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Articles 1 - 9 of 9
Full-Text Articles in Science and Mathematics Education
The Exploration Of Biochemistry Laboratory Activity: Study On Higher Education In Mataram, Yunita Arian Sani Anwar, Muti’Ah Muti'ah
The Exploration Of Biochemistry Laboratory Activity: Study On Higher Education In Mataram, Yunita Arian Sani Anwar, Muti’Ah Muti'ah
Jurnal Inovasi Pendidikan IPA
As the core of science learning, laboratory work is inseparable from learning chemistry, including biochemistry. However, the implementation of laboratory work needs reconstruction, especially in higher education, so an initial study is needed to understand the problems in laboratory work at universities. This article was a study of the working conditions of the biochemistry laboratory at the University of Mataram. This study included quantitative research with students (N = 250), lab work assistants (N = 36), laboratorium staff (N = 4), and biochemistry lecturers (N = 4) as respondents. Techniques for obtaining data through participatory observation and questionnaires. Supporting data …
Spring 2022 Saturday Seminars Agenda, Shubha Tewari
Spring 2022 Saturday Seminars Agenda, Shubha Tewari
Science and Engineering Saturday Seminars
No abstract provided.
Application And Comparison Of Active Learning Implementation Methods In Biochemistry Education, Dylan Thibaut
Application And Comparison Of Active Learning Implementation Methods In Biochemistry Education, Dylan Thibaut
Honors Undergraduate Theses
Biochemistry has continued to be one of the most complex and important subjects in science education. The purpose of this research is to investigate active learning implementation methods in a Biochemistry I context to determine the most effective means of preparing current science undergraduates. Two Biochemistry I classes over two semesters were analyzed in this study, with class A using a variable active learning schedule and class B using a consistent active learning schedule. Four aspects were analyzed to determine active learning validity: perception of different active learning properties, standardized final exam grades, class grade, and teaching implementation. The consistent …
Approaching Undergraduate Research With Students Who Are Deaf And Hard-Of-Hearing, Austin U. Gehret, Jessica W. Trussell, Lea V. Michel
Approaching Undergraduate Research With Students Who Are Deaf And Hard-Of-Hearing, Austin U. Gehret, Jessica W. Trussell, Lea V. Michel
Journal of Science Education for Students with Disabilities
An undergraduate research experience can provide a unique opportunity for students to learn and grow as scientists; when positive, this experience is often transformative and motivates students to pursue science, technology, engineering and mathematics (STEM) graduate degrees or careers. Conversely, negative research experiences can sour a student’s opinion of research, propagate misconceptions of graduate school, and lead to attrition from STEM fields. Negative research experiences can be equally devastating for faculty mentors and may result in reluctance to mentor future research students. Using a mentoring approach that has traditionally translated to positive research experiences for hearing students may not be …
Becoming A Scientist: Using First-Year Undergraduate Science Courses To Promote Identification With Science Disciplines, Chloe Ruff, Brett D. Jones
Becoming A Scientist: Using First-Year Undergraduate Science Courses To Promote Identification With Science Disciplines, Chloe Ruff, Brett D. Jones
Education Faculty Publications
In this qualitative study, we examined how two professors (a physicist and biochemist) of first year college students perceived their students’ development of identification in biochemistry or physics and how they actively supported this development. The professors described students who entered college with different levels of domain identification and different expectations for their college science experience depending upon whether they were in a biochemistry or physics major. Although neither professor was familiar with research related to the concept of domain identification, their beliefs about their students’ identification and academic support strategies generally aligned with the Osborne and Jones (2011) model …
“Analyze, Acquire, Apply, And Write” As A New Learning Model In Science, Jeong Choe
“Analyze, Acquire, Apply, And Write” As A New Learning Model In Science, Jeong Choe
Jeong Choe
I have developed a new teaching and learning model called AAAW, which stand for Analyze, Acquire, Apply and Write. This model grows from action research and unique experience in teaching a biochemistry course to high school students who are talented in math and science. In this model, students first "Analyze" lab data to generate questions that lead them to "Acquire" background knowledge. Students then go back to the data and "Apply" their new knowledge to better understand the data. Finally, students "Write" about the connections they make from their reading, data analysis, and application of the data. The rationale behind …
“Analyze, Acquire, Apply, And Write” As A New Learning Model In Science, Jeong Choe
“Analyze, Acquire, Apply, And Write” As A New Learning Model In Science, Jeong Choe
Faculty Publications & Research
I have developed a new teaching and learning model called AAAW, which stand for Analyze, Acquire, Apply and Write. This model grows from action research and unique experience in teaching a biochemistry course to high school students who are talented in math and science. In this model, students first "Analyze" lab data to generate questions that lead them to "Acquire" background knowledge. Students then go back to the data and "Apply" their new knowledge to better understand the data. Finally, students "Write" about the connections they make from their reading, data analysis, and application of the data. The rationale behind …
Developing Transfer Skills In A Biochemistry Class, Jeong V. Choe
Developing Transfer Skills In A Biochemistry Class, Jeong V. Choe
Jeong Choe
Students seem to struggle with transferring prior knowledge if the new problem they are given is in a different form from the way they learned the material. The process of transfer can be identified by four components: 1) recognizing the similarity between the old and new contexts; 2) identifying the potential of a certain skill or concept that has worked in the past, to give solutions to new problematic situations; 3) mental testing of the application of the potential solution; and 4) an attempt to apply the skill or concept to a new context (Georghiades 2000). These four components are …
Developing Transfer Skills In A Biochemistry Class, Jeong V. Choe
Developing Transfer Skills In A Biochemistry Class, Jeong V. Choe
Faculty Publications & Research
Students seem to struggle with transferring prior knowledge if the new problem they are given is in a different form from the way they learned the material. The process of transfer can be identified by four components: 1) recognizing the similarity between the old and new contexts; 2) identifying the potential of a certain skill or concept that has worked in the past, to give solutions to new problematic situations; 3) mental testing of the application of the potential solution; and 4) an attempt to apply the skill or concept to a new context (Georghiades 2000). These four components are …