any other sector in the coming years, making minority participation in STEM education at all levels a national priority. Expanding Underrepresented Minority Participation analyzes the rate of change and the challenges the nation currently faces in developing a strong and diverse workforce. Although minorities are the fastest growing segment of the population, they are underrepresented in the fields of science and engineering. Historically, there has been a strong connection between increasing educational attainment in the United States and the growth in and global leadership of the economy. Expanding Underrepresented Minority Participation suggests that the federal government, industry, and post-secondary institutions work collaboratively with K-12 schools and school systems to increase minority access to and demand for post-secondary STEM education and technical training. The book also identifies best practices and offers a comprehensive road map for increasing involvement of underrepresented minorities and improving the quality of their education. It offers recommendations that focus on academic and social support, institutional roles, teacher preparation, affordability and program development.

Download or read book STEM Models of Success written by J. Luke Wood and published by IAP. This book was released on 2014-03-01 with total page 299 pages. Available in PDF, EPUB and Kindle. Book excerpt: 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.

Download or read book Exploring Best Practices in Developmental Mathematics written by Brian V. Cafarella and published by . This book was released on 2013 with total page 246 pages. Available in PDF, EPUB and Kindle. Book excerpt: Currently, many community colleges are struggling with poor student success rates in developmental math. Therefore, this qualitative study focused on employing best practices in developmental mathematics at an urban community college in Dayton, Ohio. Guiding the study were the following research questions: What are the best practices utilized by a group of developmental mathematics instructors at an urban community college? How do these instructors employ such practices to enhance student learning? Participants consisted of 20 developmental mathematics instructors from Sinclair Community College in Dayton, Ohio who had taught at least six developmental math classes over a two-year period and who self-reported success rates of at least 60% during that time. This study employed a pre-interview document and a face-to-face interview as the primary research instruments. Using the constant comparison method (Merriam, 2002a), the researcher constructed findings from both approaches regarding best practices in developmental math. Such practices included communication with students, the art of organization, collaborative learning, frequent low stake assessments, technology supplements, the use of mnemonics and memorable wording, and manipulatives, visuals and real-life applications. When addressing the topic of acceleration, the participants reported that this strategy is a proper fit for some students but not all. The following conclusions were based on the findings from this study. Effective communication should be established between developmental math instructors and students as well as among developmental math instructors. Developmental math faculty ought to work with their students in developing their organizational skills. Developmental math instructors should couple the implementation of frequent low stake assessments with student outreach. Collaborative learning can be beneficial to some developmental math students, but instructors must take into account the composition of the class as well their own comfort level with collaborative learning. It is also important for developmental math instructors to employ some creativity in their classes. Accelerated instruction should be reserved for higher ability developmental math students with a strong work ethic. Lastly, college administrators must recognize and respect instructor comfort level. The findings from this dissertation will assist both new and veteran developmental math instructors with implementing practices that will enhance student success in their classes. The findings are also intended to aid community college leaders in gaining an understanding of the culture of developmental math and assist these leaders in the implementation of policy and practice regarding developmental math.

Download or read book Programmatic Practices that Promote Student Success in Community College Math Developmental Education written by Elizabeth J. Meza and published by . This book was released on 2015 with total page 167 pages. Available in PDF, EPUB and Kindle. Book excerpt: Almost half of all college students in the U.S. attend community colleges; almost sixty percent of these students are referred to remedial English, reading or math through means of a standardized placement exam, with math being a the greatest area of need. While these courses, often as many as four in a sequence, are meant to be a boost for students unprepared for college-level coursework, they have low success rates and few students make it through the entire sequence to succeed in a first college-level math course, leaving them far short of graduation or a meaningful credential. While developmental (aka remedial) education, those courses or sequences of courses below the college-level, has received a lot of attention recently due to its high costs and low student success rates, current research has largely failed to document, examine, or classify programmatic approaches to developmental education. This lack of information that would facilitate analysis is due in part to the relatively recent recognition of the problem, but it is also because of the difficulty accessing reliable information about large numbers of programs and the range of definitions, student populations, and perceived quickly shifting innovations (some may go as far as to say educational fads) that developmental education programs encompass. Unfortunately, this lack of a comprehensive picture of developmental education programs has led to either the complete elimination of the programs as unnecessary and perhaps counterproductive for students, or to a focus on a number of disparate approaches with little underlying theory behind them or even agreement as to the problem. This research is centered in 28 Washington state community college campuses and examines a mixed methods approach to answer three main questions: 1) To what extent and in what ways do math developmental program elements vary across institutions? Developmental education may vary widely even within one relatively homogenous state system of community colleges, such as the system in Washington. Programs have differing resources devoted to them, as well as differing pedagogy, intervention strategies and approaches, student referral and advancement policies, etc., and this variation has not even been fully described in previous research. 2) To what extent do student outcomes, as measured by completion of the developmental sequence, completion of a first college-level math course, and highest education reached, vary across the different math developmental education programs, after controlling for student characteristics, among the 28 community colleges in Washington State? What proportion of overall variance is contributed by student characteristics vs. programmatic factors? Wide institutional variation has been found in previous outcomes studies of professional-technical programs leading to terminal associate degrees in Washington, suggesting that institutional or programmatic variables may be contributing significantly to student success or lack of it (Scott-Clayton & Weiss, 2011). 3) What program policies and practices seem to be associated with positive outcomes for developmental education students? Can developmental education programs be categorized in some meaningful way? Is there a "typology" or categorization of programs that identifies characteristics that seem to be associated with either positive or negative results? For example, do schools with better (or worse) results, net of student characteristics, share identifiable programmatic characteristics in terms of policy and practice variables that are positively or negatively associated with student outcomes? I find from this research that strategies such as reducing the total number of courses in developmental education pathways, implementing alternatives to placement in developmental math via standardized tests, and better preparing students for assessment, are associated with greater student success in completing the developmental math sequence and in completing a first college level course. I also find that colleges with these more innovative features are significantly more successful than their more traditional institutional peers in terms of student outcomes. However, I also find no variation between colleges in the outcome of highest education reached, after controlling for student background characteristics. It seems that, at least for this sample, college did not have a significant association with ultimate educational attainment. Diving deeper to examine colleges' policies, practices, and the perspectives of students, faculty, and administrators, I find wide variation in pathways, program structure, assessment policies, connection to advising, tutoring, and institutional research departments, and day-to-day concerns and operations. One commonality is the conviction that teaching that addresses student motivation and confidence in their ability to learn math and peaks their interest, factors not usually examined systematically in higher education policy research, is central to developmental education student success. This research informs strategies for increased college completion for underprepared students. College completion has emerged as of paramount importance in fostering U.S. economic development and global competitiveness, yet if half of college students are unprepared for college work and thus are unlikely to persist to degree completion despite their motivation to attend college, serious attention should be paid to what can be done to increase their odds of success.

Download or read book Learning Communities for Students in Developmental Math written by Evan Weissman and published by . This book was released on 2011 with total page 20 pages. Available in PDF, EPUB and Kindle. Book excerpt: For students in developmental math, a primary short-term goal of learning communities is to accelerate students' progression through the math sequence and into college-level coursework. A longer-term goal is that enrolling in developmental math learning communities will increase students' ultimate likelihood of earning a credential or transferring to a four-year institution. Queensborough Community College and Houston Community College are two large, urban institutions that have implemented developmental math learning communities with these goals in mind. At each school, cohorts of 20 to 25 students co-enrolled in developmental math and a linked course; at Queensborough, all levels of developmental math were linked primarily with college-level courses, and at Houston, the learning communities linked the lowest level of developmental math with the college's student success course, which is designed to prepare students for the demands of college. These colleges are two of the six participating in the National Center for Postsecondary Research's (NCPR) Learning Communities Demonstration. The demonstration at these colleges was designed to determine whether the programs succeeded in boosting their students' success. A total of 1,034 students at Queensborough and 1,273 students at Houston entered the study between 2007 and 2009. Based on a longer report of the same title, this Brief presents impact findings for Queensborough and Houston's developmental math learning communities. [This brief was written with Rashida Welbeck. For related reports, see "Learning Communities for Students in Developmental Math: Impact Studies at Queensborough and Houston Community Colleges" (ED516646); and "Learning Communities for Students in Developmental Math: Impact Studies at Queensborough and Houston Community Colleges. Executive Summary" (ED516652).].

Download or read book The Impact of Learning Environment on Student Success in Developmental Math written by Jean M. Ashby and published by . This book was released on 2013 with total page 145 pages. Available in PDF, EPUB and Kindle. Book excerpt: Increasing enrollments in community colleges has led to an increase in distance education courses. The developmental coursework necessary for many community college students is being offered both in online and hybrid environments. These students face challenges with the content and now find themselves needing to learn in a virtual classroom. Current research (Chernish, DeFranco, Lindner, & Dooley, 2005; Frederickson, Reed, & Clifford, 2005; Herman & Banister, 2007; Kromrey & Purdom, 1995; Scheetz & Guntner, 2004) shows that there is no difference in student success based on the learning environment, but this was completed primarily with upper-class and graduate students. This study investigated student success in a developmental math course taught in the face-to-face, hybrid, and online environments at a mid-Atlantic community college. Cognitive Load Theory was used during the design of the course and its principles were maintained in all of the learning environments. The sample was 167 students with an average age of 25 years, 58% were female, 49% were Caucasian and 43% were African-American. The focus was on student success, but the impact attrition had on the results of the study is discussed. The study also investigated student characteristics and their relationship to success. Age, gender, race, student status, placement scores, financial aid, learning style, locus of control, and technology skills are all compared between successful and unsuccessful students to determine if specific traits were more beneficial within a particular environment.

Download or read book Community Colleges and STEM written by Robert T. Palmer and published by Routledge. This book was released on 2013-07-18 with total page 249 pages. Available in PDF, EPUB and Kindle. Book excerpt: 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.

Download or read book Learning Communities for Students in Developmental Math Impact Studiesat Queensborough and Houston Community Colleges Executive Summary written by Evan Weissman and published by . This book was released on 2011 with total page 9 pages. Available in PDF, EPUB and Kindle. Book excerpt: Queensborough Community College and Houston Community College are two large, urban institutions that offer learning communities for their developmental math students, with the goals of accelerating students' progress through the math sequence and of helping them to perform better in college and ultimately earn degrees or certificates. They are two of six colleges participating in the National Center for Postsecondary Research's Learning Communities Demonstration, in which random assignment evaluations are being used to determine the effects of learning communities. At Queensborough, classes in all levels of developmental math were linked primarily with college-level classes, and at Houston, the lowest level of developmental math was linked with the college's student success class, designed to prepare students for the demands of college. A total of 1,034 students at Queensborough and 1,273 students at Houston entered the study between 2007 and 2009. The key findings presented in this report are: (1) Both Queensborough and Houston began by implementing a basic model of a one-semester developmental math learning community; (2) Learning community students attempted and passed their developmental math class at higher rates at both colleges; (3) In the semesters following students' participation in the program, impacts on developmental math progress were far less evident; and (4) On average, neither college's learning communities program had an impact on persistence in college or cumulative credits earned. With these results, a pattern is beginning to emerge in the experimental research on learning communities: Linked classes can have an impact on students' achievement during the program semester, but this effect diminishes over time. However, a fuller understanding will be gained as findings are released from the remaining three colleges in the demonstration. A final project synthesis report, including further follow-up, will be published in 2012. (Contains 2 figures and 2 footnotes.) [This paper was written with Rashida Welbeck. For the main report, see ed516646.].

Download or read book Hispanic Serving Institutions HSIs in Practice written by Gina Ann Garcia and published by IAP. This book was released on 2020-03-01 with total page 303 pages. Available in PDF, EPUB and Kindle. Book excerpt: As the general population of Latinxs in the United States burgeons, so does the population of college-going Latinx students. With more Latinxs entering college, the number of Hispanic Serving Institutions (HSIs), which are not-for-profit, degree granting postsecondary institutions that enroll at least 25% Latinxs, also grows, with 523 institutions now meeting the enrollment threshold to become HSIs. But as they increase in number, the question remains: What does it mean to serve Latinx students? This edited book, Hispanic Serving Institutions (HSIs) in Practice: Defining “Servingness” at HSIs, fills an important gap in the literature. It features the stories of faculty, staff, and administrators who are defining “servingness” in practice at HSIs. Servingness is conceptualized as the ability of HSIs to enroll and educate Latinx students through a culturally enhancing approach that centers Latinx ways of knowing and being, with the goal of providing transformative experiences that lead to both academic and non-academic outcomes. In this book, practitioners tell their stories of success in defining servingness at HSIs. Specifically, they provide empirical and practical evidence of the results and outcomes of federally funded HSI grants, including those funded by Department of Education Title III and V grants. This edited book is ideal for higher education practitioners and scholars searching for best practices for HSIs in the United States. Administrators at HSIs, including presidents, provosts, deans, and boards of trustees, will find the book useful as they seek out ways to effectively serve Latinx and other minoritized students. Faculty who teach in higher education graduate programs can use the book to highlight practitioner engaged scholarship. Legislators and policy advocates, who fight for funding and support for HSIs at the federal level, can use the book to inform and shape a research-based Latinx educational policy agenda. The book is essential as it provides a framework that simplifies the complex phenomenon known as servingness. As HSIs become more significant in the U.S. higher education landscape, books that provide empirically based, practical examples of servingness are necessary.

Download or read book Increasing the Competitive Edge in Math and Science written by Janet S. Kettlewell and published by R&L Education. This book was released on 2009-02-16 with total page 226 pages. Available in PDF, EPUB and Kindle. Book excerpt: The U. S. is losing its competitive edge in science, technology, engineering, and mathematics (STEM). Thomas Friedman warns that America is not producing enough young people in STEM fields that are essential for entrepreneurship and innovation in the 21st century (The World Is Flat: A Brief History of the Twenty-First Century, 2005). Blue ribbon commissions and influential business and national leaders have issued reports on the seriousness of the situation but little collective effort has been made to advance solutions to the STEM crisis. Increasing the Competitive Edge in Math and Science lays out actions that can be taken by K-12 teachers and administrators, by higher education faculty and administrators, and by policy makers working collaboratively in school through college (K-16) partnerships to prepare American youth for meaningful participation in the twenty-first century science and technologically-based economy. If the steps described in this book are followed in states all across the Country, the resulting actions can help America to regain its competitive edge in science and mathematics.