Journal of Korean Elementary Science Education (한국초등과학교육학회지:초등과학교육)
- Volume 23 Issue 2
- /
- Pages.131-140
- /
- 2004
- /
- 1598-3099(pISSN)
- /
- 2733-8436(eISSN)
Relationship between Pre-service Teachers에 Misconceptions and Understandings of Ideal Conditions about Heat and Temperature
교육대학생의 열과 온도에 대한 오개념과 이상조건 이해의 관계
Abstract
Many idealizations and ideal conditions in physics have been an important role in understanding of the basic physics concepts and in solving physics problems. The purpose of this study was to explore the relationships of pre-service teachers' misconception of heat with their understanding of the ideal conditions involved in solving problems of heat and temperature. Test instruments were composed of two parts. One part was asked to answer the heat conceptions, the other to write statements in relations to ideal condition hidden in the process of heat problems solving. For this study, pre-service teachers who are in four major courses in the University of Education in a local city were selected and total numbers of pre-service teachers were 108 students. The framework was developed for classifying pre-service teachers response of open items of ideal conditions of heat domains. According to the framework, each types of response were coded, analyzed and processed with a SPSS/PC program. The results are as the followings. In the heat conceptions, most of students showed correct response, and there was no significant differences between major courses. In understanding of ideal conditions, students' responses of "idealized condition relevant to problem" showed 65.2% of them, and "not relevant idealized conditions" 15.5%, and no response 12.2%. In the 15.5% of students "not relevant idealized conditions", 10.5% of them did not explained correctly conditions, just simply 2.7% stated the laws in physics or formula, 1.6% generally, but irrelevantly described the idealized conditions. More importantly pre-service teachers showed very weak correlation between heat conception and understanding of ideal condition. Although we concluded there were no significant relationships of heat conception in understanding of ideal conditions in thermodynamics domain, these suggest that many other factors may influence understanding of ideal conditions in physics.