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1.
Lynnette Michaluk Rachel Stoiko Gay Stewart John Stewart 《Journal of Science Education and Technology》2018,27(2):99-113
Elementary teachers often hold inaccurate beliefs about the Nature of Science (NoS) and have negative attitudes toward science and mathematics. Using a pre-post design, the current study examined beliefs about the NoS, attitudes toward science and mathematics, and beliefs about the teaching of mathematics and science in a large sample study (N = 343) of pre-service teachers receiving a curriculum-wide intervention to improve these factors in comparison with Science, Technology, Engineering, and Mathematics (STEM) and non-STEM majors in other physics courses (N = 6697) who did not receive the intervention, over a 10-year period. Pre-service teachers evidenced initially more negative attitudes about mathematics and science than STEM majors and slightly more positive attitudes than non-STEM majors. Their attitudes toward mathematics and science and beliefs about the NoS were more similar to non-STEM than STEM majors. Pre-service teachers initially evidenced more positive beliefs about the teaching of mathematics and science, and their beliefs even increased slightly over the course of the semester, while these beliefs in other groups remained the same. Beliefs about the NoS and the teaching of mathematics and science were significantly negatively correlated for STEM and non-STEM majors, but were not significantly correlated for pre-service teachers. Beliefs about the NoS and attitudes toward mathematics and science were significantly positively correlated for both pre-service teachers and STEM students pursing the most mathematically demanding STEM majors. Attitudes toward science and mathematics were significantly positively correlated with accurate beliefs about the teaching of mathematics and science for all student groups. 相似文献
2.
Becky Wai-Ling Packard Janelle L. Gagnon Arleen J. Senas 《Community College Journal of Research & Practice》2013,37(9):670-683
Given financial barriers facing community college students today, and workforce projections in science, technical, engineering, and math (STEM) fields, the costs of unnecessary delays while navigating transfer pathways are high. In this phenomenological study, we analyzed the delay experiences of 172 students (65% female) navigating community college transfer pathways in STEM fields in Massachusetts. When focusing on institutional delays, three central elements emerged: (a) informational setbacks from dissatisfactory advising, (b) imperfect program alignment with four-year institutions, and (c) college resource limitations. Students took unnecessary courses or could not get into courses in a timely manner, resulting in lost time, money, and credit. An accumulation of delays is particularly detrimental to STEM women and men, given the sequential nature of their programming. Implications for policy and practice are discussed. 相似文献
3.
Dimitra Lynette Jackson Frankie Santos Laanan 《Community College Journal of Research & Practice》2013,37(2):132-149
The United States is experiencing a dire need for individuals who possess training and expertise in areas of science, technology, engineering, and mathematics (STEM). With over half of the nation’s students entering university environments via community colleges coupled with a large portion of this population majoring in STEM areas, the successful transition and adjustment of community college transfer students is essential to the STEM workforce. This article uses an ex post facto survey research design to examine the socialization factors that impact the transition and adjustment experiences of community college transfer students in STEM disciplines. Two hierarchical regression models are employed to examine the factors that impact the academic and social adjustment of community college transfer students in STEM majors. This research was situated using an adaptation of Weidman’s (1987) Socialization Theoretical Framework. Implications, and recommendations for policy and practice will be provided based on the overall results of this study. 相似文献
4.
Carlos Lopez 《Community College Journal of Research & Practice》2013,37(3):168-182
ABSTRACTThere are a limited number of individuals who possess the skills to fulfill the workforce demand in STEM (science, technology, engineering, and math) in the United States. Therefore, community colleges and 4-year institutions must be able to identify academic and social factors that impact students’ participation in the areas of STEM. These institutions must also explore the possibility that these factors contribute to the high rate of students switching out of STEM fields. This study’s purpose was to develop a better understanding of the perceptions of community college transfer students who continue at a 4-year institution to determine academic and social factors that influenced their academic success in STEM. To collect the quantitative data, the Laanan-Transfer Students’ Questionnaire was utilized. The results of this study reveal that Academic Adjustment was predicted by father’s highest level of education, interaction with faculty at the community college and university, and perception as a transfer student at the university. The cumulative grade point average (GPA), was predicted by the highest level of education of the father, associate degree obtained at the community college, community college transfer GPA, general courses from the community college, transfer credit hours, and university course learning. Overall, the findings indicate that community colleges and 4-year institutions should encourage students to be connecting more in class and after class—not only with their peers, but also with faculty. Findings also suggest that students should become more involved academically and socially to enhance their academic and social adjustment at a 4-year institution. 相似文献
5.
Zakiya S. Wilson Lakenya Holmes Karin deGravelles Monica R. Sylvain Lisa Batiste Misty Johnson Saundra Y. McGuire Su Seng Pang Isiah M. Warner 《Journal of Science Education and Technology》2012,21(1):148-156
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. 相似文献
6.
Modeling Entrance into STEM Fields of Study Among Students Beginning at Community Colleges and Four-Year Institutions 总被引:1,自引:0,他引:1
Xueli Wang 《Research in higher education》2013,54(6):664-692
In this study, a theoretical model is tested to examine factors shaping the decision to pursue STEM fields of study among students entering community colleges and four-year institutions, based on a nationally representative sample of high school graduates from 2004. Applying the social cognitive career theory and multi-group structural equation modeling analysis, this research highlights a number of findings that may point to specific points of intervention along students’ educational pathway into STEM. This study also reveals important heterogeneity in the effects of high school and postsecondary variables based on where students start their postsecondary education: community colleges or four-year institutions. For example, while high school exposure to math and science courses appears to be a strong influence on four-year beginners’ STEM interest, its impact on community college beginners’ STEM interest, albeit being positive, is much smaller. In addition, college academic integration and financial aid receipt exhibit differential effects on STEM entrance, accruing more to four-year college students and less to those starting at community colleges. 相似文献
7.
Eric Lichtenberger M. Allison Witt Doug Franklin 《Community College Journal of Research & Practice》2013,37(11):959-979
The use of dual credit has been expanding rapidly. Dual credit is a college course taken by a high school student for which both college and high school credit is given. Previous studies provided limited quantitative evidence that dual credit/dual enrollment is directly connected to positive student outcomes. In this study, predictive statistics were calculated using the generalized linear mixed model function in SPSS. For the final analysis, a two-level, propensity score weighted, multinomial logistic regression model was developed. Findings of this study are that even after controlling for selection bias, variation across high schools, and several education and socioeconomic status variables, dual credit/dual enrollment was significantly related to increased odds of enrolling at both four-year institutions and community colleges upon high school graduation. The opportunity presented by dual credit expansion and related policy recommendations are explored within the state and federal completion agenda context. 相似文献
8.
Gene Popiolek Ricka Fine Valerie Eilman 《Community College Journal of Research & Practice》2013,37(11):828-838
This study extends and makes unique methodological contributions to research on the impact of learning communities (LCs) on community college students. Much of the previous research was short-term, lacked adequate comparison groups, and focused on four-year college students. This four-year study controlled for instructor-related variables by comparing academic outcomes of LC students with those of non-LC students taught by the same instructor during the same semester. Differences in grades, attrition, and retention were compared between students enrolled in two pairs of linked English 101 and Psychology 101 LC classes and students enrolled in non-LC courses with the same professor. Student enrollment in the LC courses was associated with higher grade point averages, lower course attrition rates, and higher fall-to-spring semester retention rates. Reasons for the relative scarcity of LCs in community colleges is discussed, along with recommendations as to how institutions can encourage the growth of LCs on their campuses. 相似文献
9.
As the United States population approaches a minority majority, the need to address educational inequities is intensified, especially for Latin@ students who are among the fastest growing ethnic minority group across the United States and at four-year colleges and universities. Concerns for educational equity also demand broadening participation of domestic under-represented groups in science, technology, engineering, and mathematics (STEM) fields. Informed by student-level data from six large, public, doctoral-granting, research-intensive universities located in the Midwest and Mid-Atlantic regions, we examine differences in STEM degree attainment among Latin@s at the intersections of race/ethnicity, gender, and socioeconomic status. The results support the need to target STEM intervention efforts to Latin@s by gender. 相似文献
10.
Peggy Doerschuk Cristian Bahrim Jennifer Daniel Joseph Kruger Judith Mann Cristopher Martin 《Journal of Science Education and Technology》2016,25(4):682-695
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. 相似文献
11.
Recruiting and preparing STEM majors for teaching has become one of the major efforts at improving mathematics and science teacher quality at secondary level. One question is whether STEM majors who have not had the chance to experience active learning in mathematics and science classes as secondary students themselves know what inquiry pedagogy is. Secondly, it is unclear whether those who experienced inquiry in their college introductory discipline courses will be able to utilize the pedagogy in teaching secondary content. We address these questions through studying an undergraduate research methods course designed to improve STEM majors’ capacity for delivering inquiry-based mathematics and science lesson. Analysis of data from pre-and-post course surveys and students’ written research reports including students’ reflection on their inquiry projects suggests that offering future STEM teachers opportunities to conduct inquiry and reflect explicitly on how inquiry can be used to teach secondary content is important and beneficial. 相似文献
12.
Bayer Corporation 《Journal of Science Education and Technology》2014,23(5):617-623
A major debate is currently underway in the USA about whether there is, in fact, a science, technology, engineering and mathematics (STEM) workforce shortage in the country or not. This is the subject of the Bayer Facts of Science Education XVI: US STEM Workforce Shortage—Myth or Reality? Fortune 1000 Talent Recruiters on the Debate. An ongoing public opinion research project commissioned by Bayer Corporation, the Bayer Facts surveys examine US STEM education, diversity and workforce issues. The 16th in the series, the newest survey asks talent recruiters at some of the country’s largest employers—those included in the Fortune 1000—to weigh in on current and future demand for new hires with 2- and 4-year STEM degrees. As professionals responsible for scouting, recruiting and hiring talent at Fortune 1000 companies, both STEM and non-STEM alike, these individuals are on the frontlines, tasked with assessing and filling their companies’ workforce needs. The survey asks the recruiters whether new hires with 2- and 4-year STEM degrees are as, more or less in demand than their peers without STEM degrees? Are more new STEM jobs being created at their companies than non-STEM jobs? Can they find adequate numbers of qualified candidates in a timely manner and how fierce is the competition for STEM degree holders? To answer these and other questions, the survey polled 150 talent recruiters at Fortune 1000 companies, both STEM and non-STEM alike. The survey also asks the recruiters about diversion in STEM, workforce diversity in the pipeline, the role of community colleges in developing the STEM pipeline and the desired skills and competencies of new hires. 相似文献
13.
Gender disparities in science and engineering majors in Chinese universities have received increasing attention from researchers and educators in China in recent years. Using data from a national survey of college students who graduated in 2005, this study documents gender disparities in enrollment and academic performance in science and engineering majors, and explores gender disparities in initial employment experiences of science and engineering graduates. It finds that females lag far behind males in enrollment in science and engineering majors overall. However, females actually are more represented than males in some majors such as mathematics and chemistry though the reverse is true for other science and engineering majors. Also, in science and engineering majors, females perform better than males in both general course grades and in English competency tests. Male science and engineering graduates have a clear advantage over their female counterparts in initial employment after graduation: they have a high employment rate, a higher starting salary, and are more likely to be employed in such jobs as business management and technical specialist. The male advantage in employment rate and starting salary persists even after controlling for other factors. 相似文献
14.
Gender inequality persists in certain science, technology, engineering, and mathematics (STEM) postsecondary fields. Notably, cross-national evidence suggests the STEM gender gap is smaller, not wider, in less developed nations. This is the first known case study to examine this gap within a developing country: Cambodia. This study investigates the following question: how does development – specifically socioeconomic and gender equity indicators – affect women’s share of enrollment in specific STEM and STEM-related fields? Merging two sources of national data, we leverage provincial census figures and institutional administrative data to estimate women's enrollment share in STEM as well as in specific fields (i.e., accounting, information technology, and health). Findings show women’s share of STEM and information technology majors is larger outside the capital. Further, socioeconomic development and urbanization indicators distinctly predict women’s share of health and information technology majors. These fields also have an inverse relationship between women’s share and gender egalitarian characteristics. We discuss potential explanations and implications for gender and inequality in higher education, within and between nations, in the context of larger theoretical debates on the nature of sex segregation. 相似文献
15.
Oren R. Shewach Kyle D. McNeal Nathan R. Kuncel Paul R. Sackett 《Educational Measurement》2019,38(1):25-35
College students commonly have considerable course choice, and they can differ substantially in the proportion of their coursework taken at an advanced level. While advanced coursework is generally viewed as a desirable component of a student's education, research has rarely explored differences in student course‐taking patterns as a measure of academic success in college. We examined the relationship between the SAT, high school grade point average (HSGPA), and the amount of advanced coursework taken in a sample of 62 colleges and 188,985 students. We found that both the SAT and HSGPA predict enrollment in advanced courses, even after controlling for advanced placement (AP) credits and demographic variables. The SAT subtests of Critical Reading, Writing, and Math displayed differential relationships with advanced course‐taking dependent on student major. Gender and race/ethnicity were also related to advanced course‐taking, with women taking more advanced courses in all major categories except for science, technology, engineering, and mathematics (STEM) where they took fewer, even after controlling for other variables. Socioeconomic status had a negligible relationship with advanced course‐taking. This research broadens our understanding of academic achievement in college and the goals of admissions in higher education. 相似文献
16.
ABSTRACTStudents with learning disabilities tend to enroll in two-year community colleges more than they do four-year universities, have lower graduation and retention rates as compared to their non-disabled peers, and experience greater academic, social, and personal difficulties when pursuing a college degree. Yet, despite the higher number of students with learning disabilities in community colleges, and the challenges they face as a marginalized population, the literature pertaining to these students is still growing. Thus, the purpose of this phenomenological study was to explore the lived experiences of students with learning disabilities within a two-year community college. 相似文献
17.
Zachary Batz Brian J. Olsen Jonathan Dumont Farahad Dastoor Michelle K. Smith 《CBE life sciences education》2015,14(2)
The high attrition rate among science, technology, engineering, and mathematics (STEM) majors has long been an area of concern for institutions and educational researchers. The transition from introductory to advanced courses has been identified as a particularly “leaky” point along the STEM pipeline, and students who struggle early in an introductory STEM course are predominantly at risk. Peer-tutoring programs offered to all students in a course have been widely found to help STEM students during this critical transition, but hiring a sufficient number of tutors may not be an option for some institutions. As an alternative, this study examines the viability of an optional peer-tutoring program offered to students who are struggling in a large-enrollment, introductory biology course. Struggling students who regularly attended peer tutoring increased exam performance, expert-like perceptions of biology, and course persistence relative to their struggling peers who were not attending the peer-tutoring sessions. The results of this study provide information to instructors who want to design targeted academic assistance for students who are struggling in introductory courses. 相似文献
18.
This paper examines the impact of stricter high school math requirements on the likelihood of completing a degree in STEM fields. Exploiting cross-state variation in the timing of math reforms, I find that stricter math curriculum requirements significantly increased the proportion of the college-educated population earning a STEM degree. Within STEM, the increases in degree completion are concentrated in math and science while there is little discernible impact in technology and engineering. Further analysis suggests that high school graduation, college attendance, and overall degree completion are largely unaffected by the implementation of math reforms. Instead, stricter math curriculum requirements appear to have shifted some students away from non-STEM fields into STEM fields. 相似文献
19.
Peggy Shadduck 《Community College Journal of Research & Practice》2013,37(11):719-732
ABSTRACTDespite good career prospects in science, technology, engineering, and mathematics (STEM) fields, persistence of students in STEM fields of study at the community college and transfer to universities to pursue STEM majors is often quite low. Theories of persistence emphasize the importance of engagement, integration, validation, and financial assistance. The DCCCD STEM Institute is a comprehensive cocurricular program for community college STEM students. It illustrates the application of persistence theories in a multicollege urban district with a diverse student body. The STEM Institute uses a student/faculty cohort model with mentoring, professional skills programming, and scholarship support to transform student perceptions of themselves, integrate them into a STEM educational community, and validate their membership within that community. Institute membership also reduces isolation and financial concerns as potential barriers to persistence. STEM faculty also participate in professional skill development through a cross-college and cross-disciplinary cohort. Data on students who participated in the DCCCD STEM Institute from 2010 through 2014 show that 92% remain in a STEM educational or career pathway. Important practice implications for community college professionals include (1) forming student and faculty cohorts, (2) facilitating the development of mentoring relationships, (3) providing adequate centralized staffing, and (4) integrating resources and opportunities into a unified cocurricular program. 相似文献