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Student Questions (student + question)

Distribution by Scientific Domains

Education	71%

Selected Abstracts

Sharing our Experiences with Writing-for-Learning Techniques in a Large Introductory Course: The Daily Microtheme

JOURNAL OF FOOD SCIENCE EDUCATION, Issue 2 2002
S.J. Schmidt
ABSTRACT: The Daily Microtheme was an in-class, writing-for-learning assignment during which students script brief (micro) responses to selected questions (themes) pertinent to the lecture topic. The assignment maximized student-thinking time, while minimizing instructor-grading time. The questions posed were designed to help develop cognitive skills, as well as to generate class discussion, summarize lecture highlights, and capture student questions, feedback, and opinions. We observed that the assignment actively engaged the students with the course content, captured their feedback, and encouraged student attendance. The students reported that they felt the assignment was an effective tool for helping them learn the course content and the points associated with the assignment were an incentive for attending class more regularly. [source]

Exploring the use of multiple analogical models when teaching and learning chemical equilibrium

JOURNAL OF RESEARCH IN SCIENCE TEACHING, Issue 10 2005
Allan G. Harrison
This study describes the multiple analogical models used to introduce and teach Grade 12 chemical equilibrium. We examine the teacher's reasons for using models, explain each model's development during the lessons, and analyze the understandings students derived from the models. A case study approach was used and the data were drawn from the observation of three consecutive Grade 12 lessons on chemical equilibrium, pre- and post-lesson interviews, and delayed student interviews. The key analogical models used in teaching were: the "school dance"; the "sugar in a teacup"; the "pot of curry"; and the "busy highway." The lesson and interview data were subject to multiple, independent analyses and yielded the following outcomes: The teacher planned to use the students' prior knowledge wherever possible and he responded to student questions with stories and extended and enriched analogies. He planned to discuss where each analogy broke down but did not. The students enjoyed the teaching but built variable mental models of equilibrium and some of their analogical mappings were unreliable. A female student disliked masculine analogies, other students tended to see elements of the multiple models in isolation, and some did not recognize all the analogical mappings embedded in the teaching plan. Most students learned that equilibrium reactions are dynamic, occur in closed systems, and the forward and reverse reactions are balanced. We recommend the use of multiple analogies like these and insist that teachers always show where the analogy breaks down and carefully negotiate the conceptual outcomes. © 2005 Wiley Periodicals, Inc. J Res Sci Teach 42: 1135,1159, 2005 [source]

Encouraging and analyzing student questions in a large physics course: Meaningful patterns for instructors

JOURNAL OF RESEARCH IN SCIENCE TEACHING, Issue 8 2003
Kathleen A. Harper
In a large introductory physics course, structured weekly journals (weekly reports) regularly encouraged students to ask questions about the material. The resulting questions were collected for one quarter and coded based on difficulty and topic. Students also took several conceptual tests during the quarter. The reports contained more questions than typically observed in a college classroom, but the number of questions asked was not correlated to any measure of conceptual performance. Relationships among different types of questions and performance on these tests were explored. Deeper-level questions that focus on concepts, coherence of knowledge, and limitations were related to the variance in student conceptual achievement. © 2003 Wiley Periodicals, Inc. J Res Sci Teach 40: 776,791, 2003 [source]

Learning from and responding to students' questions: The authoritative and dialogic tension

JOURNAL OF RESEARCH IN SCIENCE TEACHING, Issue 2 2010
Orlando G. Aguiar
Abstract In this study we present an analysis of classroom interactions initiated by students' wonderment questions. Our interest in such events arises from their potential to stimulate active intellectual engagement in classrooms, which can impact upon the subsequent development of the classroom discourse. In investigating this issue we shall address the following research question: How do student questions impact upon the teaching explanatory structure and modify the form of the ongoing classroom discourse, in selected science lessons? From data collected in a Brazilian secondary school we have selected three classroom episodes, with large differences in both the context in which the student's question emerges and in the communicative approach developed in response to it. The analysis, based on the framework proposed by Mortimer and Scott [Mortimer and Scott (2003). Meaning making in secondary science classrooms. Maidenhead: Open University Press], shows that questions made by students are important in providing feedback from students to the teacher, enabling adjustments to the teaching explanatory structure. These adjustments sometimes occur smoothly, at other times with major changes to the features of the classroom discourse, and elsewhere with misunderstanding and disagreement. The data also suggest the need to consider students' intentions and their active participation in the negotiation of both the content and structure of classroom discourse. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47:174,193, 2010 [source]

Learning gains associated with annotation and communication software designed for large undergraduate classes

JOURNAL OF COMPUTER ASSISTED LEARNING, Issue 1 2007
T. L. Wentling
Abstract The purpose of this study was to explore the potential of annotation and communication software (eFuzion) developed for the improvement of students' learning and to determine the effectiveness of the software. eFuzion is designed to be useful in a significantly large classroom by allowing instructors and teaching assistants to provide immediate responses to students' questions and to provide a broader array of options for the lucid presentation of complex concepts. To determine the effectiveness of the software, two groups that took the same course were compared in terms of their learning scores, one group having used the software, the other having not used it. In the three measures of learning, the students who used the software showed significantly higher learning scores than students who did not use it. In addition, students indicated that they felt closer to the instructor and that their understanding of the lecture material was increased by using the software. The results imply that the software has great potential for improving students' learning when it is appropriately used and free of technical difficulties. [source]

Learning from and responding to students' questions: The authoritative and dialogic tension

Student views on the effective teaching of physical examination skills: a qualitative study

MEDICAL EDUCATION, Issue 2 2009
Merel J C Martens
Objectives, The lack of published studies into effective skills teaching in clinical skills centres inspired this study of student views of the teaching behaviours of skills teachers. Methods, We organised focus group discussions with students from Years 1,3 of a 6-year undergraduate medical curriculum. A total of 30 randomly selected students, divided into three groups, took part in two sessions. They discussed what teaching skills helped them to acquire physical examination skills. Results, Students' opinions related to didactic skills, interpersonal and communication skills and preconditions. Students appreciated didactic skills that stimulate deep and active learning. Another significant set of findings referred to teachers' attitudes towards students. Students wanted teachers to be considerate and to take them seriously. This was reflected in student descriptions of positive behaviours, such as: ,responding to students' questions'; ,not exposing students' weaknesses in front of the group', and ,[not] putting students in an embarrassing position in skill demonstrations'. They also appreciated enthusiasm in teachers. Important preconditions included: the integration of skills training with basic science teaching; linking of skills training to clinical practice; the presence of clear goals and well-structured sessions; good time management; consistency of teaching, and the appropriate personal appearance of teachers and students. Conclusions, The teaching skills and behaviours that most facilitate student acquisition of physical examination skills are interpersonal and communication skills, followed by a number of didactic interventions, embedded in several preconditions. Findings related to interpersonal and communication skills are comparable with findings pertaining to the teaching roles of tutors and clinical teachers; however, the didactic skills merit separate attention as teaching skills for use in skills laboratories. The results of this study should be complemented by a study performed in a larger population and a study exploring teachers' views. [source]