login
-
create an account
-
help
AAPT ComPADRE
Events
Collaborate
About
Contact Us
home
»
Detail Page
» Similar Materials
Materials Similar to
Student understanding in mechanics: A large population survey
65%
:
Exploring Student Understanding of Energy through the Quantum Mechanics Conceptual Survey
65%
:
Surveying students' understanding of quantum mechanics in one spatial dimension
63%
:
Surveying Students’ Understanding of Quantum Mechanics
58%
:
Student Understanding of Tunneling in Quantum Mechanics: Examining Interview and Survey Results for Clues to Student Reasoning
55%
:
Testing the development of student conceptual and visualization understanding in quantum mechanics through the undergraduate career
54%
:
Student understanding of quantum mechanics
53%
:
Comparing large lecture mechanics curricula using the Force Concept Inventory: A five thousand student study
51%
:
Interactive-Engagement Versus Traditional Methods: A Six-Thousand-Student Survey of Mechanics Test Data for Introductory Physics Courses
51%
:
Examining the construction process: A study of changes in level 10 students' understanding of classical mechanics
49%
:
Improving Students' Understanding of Quantum Mechanics
48%
:
Student evaluation of computer-based instruction in a large university mechanics course
47%
:
Large-scale survey of Chinese precollege students' epistemological beliefs about physics: A progression or a regression?
47%
:
Developing and validating a conceptual survey to assess introductory physics students' understanding of magnetism
46%
:
Students' understanding of direct current resistive electrical circuits
46%
:
The Influence of Student Understanding of Classical Physics When Learning Quantum Mechanics
46%
:
Improving student understanding of addition of angular momentum in quantum mechanics
46%
:
Development and validation of a conceptual survey instrument to evaluate students’ understanding of thermodynamics
45%
:
Improving students' understanding of quantum mechanics by using peer instruction tools
45%
:
Improving students' understanding of quantum mechanics via the Stern–Gerlach experiment