1993
DOI: 10.1002/tea.3660300107
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Students' conceptions of the second law of thermodynamics—an interpretive study

Abstract: Thirty-four clinical interviews were conducted with Grade 10 students (15-16 years old) who had received four years of physics instruction. The interview's focus was to understand students' responses from their point of view and not solely from the physicist's angle. The results of the study confirm and deepen, on the one hand, findings from other studies concerning students' severe difficulties in leaming the energy concept, the particle model, and the distinction between heat and temperature. On the other ha… Show more

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Cited by 173 publications
(153 citation statements)
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“…Thus, students holding misconceptions may resist any attempt to change them. Kesidou & Duit (1993) report that the difficulties experienced in differentiating the concepts of energy, heat and temperature from each other continue to be experienced by college students. Though the science concepts are taught scientifically in formal education institutions and explained correctly in textbooks, students may prefer to keep the alternative concepts that are the products of their socio-cultural environments and may show resistance to any conceptual change (Karamustafaoğlu, Özmen & Ayvacı, 2004).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Thus, students holding misconceptions may resist any attempt to change them. Kesidou & Duit (1993) report that the difficulties experienced in differentiating the concepts of energy, heat and temperature from each other continue to be experienced by college students. Though the science concepts are taught scientifically in formal education institutions and explained correctly in textbooks, students may prefer to keep the alternative concepts that are the products of their socio-cultural environments and may show resistance to any conceptual change (Karamustafaoğlu, Özmen & Ayvacı, 2004).…”
Section: Discussionmentioning
confidence: 99%
“…These metaphors were classified considering their frequencies in Table 3. In relation to the concept of temperature, the metaphors developed are associated with thermometer, Celsius and degree as well as heat, sources of heat and affective color of heat and these connotations prove that there are some misconceptions held by the students related to the concepts of heat and temperature (Aydoğan, Güneş & Gülçiçek, 2003;Ericson & Tiberghien, 1985;Gönen & Akgün, 2005;Kesidou & Duit, 1993;McDermott, 2003). For instance, there are some misconceptions in relation to ideas that heat can be measured with a thermometer and temperature can be transferred from one place to another like a form of energy.…”
Section: Metaphors Developed In Relation To the Concept Of Temperaturementioning
confidence: 99%
“…Goldring & Osborne, 1994;Pinto et al, 2005), and the application of energy conservation in biological systems (e.g. Barak et al, 1997;Eisten & Stavy, 1988;Fetherston, 1999;Gayford, 1986;Goldring & Osborne, 1994;Kesidou et al, 1993;Kruger et al, 1992;Linjse, 1990;Mann, 2003;Solomon, 1982;Trumper, 1997). opposite of energy degradation.…”
Section: Previous Studies On Students' Understanding Of Energy Consermentioning
confidence: 99%
“…However, as shown in Table 1, previous research shows that many students do not realise that energy is conserved in biological processes and systems. Kesidou et al (1993) explain that students often reject the idea of energy conservation because it seems to contradict everyday experiences and language usage where energy is often viewed as being produced and consumed, but not conserved. As such it is important to point out here that some students who seem to have erroneous ideas about energy conservation may be influenced by a language problem, and not a conceptual one.…”
Section: Previous Studies On Students' Understanding Of Energy Consermentioning
confidence: 99%
“…Firstly, students' difficulties were analysed. Research results show that students identify work and effort (Driver and Warrington 1985), energy and power (Goldring and Osborne 1994), consider only one of the factors that form part of work and forget the other, identify work and energy (Duit 1984;Driver and Warrington 1985), assign a material character to energy (Duit 1987;Solomon 1985), associate it with movement, activity (Solomon 1983) or processes (Duit 1984;Viglietta 1990), consider that energy can be used up (Kesidou and Duit 1993) or stored (Solomon 1985) since everyday language is impregnated with expressions such as ''consumption of energy'' or ''energy crisis'', attribute gravitational potential energy to a body but not to the interaction between two bodies (Solbes and Tarín 1998), ignore internal energy changes (van Huls and van den Berg 1993), think about heat in terms of a substance (Albert 1978;Erickson 1979Erickson , 1980, and confuse heat and temperature (Arnold 1994;Labur and Niaz 2002). More specifically we identified the following aspects:…”
Section: Previous Research On Students' Explanations Of the Concept Omentioning
confidence: 99%