Representing energy. I. Representing a substance ontology for energy
The nature of energy is not typically an explicit topic of physics instruction. Nonetheless, verbal and graphical representations of energy articulate models in which energy is conceptualized as a quasimaterial substance, a stimulus, or a vertical location. We argue that a substance ontology for ene...
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| Format: | Article |
| Language: | English |
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American Physical Society
2012-10-01
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| Series: | Physical Review Special Topics. Physics Education Research |
| Online Access: | http://doi.org/10.1103/PhysRevSTPER.8.020114 |
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doaj-79161c0b29734d978bfd289af8a756a12020-11-25T01:38:00ZengAmerican Physical SocietyPhysical Review Special Topics. Physics Education Research1554-91782012-10-018202011410.1103/PhysRevSTPER.8.020114Representing energy. I. Representing a substance ontology for energyRachel E. ScherrHunter G. CloseSarah B. McKaganStamatis VokosThe nature of energy is not typically an explicit topic of physics instruction. Nonetheless, verbal and graphical representations of energy articulate models in which energy is conceptualized as a quasimaterial substance, a stimulus, or a vertical location. We argue that a substance ontology for energy is particularly productive in developing understanding of energy transfers and transformations. We analyze classic representations of energy—bar charts, pie charts, and others—to determine the energy ontologies that are implicit in those representations, and thus their affordances for energy learning. We find that while existing representations partially support a substance ontology for energy and thus the learning goal of energy conservation, they have limited utility for tracking the flow of energy among objects.http://doi.org/10.1103/PhysRevSTPER.8.020114 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Rachel E. Scherr Hunter G. Close Sarah B. McKagan Stamatis Vokos |
| spellingShingle |
Rachel E. Scherr Hunter G. Close Sarah B. McKagan Stamatis Vokos Representing energy. I. Representing a substance ontology for energy Physical Review Special Topics. Physics Education Research |
| author_facet |
Rachel E. Scherr Hunter G. Close Sarah B. McKagan Stamatis Vokos |
| author_sort |
Rachel E. Scherr |
| title |
Representing energy. I. Representing a substance ontology for energy |
| title_short |
Representing energy. I. Representing a substance ontology for energy |
| title_full |
Representing energy. I. Representing a substance ontology for energy |
| title_fullStr |
Representing energy. I. Representing a substance ontology for energy |
| title_full_unstemmed |
Representing energy. I. Representing a substance ontology for energy |
| title_sort |
representing energy. i. representing a substance ontology for energy |
| publisher |
American Physical Society |
| series |
Physical Review Special Topics. Physics Education Research |
| issn |
1554-9178 |
| publishDate |
2012-10-01 |
| description |
The nature of energy is not typically an explicit topic of physics instruction. Nonetheless, verbal and graphical representations of energy articulate models in which energy is conceptualized as a quasimaterial substance, a stimulus, or a vertical location. We argue that a substance ontology for energy is particularly productive in developing understanding of energy transfers and transformations. We analyze classic representations of energy—bar charts, pie charts, and others—to determine the energy ontologies that are implicit in those representations, and thus their affordances for energy learning. We find that while existing representations partially support a substance ontology for energy and thus the learning goal of energy conservation, they have limited utility for tracking the flow of energy among objects. |
| url |
http://doi.org/10.1103/PhysRevSTPER.8.020114 |
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