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1.
David Lopatto 《CBE life sciences education》2004,3(4):270-277
In this study, I examined the hypothesis that undergraduate research enhances the educational experience of science undergraduates, attracts and retains talented students to careers in science, and acts as a pathway for minority students into science careers. Undergraduates from 41 institutions participated in an online survey on the benefits of undergraduate research experiences. Participants indicated gains on 20 potential benefits and reported on career plans. Over 83% of 1,135 participants began or continued to plan for postgraduate education in the sciences. A group of 51 students who discontinued their plans for postgraduate science education reported significantly lower gains than continuing students. Women and men reported similar levels of benefits and similar patterns of career plans. Ethnic groups did not significantly differ in reported levels of benefits or plans to continue with postgraduate education. 相似文献
2.
Involvement in research has become a fixture in undergraduate science education across the United States. Graduate and postdoctoral
students are often called upon to mentor undergraduates at research universities, yet mentoring relationships in undergraduate—graduate/postdoctoral
student dyads and undergraduate—graduate/postdoctoral student—faculty triads have been largely unexamined. Here, we present
findings of an exploratory case study framed by relational theory that identifies the motives, gains, and challenges reported
by graduate/postdoctoral students who mentored undergraduates in research. Graduate/postdoctoral mentors experienced a wide
range of gains, including improved qualifications and career preparation, cognitive and socioemotional growth, improved teaching
and communication skills, and greater enjoyment of their own apprenticeship experience. Notably, graduate/postdoctoral mentors
reported twice as many gains as challenges, neither of which were limited by their motives for mentoring. Indeed, their motives
were fairly narrow and immediate, focusing on how mentoring would serve as a means to an end, while the gains and challenges
they reported indicated a longer-term vision of how mentoring influenced their personal, cognitive, and professional growth.
We propose that understanding the impact of mentoring undergraduates on the education and training of graduate/postdoctoral
students may uncover new ideas about the benefits reaped through undergraduate research experiences. 相似文献
3.
Undergraduate research experiences are being incorporated into degree programs with increasing frequency. However, there has been little study into their effectiveness in preparing students for research or into the learning gains that students realise from one or more research experiences. We surveyed science students in an elite, research‐based undergraduate degree program at a research‐intensive university. These students complete six research projects during their degree and we aimed to delineate factors that students perceive as leading to either good or bad experiences. Two factors stand out as contributing to a successful research experience: the supervisor, with students reporting both pedagogic and affective benefits of good supervision; and the feeling that they are doing authentic science. Surprisingly, given the research‐intensive nature of this degree, the learning gains students report relate to both an appreciation of what research is like and life skills, such as time management, rather than scientific thinking skills. 相似文献
4.
Jennifer L. Brace Rachael R. Baiduc Denise L. Drane Luke C. Flores Greg J. Beitel 《Mentoring & Tutoring: Partnership in Learning》2013,21(4):377-399
ABSTRACTUndergraduate research experience has been shown to enhance student learning and improve persistence in science, technology, engineering, and mathematics (STEM). Researchers studying undergraduate research experiences have largely focused on student outcomes and have seldom investigated the outcomes of graduate and postdoctoral mentors. Here, we report a non-credit, year-long mentor professional development program designed for graduate students, postdoctoral scholars, and research staff in STEM. Mentors attended a series of six interactive and discussion-based workshops and mentored first-year undergraduate students in independent summer research projects. We report evaluation findings for three mentor cohorts using a combination of qualitative analysis of mentoring philosophies and quantitative assessment of pre- and post-surveys about mentoring objectives and skills. Results indicate that mentors gained self-efficacy in some objectives and skills. However, many other objectives and skills remained unchanged. We explore possible explanations for the lack of more broad-scale gains across survey items and present ideas for program improvement. 相似文献
5.
Our study, focused on classroom-based research at the introductory level and using the Phage Genomics course as the model, shows evidence that first-year students doing research learn the process of science as well as how scientists practice science. A preliminary but notable outcome of our work, which is based on a small sample, is the change in student interest in considering different career choices such as graduate education and science in general. This is particularly notable, as previous research has described research internships as clarifying or confirming rather than changing undergraduates' decisions to pursue graduate education. We hypothesize that our results differ from previous studies of the impact of engaging in research because the students in our study are still in the early stages of their undergraduate careers. Our work builds upon the classroom-based research movement and should be viewed as encouraging to the Vision and Change in Undergraduate Biology Education movement advocated by the American Association for the Advancement of Science, the National Science Foundation, and other undergraduate education stakeholders. 相似文献
6.
Shannon Portillo Danielle S. Rudes Lincoln B. Sloas Kirsten Hutzell Paula Salamoun 《Journal of Criminal Justice Education》2013,24(1):68-96
Undergraduate programs across the country are working to develop students as scholars, integrating independent scholarly experiences into traditional undergraduate classroom environments (see, e.g. George Mason University's Students as Scholars Quality Enhancement Plan; Boston University’s Undergraduate Research Opportunities Program; University of Houston’s Learning through Discovery; University of Michigan’s Undergraduate Research Opportunity Program; etc.). Scholars and universities have touted the benefits of engaging students in research experiences for students as well as faculty. However, there is little empirical work exploring how undergraduate students adapt to their new role as scholars. In this paper, we explore the process of students integrating research into their undergraduate classroom experience. Based on participant observation and pre and postsemester survey data, we discuss the process of students learning as scholars in a capstone Criminology, Law & Society course. We focus on how students gathered and analyzed data and integrated their research experience into their overall learning for the course. We find the process of research reinforces the learning objectives of the course. 相似文献
7.
培养本科生科研素养是当代本科生教育和创新人才教育的重要组成之一。我国高校多采取资助本科生科研项目的方式进行。为了解这一方式如何影响学生未来科研职业发展,本研究以复旦大学的本科生科研资助计划为对象,对该校2000—2017级参加和未参加科研项目的共576名大学生进行了回顾性队列研究。通过对在校生队列样本的分析,发现科研项目对学生在大学阶段从事科研职业的意愿提高23.2%。通过对毕业生队列样本的追踪分析,发现科研项目提升了本科生14.1%的攻读博士概率,以及提升了17.2%的在高校科研岗位就业概率。进一步的机制检验发现本科生科研项目主要通过促进学生对科研的了解和提升科研工作的自我效能感(而不是比同伴更有竞争力)来激发学生投身科研的意愿。 相似文献
8.
《CBE life sciences education》2014,13(1):111-130
There is widespread agreement that science, technology, engineering, and mathematics programs should provide undergraduates with research experience. Practical issues and limited resources, however, make this a challenge. We have developed a bioinformatics project that provides a course-based research experience for students at a diverse group of schools and offers the opportunity to tailor this experience to local curriculum and institution-specific student needs. We assessed both attitude and knowledge gains, looking for insights into how students respond given this wide range of curricular and institutional variables. While different approaches all appear to result in learning gains, we find that a significant investment of course time is required to enable students to show gains commensurate to a summer research experience. An alumni survey revealed that time spent on a research project is also a significant factor in the value former students assign to the experience one or more years later. We conclude: 1) implementation of a bioinformatics project within the biology curriculum provides a mechanism for successfully engaging large numbers of students in undergraduate research; 2) benefits to students are achievable at a wide variety of academic institutions; and 3) successful implementation of course-based research experiences requires significant investment of instructional time for students to gain full benefit. 相似文献
9.
Amy VanMeter-Adams Cara L. Frankenfeld Jessica Bases Virginia Espina Lance A. Liotta 《CBE life sciences education》2014,13(4):687-697
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. 相似文献
10.
Routes to research for novice undergraduate neuroscientists 总被引:2,自引:2,他引:0
Undergraduate students may be attracted to science and retained in science by engaging in laboratory research. Experience as an apprentice in a scientist's laboratory can be effective in this regard, but the pool of willing scientists is sometimes limited and sustained contact between students and faculty is sometimes minimal. We report outcomes from two different models of a summer neuroscience research program: an Apprenticeship Model (AM) in which individual students joined established research laboratories, and a Collaborative Learning Model (CLM) in which teams of students worked through a guided curriculum and then conducted independent experimentation. Assessed outcomes included attitudes toward science, attitudes toward neuroscience, confidence with neuroscience concepts, and confidence with science skills, measured via pre-, mid-, and postprogram surveys. Both models elevated attitudes toward neuroscience, confidence with neuroscience concepts, and confidence with science skills, but neither model altered attitudes toward science. Consistent with the CLM design emphasizing independent experimentation, only CLM participants reported elevated ability to design experiments. The present data comprise the first of five yearly analyses on this cohort of participants; long-term follow-up will determine whether the two program models are equally effective routes to research or other science-related careers for novice undergraduate neuroscientists. 相似文献
11.
Amy J. Prunuske Janelle Wilson Melissa Walls Benjamin Clarke 《CBE life sciences education》2013,12(3):403-409
Successfully recruiting students from underrepresented groups to pursue biomedical science research careers continues to be a challenge. Early exposure to scientific research is often cited as a powerful means to attract research scholars with the research mentor being critical in facilitating the development of an individual''s science identity and career; however, most mentors in the biological sciences have had little formal training in working with research mentees. To better understand mentors’ experiences working with undergraduates in the laboratory, we conducted semistructured interviews with 15 research mentors at a public university in the Midwest. The interviewed mentors were part of a program designed to increase the number of American Indians pursuing biomedical/biobehavioral research careers and represented a broad array of perspectives, including equal representation of male and female mentors, mentors from underrepresented groups, mentors at different levels of their careers, and mentors from undergraduate and professional school departments. The mentors identified benefits and challenges in being an effective mentor. We also explored what the term underrepresented means to the mentors and discovered that most of the mentors had an incomplete understanding about how differences in culture could contribute to underrepresented students’ experience in the laboratory. Our interviews identify issues relevant to designing programs and courses focused on undergraduate student research. 相似文献
12.
13.
Women remain under-represented in almost all academic levels at universities internationally, and previous evidence has suggested that women move out of the university system in increasing numbers as they progress from postgraduate study to an academic career. The current study aimed to explore the role of gender in the reports of study experiences and future career plans of Australian postgraduate research students (n?=?249). Questionnaire data indicated women were significantly less likely than men to rate an academic career as appealing. In particular, female postgraduate students without dependent children were least likely to want to pursue an academic career. On the basis of qualitative analysis, we attribute this finding, at least in part, to a perceived incompatibility between motherhood and an academic career and discuss the implications for gender equity in higher education. 相似文献
14.
Emma Smith Sandra Cooke 《International Journal of Science and Mathematics Education》2011,9(2):303-326
The recruitment and training of scientists is an area of international concern. Much of the research and policy focus around
this issue in the UK has been on how science is taught in schools and in particular on the structure of the school science
curriculum. Much less attention has been devoted to the undergraduate student experience and the trajectory that learners
take which can lead to higher education and into careers as professional scientists and technicians. This paper reports the
findings from a comparative study of the experiences and aspirations of almost 1,000 art and science undergraduates studying
at 6 elite British universities. There is no evidence to suggest that undergraduate scientists are put off a career in the
science, technology, engineering and mathematics field, although theirs is arguably a less positive experience than that of
their peers who study arts subjects. Most science undergraduates have clear career aspirations which are largely linked to
remaining in the field and often involve further study. For many, these aspirations lead them towards the applied sciences
and away from a career in ‘pure’ research or academia. 相似文献
15.
The research reported in this article explored the impact of the undergraduate placement experience on medical, nursing, and allied health students' perceptions of careers in aged care. Data were collected from undergraduate students (48) and graduates (26) via individual (46) and group (7) interviews; data were thematically analyzed. Participants' placement experiences prompted them to characterize aged care simultaneously as “dirty work” and “rewarding work”. Participants perceived that working full-time as a newly-graduated health professional with the aged or in aged care settings would be an unattractive career. Instead, participants considered working in aged care either as a “mid career” or “blended career” option. 相似文献
16.
Andrew Wild 《International Journal of Science Education》2013,35(14):2284-2305
Considerable attention has been devoted to factors affecting the persistence of women and historically underrepresented ethnic groups in their science education trajectories. The literature has focused more on structural factors that affect longitudinal outcomes rather than classroom experiences. This exploratory survey study described relationships among high school chemistry students’ perceptions of a constructivist learning environment (CLE) and STEM career expectations. The sample included 693 students from 7 public high schools within the San Francisco Bay Area. Students’ perceptions of a CLE predicted their expectations of entering a science career, but not engineering, computer, health, or mathematics-related careers. When all groups of students perceived the learning environment as more constructivist, they were more likely to expect science careers. 相似文献
17.
Pamela A. Harvey Christopher Wall Stephen W. Luckey Stephen Langer Leslie A. Leinwand 《CBE life sciences education》2014,13(4):698-710
Undergraduate science education curricula are traditionally composed of didactic instruction with a small number of laboratory courses that provide introductory training in research techniques. Research on learning methodologies suggests this model is relatively ineffective, whereas participation in independent research projects promotes enhanced knowledge acquisition and improves retention of students in science. However, availability of faculty mentors and limited departmental budgets prevent the majority of students from participating in research. A need therefore exists for this important component in undergraduate education in both small and large university settings. A course was designed to provide students with the opportunity to engage in a research project in a classroom setting. Importantly, the course collaborates with a sponsor''s laboratory, producing a symbiotic relationship between the classroom and the laboratory and an evolving course curriculum. Students conduct a novel gene expression study, with their collective data being relevant to the ongoing research project in the sponsor''s lab. The success of this course was assessed based on the quality of the data produced by the students, student perception data, student learning gains, and on whether the course promoted interest in and preparation for careers in science. In this paper, we describe the strategies and outcomes of this course, which represents a model for efficiently providing research opportunities to undergraduates. 相似文献
18.
Alison Bishop and Phyllis Jones both work in the School of Education at Northumbria University where they teach on undergraduate and postgraduate programmes. Phyllis Jones specialises in disability issues and Alison Bishop focuses on early years education. For the project described in this paper, they combined their areas of expertise, devising a small–scale research project to explore the experiences of a group of early years science specialist student teachers as they took part in workshops with a group of early years children with severe and profound learning difficulties. The research explores the changing attitudes and perceptions of the students with regard to the learning and teaching of science with young children. It becomes clear that there is a realization for many students that science can make a significant contribution to the education of children with severe and profound learning difficulties in the early years. The authors also discuss the need for training to equip the students to meet the challenges and rewards of working with children with severe and profound learning difficulties in their future teaching careers. 相似文献
19.
Bioengineering and Bioinformatics Summer Institutes: meeting modern challenges in undergraduate summer research 
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下载免费PDF全文 Summer undergraduate research programs in science and engineering facilitate research progress for faculty and provide a close-ended research experience for students, which can prepare them for careers in industry, medicine, and academia. However, ensuring these outcomes is a challenge when the students arrive ill-prepared for substantive research or if projects are ill-defined or impractical for a typical 10-wk summer. We describe how the new Bioengineering and Bioinformatics Summer Institutes (BBSI), developed in response to a call for proposals by the National Institutes of Health (NIH) and the National Science Foundation (NSF), provide an impetus for the enhancement of traditional undergraduate research experiences with intense didactic training in particular skills and technologies. Such didactic components provide highly focused and qualified students for summer research with the goal of ensuring increased student satisfaction with research and mentor satisfaction with student productivity. As an example, we focus on our experiences with the Penn State Biomaterials and Bionanotechnology Summer Institute (PSU-BBSI), which trains undergraduates in core technologies in surface characterization, computational modeling, cell biology, and fabrication to prepare them for student-centered research projects in the role of materials in guiding cell biology. 相似文献
20.
ABSTRACT Despite striking increases in female enrolments in many undergraduate science programmes, women continue to be dramatically underrepresented in graduate training and careers in science. Although there is substantial evidence of differences in male and female students' experiences in university science courses, we know little about how young women interpret and respond to these differences. This article explores the accounts that female science students construct of their aspirations, educational experiences, achievements, and opportunities as they move through their undergraduate education at a large, urban university in Canada. Based on in-depth, longitudinal interviews ( n = 91), the focus is on the processes through which they make sense of their educational and career options and choices. The findings point to the importance of understanding how meanings and subjectivities are produced, understood, and acted upon. What is evident from this study is that women in science confront a complex web of competing and contradictory realities and discourses as they negotiate their career identities. Thus, to stem the progressive and cumulative loss of female students as they move up through the levels of higher education, universities must address the problems they confront in their pursuit of science training before, during, and after their undergraduate education. 相似文献