共查询到20条相似文献,搜索用时 31 毫秒
1.
Development of Scientific Thinking Facilitated by Reflective Self‐Assessment in a Communication‐Intensive Food Science and Human Nutrition Course 
下载免费PDF全文
下载免费PDF全文 Suzanne Hendrich Barbara Licklider Katherine Thompson Janette Thompson Cynthia Haynes Jan Wiersema 《Journal of Food Science Education》2018,17(1):8-13
A one‐credit seminar on controversies in food science and human nutrition was a platform to introduce students to learning frameworks for thinking‐like‐a‐scientist. We hypothesized that explicitly engaging students in thinking about their thinking abilities within these frameworks would enhance their self‐perception of scientific thinking, an important general ability for food scientists. Our objectives were to assess thinking‐like‐a‐scientist using a student self‐assessment survey, and analyze their self‐reflections for evidence of such thinking. For students enrolled in one of the offerings of this course among 5 semesters from 2012 to 2014, differences in scores on a survey instrument for thinking‐like‐a‐scientist from the beginning to the end of the course showed gains in self‐assessed abilities (N = 21 to 22 students/semester). In each of the first 2 semesters in which we introduced thinking‐like‐a‐scientist frameworks, students thought they were better at defining problems scientifically by 13% to 14%. In the 3rd course offering, students’ self‐assessment of their abilities to seek evidence improved by 10%. In the 4th and 5th semester course offerings, students’ self‐assessed abilities to develop plans based on evidence improved by 7% to 14%. At the end of each semester, students’ self‐reflections on scientific thinking (N = 20 to 24/semester) included specific reference to asking questions (45% to 65% of reflections) and making plans based on evidence (26% to 50% of reflections). These data support the usefulness of self‐reflection tools as well as specific learning frameworks to help students to think about and practice thinking‐like‐a‐scientist. 相似文献
2.
Learning science through writing: associations with prior conceptions of writing and perceptions of a writing program 总被引:1,自引:0,他引:1
Students in a large undergraduate biology course were expected to write a scientific report as a key part of their course design. This study investigates the quality of learning arising from the writing experience and how it relates to the quality of students’ preconceptions of learning through writing and their perceptions of their writing program that led to their report. Closed‐ended questionnaires investigating student conceptions and perceptions of writing, and approaches to writing, were completed by 121 students. Significant associations were found amongst qualitatively different prior and post conceptions of writing, approaches to writing and achievement. The results of the analyses suggest that the effective support of student experiences of writing reports requires teachers to be aware of the type of conceptions that students bring to their course and the perceptions they hold about the purpose of the writing program in which they are engaged. 相似文献
3.
Students in a college nonscience majors' biology course took tests designed to reveal their conceptions of respiration and photosynthesis before and after course instruction. Even though most students had taken at least a full year of biology, serious misconceptions persisted. Most students gave definitions of respiration, photosynthesis, and food which were markedly different from those generally accepted by biologists. These incorrect definitions were associated with more fundamental misunderstandings about how plants and animals function. Most students could not explain how animal cells use either food or oxygen. They understood plants as vaguely analogous to animals, taking in food through their roots instead of mouths. Previous biology instruction seemed neither to improve student performance on the pretest nor to prepare them to master these conceptions during the course. Course instruction did improve student's understanding, but misconceptions persisted for many students. These results raise fundamental questions about the effectiveness of curriculum and instruction in current high school and college biology courses. 相似文献
4.
Five teachers were interviewed as to their perceptions of the effect of an intervention to teach scientific literacy on learning in subsequent biology courses. The sample consisted of 450 students who had a literacy course in ninth grade and had completed tenth-grade biology. At the end of the academic year the biology teachers were interviewed and asked to compare the biology students who had the literacy course to students they had taught in earlier years. The biology teachers concluded that the literacy course did have an effect on students' subsequent ability to learn biology. The strength of the effect varied according to level of biology. Students had a better understanding of the nature of science and better laboratory and process skills. They were also better at analyzing data. The advanced and intermediate biology students were more creative, more likely to take risks, and engage in hypothetical thinking than other groups of students that the teachers had taught. Although the purpose of the literacy course was to teach literacy skills the advanced students retained a substantial amount of content material that was applicable to biology. 相似文献
5.
Wendy C. Crone Sharon L. Dunwoody Raelyn K. Rediske Steven A. Ackerman Greta M. Zenner Petersen Ronald A. Yaros 《Innovative Higher Education》2011,36(5):291-304
We present results from a course, “Informal Science Education for Scientists: A Practicum,” co-taught to graduate students
in STEM-related fields by a scientist/engineer and a social scientist/humanist. This course provides a structured framework
and experiential learning about informal science education during a semester-long experience. The data collected across six
years of the course (11 ≤ n ≤ 16 for each) provide strong evidence that the course has been effective in encouraging graduate
students in STEM-related fields to feel more skilled at and confident with informal science education. Details are provided
as to how manipulation of the course structure (i.e. making it project-based, emphasizing understanding audiences, stressing
the iterative nature of design, and increasing evaluation research training) influenced the student outcomes. 相似文献
6.
7.
This paper looks at the effect of instruction on pre-service science teachers' conceptions of the scientist. Twenty-six pre-service science teachers involved in a 14-week course were the subjects. The constructivist teaching approach was adopted. The students' preconceptions were the starting point for the teaching. Seven students were selected for in-depth interview to determine the reasons for their positions (change or no change in view at the end of the period). It was found that instruction enhanced better conceptions of the scientist. The pre-test to post-test change scores differed from zero and the difference was significant at the 0·05 level of significance. However, the interview revealed that the changes in conceptions were mediated by the students' life worldviews. We therefore conclude that whereas remediating strategies enhance understanding (comprehension), worldview of the students has a greater effect on meaningful learning (apprehension). 相似文献
8.
Empirical investigations on students’ conceptions of cell biology indicate major misunderstandings of scientific concepts even after thorough teaching. Therefore, the main aim of our research project was to investigate students’ difficulties in learning this topic and to study the impact of learning activities on students’ conceptions. Using the Model of Educational Reconstruction, a four‐phase design was carried out. Firstly, there was the clarification of science subject matter. Secondly, students’ conceptions were investigated, and finally, the learning activities were designed. An evaluation of these learning activities was carried out using five teaching experiments, each with three 9th grade students (15–16 years, Grammar school). Interpretation of students’ “pathways of thinking” and their conceptual change during instruction was framed theoretically by experiential realism. Theoretical framework, methods and outcomes of the study may contribute to a deeper understanding of students’ ways of thinking in the field of cell biology and reveal the process of conceptual development by using well planned learning activities. 相似文献
9.
Understanding the science experiences of successful women of color: Science identity as an analytic lens 总被引:1,自引:1,他引:1
In this study, we develop a model of science identity to make sense of the science experiences of 15 successful women of color over the course of their undergraduate and graduate studies in science and into science‐related careers. In our view, science identity accounts both for how women make meaning of science experiences and how society structures possible meanings. Primary data included ethnographic interviews during students' undergraduate careers, follow‐up interviews 6 years later, and ongoing member‐checking. Our results highlight the importance of recognition by others for women in the three science identity trajectories: research scientist; altruistic scientist; and disrupted scientist. The women with research scientist identities were passionate about science and recognized themselves and were recognized by science faculty as science people. The women with altruistic scientist identities regarded science as a vehicle for altruism and created innovative meanings of “science,” “recognition by others,” and “woman of color in science.” The women with disrupted scientist identities sought, but did not often receive, recognition by meaningful scientific others. Although they were ultimately successful, their trajectories were more difficult because, in part, their bids for recognition were disrupted by the interaction with gendered, ethnic, and racial factors. This study clarifies theoretical conceptions of science identity, promotes a rethinking of recruitment and retention efforts, and illuminates various ways women of color experience, make meaning of, and negotiate the culture of science. © 2007 Wiley Periodicals, Inc. J Res Sci Teach 44: 1187–1218, 2007 相似文献
10.
This article reports on a one-semester Advanced Cell Biology course that endeavors to bridge the gap between gaining basic textbook knowledge about cell biology and learning to think and work as a researcher. The key elements of this course are 1) learning to work with primary articles in order to get acquainted with the field of choice, to learn scientific reasoning, and to identify gaps in our current knowledge that represent opportunities for further research; 2) formulating a research project with fellow students; 3) gaining thorough knowledge of relevant methodology and technologies used within the field of cell biology; 4) developing cooperation and leadership skills; and 5) presenting and defending research projects before a jury of experts. The course activities were student centered and focused on designing a genuine research program. Our 5-yr experience with this course demonstrates that 1) undergraduate students are capable of delivering high-quality research designs that meet professional standards, and 2) the authenticity of the learning environment in this course strongly engages students to become self-directed and critical thinkers. We hope to provide colleagues with an example of a course that encourages and stimulates students to develop essential research thinking skills. 相似文献
11.
Joseph E. Ireland James J. Watters Jo Brownlee Mandy Lupton 《Journal of Science Teacher Education》2012,23(2):159-175
This study explored practicing elementary school teacher’s conceptions of teaching in ways that foster inquiry-based learning
in the science curriculum (inquiry teaching). The advocacy for inquiry-based learning in contemporary curricula assumes the
principle that students learn in their own way by drawing on direct experience fostered by the teacher. That students should
be able to discover answers themselves through active engagement with new experiences was central to the thinking of eminent
educators such as Pestalozzi, Dewey and Montessori. However, even after many years of research and practice, inquiry learning
as a referent for teaching still struggles to find expression in the average teachers’ pedagogy. This study drew on interview
data from 20 elementary teachers. A phenomenographic analysis revealed three conceptions of teaching for inquiry learning
in science in the elementary years of schooling: (a) The Experience-centered conception where teachers focused on providing
interesting sensory experiences to students; (b) The Problem-centered conception where teachers focused on engaging students
with challenging problems; and (c) The Question-centered conception where teachers focused on helping students to ask and
answer their own questions. Understanding teachers’ conceptions has implications for both the enactment of inquiry teaching
in the classroom as well as the uptake of new teaching behaviors during professional development, with enhanced outcomes for
engaging students in Science. 相似文献
12.
Teaching Cell Biology to Nonscience Majors Through Forensics, or How to Design a
Killer Course 下载免费PDF全文
下载免费PDF全文 Laura Arwood 《CBE life sciences education》2004,3(2):131-138
Nonscience majors often do not respond to traditional lecture-only biology
courses. However, these students still need exposure to basic biological
concepts. To accomplish this goal, forensic science was paired with compatible
cell biology subjects. Several topics such as human development and molecular
biology were found to fulfill this purpose. Another goal was to maximize the
hands-on experience of the nonscience major students. This objective was
fulfilled by specific activities such as fingerprinting and DNA typing. One
particularly effective teaching tool was a mock murder mystery complete with a
Grand Jury trial. Another objective was to improve students'' attitudes
toward science. This was successful in that students felt more confident in
their own scientific abilities after taking the course. In pre/post tests,
students answered four questions about their ability to conduct science. All
four statements showed a positive shift after the course (p values
ranging from .001 to .036, df = 23; n = 24). The emphasis
on experiential pedagogy was also shown to increase critical thinking skills. In
pre/post testing, students in this course significantly increased their
performance on critical thinking assessment tests from 33.3% correct to
45.3% (p = .008, df = 4; n =
24). 相似文献
13.
The Student Scientist Partnership introduces students to hands-on, minds-on science and provides them an opportunity to participate in a program that is real and important, and also introduces the student to the rigor of science through the focus on data quality. The student has the opportunity to experience and learn the Scientific Method, not just memorize it, to stimulate creative thinking, inquiry based learning, and many other key components of the educational objectives. The scientist should provide skill appropriate scientific inquiry tools that the student uses to help them improve the quality of their data and to understand the science concept being addressed. By making the measurements suggested, and establishing the quality of their data, the student begins the journey of understanding scientific research. The scientist not only uses the student-generated data in their on-going research activities, but also provides higher level information products back to the student. Ultimately, it must be clearly remembered that there are two important but quite different objectives for both the student and the scientist. For the student, the primary objective is the generation of the knowledge of science, while, for the research scientist, the primary objective is the generation of scientific knowledge. 相似文献
14.
This study aims to compare girls' performance with that of their boy peers, in a special program called a “research class.” Eighteen eleventh-grade students who excelled in math and science volunteered for a special research class in biology. The program consisted of three supplemental hours of biology per week at school, plus one full day per week at a research institute. At the institute the students were required to conduct individual research projects under the guidance of a scientist as well as the supervision of their biology teacher. The data about the participating students was collected through qualitative methods. Nonparticipant observations were conducted, primarily in the classroom and less frequently at the research institute, over a long period of time. These observations yielded information regarding each gender's quality of work. Following these observations, all of the participating adults and students were interviewed, and questionnaires were completed by the students. The main findings of the study indicated that the boys were significantly more active in classroom discussions than were the girls. This observation was reconfirmed by an analysis of verbal interventions in classroom discussions. However, in both the teacher's evaluation and the students' self-evaluation of their achievements, the girls' ratings were at least as high as the boys, with an average of 9 on a scale of 10. Moreover, the scientists indicated in their evaluations that the girls exhibited ability, intellectual curiosity, and a sense of responsibility, and were definately as able as were the boys. In other words, the vociferous monopoly of the boys during classroom discussion turns out to be relatively insignificant when examining the more covert qualities of the participating male and female students. 相似文献
15.
Liliana Milkova Colette Crossman Stephanie Wiles Taylor Allen 《CBE life sciences education》2013,12(4):687-700
An activity involving analysis of art in biology courses was designed with the goals of piquing undergraduates’ curiosity, broadening the ways in which college students meaningfully engage with course content and concepts, and developing aspects of students’ higher-level thinking skills, such as analysis, synthesis, and evaluation. To meet these learning outcomes, the activity had three key components: preparatory readings, firsthand visual analysis of art during a visit to an art museum, and communication of the analysis. Following a presentation on the methodology of visual analysis, students worked in small groups to examine through the disciplinary lens of biology a selection of approximately 12 original artworks related in some manner to love. The groups then developed and presented for class members a mini-exhibition of several pieces addressing one of two questions: 1) whether portrayals of love in art align with the growing understanding of the biology of love or 2) whether the bodily experience of love is universal or, alternatively, is culturally influenced, as is the experience of depression. Evaluation of quantitative and qualitative assessment data revealed that the assignment engaged students, supported development of higher-level thinking skills, and prompted meaningful engagement with course material. 相似文献
16.
Teaching students how to conduct authentic scientific inquiry is an essential aspect of recent science education reform efforts.
Our National Science Foundation-funded GK-12 program paired science graduate students—fellows—with secondary science teachers
in order to enhance inquiry-based instruction. This research examined the roles of the fellows, teachers, and school culture
in the implementation of inquiry and the fellows’ conceptions of classroom inquiry versus that in their own research. Qualitative
data were collected for two academic years. Overall, the classrooms shifted toward a more inquiry-oriented approach over the
academic year. Several aspects of school culture influenced inquiry implementation. Fellows described their research as similar
in overall structure but less constrained by known concepts, less guided by mentors, and more in-depth than that of secondary
school students. The teacher-fellow scientist partnership is a potentially effective professional development model to create
positive and lasting change within the science classroom. 相似文献
17.
Undergraduate biology education is often viewed as being focused on memorization rather than development of students’ critical-thinking abilities. We speculated that open-note testing would be an easily implemented change that would emphasize higher-order thinking. As open-note testing is not commonly used in the biological sciences and the literature on its effects in biology education is sparse, we performed a comprehensive analysis of this intervention on a primary literature–based exam across three large-enrollment laboratory courses. Although students believed open-note testing would impact exam scores, we found no effect on performance, either overall or on questions of nearly all Bloom’s levels. Open-note testing also produced no advantage when examined under a variety of parameters, including research experience, grade point average, course grade, prior exposure to primary literature–focused laboratory courses, or gender. Interestingly, we did observe small differences in open- and closed-note exam performance and perception for students who experienced open-note exams for an entire quarter. This implies that student preparation or in-test behavior can be altered by exposure to open-note testing conditions in a single course and that increased experience may be necessary to truly understand the impact of this intervention. 相似文献
18.
An analysis of students’ conceptions on climate change shows a great confusion on key aspects of global warming. Even after instruction students often hold conceptions that differ from scientists’ conceptions. Student’s conceptions on global warming were collected in a reanalysis of 24 studies on everyday concepts of global warming as well as in an own interview study with 35 18-year-old students from German grammar schools. Climate-scientists conceptions were analysed from textbooks and research reports in a literature study. All data were analysed by systematic metaphor analysis and qualitative content analysis. Experientialism as a theory of metaphor provided insight in the process of understanding. The analysis of conceptions by experientialism shows that students and scientists have different metaphorical conceptions of global warming – but both refer to the same schemata. These schemata in mind we categorised the conceptions of global warming. Hereby we identified different thinking patterns in students’ and scientists’ conceptions. Following the model of educational reconstruction we took the metaphorical conceptions as a starting point for the development of learning environments. By uncovering the – mostly unconsciously – employed schemata, we gave students access to their metaphorical conceptions and let them reflect on their mental models. 相似文献
19.
Malcolm G. Eley 《Higher Education》2006,51(2):191-214
Teachers’ conceptions of teaching, and broad approaches to teaching reported by teachers are both commonly found to range
from teaching as information transmission, through to teaching as supporting students’ own knowledge constructions. Further,
conceptions and approaches have been found to correlate, suggesting that there might be some functional relationship between
conceptions and actual teaching practices. But in teacher conception research, participants are commonly asked in interview
to reflect on teaching generally, and not to report on particular teaching episodes. The conceptions reported might thus actually
be post hoc reflections on past experience, and not indications of detailed functional decision steps. In work reported here, teachers
described their reasoning when planning recent teaching episodes. Were higher level conceptions of teaching directly involved
in these teachers’ detailed planning, then some vestige of that might be expected to manifest. While student-centredness varied,
teacher thinking during actual planning seemed more about contextually localised models of what students might do, than about
evoking general conceptions of teaching. The constraints that this finding places on the interpretation of conceptions of
teaching, and possible implications for teacher development, are discussed. 相似文献
20.
Previous research on conceptions of teaching comes from three distinct areas. The first is based on interviews with students and staff in higher education, the second involves the investigation of the conceptions and beliefs of schoolteachers, while the third derives from more general consideration of the nature of conceptions themselves. The empirical study reported here drew on these differing research areas to distinguish between beliefs and conceptions about good teaching and to explore their possible origins. The data came from student teachers, but the findings contribute to current thinking about conceptions of teaching in higher education. Bringing the empirical findings together with the three areas of previous research enables a more complete concept map to be drawn to summarise what may underlie the notion of “good teaching”. 相似文献