Dynamics of Student Learning of Thermodynamics Concepts

Our Goal: Investigate learning difficulties in thermodynamics in both chemistry and physics courses

Initial Hurdle:
 Different approaches to thermodynamics in physics and chemistry

How might this affect physics instruction?

Initial Objectives:
 Students’ understanding  of “state functions” and First Law of Thermodynamics

Physics Diagnostic

Samples of Students’ Answers
(All considered correct)

Results, Fall 1999
[N = 186]

Results, Fall 2000
[N = 188]

Students’ Reasoning on Work Question
[Fall 2000: N = 188]

Of the students who correctly answer that W₁ > W₂ :

Of the students who assert that
 W₁ = W₂ :

Relation Between Answers on Work and Heat Questions

Reasoning for Q₁ = Q₂
[Fall 2000: 43% of  total student sample]

Reasoning for Q₁ = Q₂
[Fall 2000: 43% of  total student sample]

Reasoning for Q₁ > Q₂
[Fall 2000: 40% of total student sample]

Reasoning for Q₁ > Q₂
[Fall 2000: 40% of  total student sample]

Reasoning for Q₁ < Q₂
[Fall 2000: 12% of  total student sample]

Students’ Reasoning on Heat Question
[Fall 2000: N = 188]

Of the students who correctly answer that Q₁ > Q₂ :

Of the students who assert that
 Q₁ = Q₂ :

Responses, Fall 1999 (N = 186)

Responses, Fall 2000 (N = 180)

Responses, 1999-2000 combined (N = 180)

Conclusions from Physics Diagnostic

Conjectures from Physics Diagnostic

Student Understanding of Entropy and the Second Law of Thermodynamics in the Context of Chemistry

Results from Chemistry Diagnostic

Summary