login
-
create an account
-
help
AAPT ComPADRE
Events
Collaborate
About
Contact Us
home
»
Detail Page
» Similar Materials
Materials Similar to
Can You Explain This? - Conceptual Exercises for Physics Students
53%
:
Types of explanations students use to explain answers to conceptual physics questions
52%
:
Relationship between students' conceptual knowledge and study strategies-part I: student learning in physics
41%
:
FoilSim II - Student Version
40%
:
Using Large-Scale Classroom Research to Study Student Conceptual Learning in Mechanics and to Develop New Approaches to Learning
40%
:
Implementation of Scientific Community Laboratories and Their Effect on Student Conceptual Learning, Attitudes, and Understanding of Uncertainty
38%
:
Ranking Task Exercises in Physics
37%
:
Probing students' understanding of some conceptual themes in general relativity
37%
:
Changing Scientific Reasoning and Conceptual Understanding in College Students
37%
:
Comparing students' performance on research-based conceptual assessments and traditional classroom assessments
37%
:
Consistency of students' conceptions of wave propagation: Findings from a conceptual survey in mechanical waves
37%
:
Comparing Student Conceptual Understanding of Thermodynamics in Physics and Engineering
37%
:
Student performance on conceptual questions: Does instruction matter?
37%
:
A conceptual physics class where students found meaning in calculations
37%
:
Using conceptual blending to describe how students use mathematical integrals in physics
37%
:
Students as Co-creators: the Development of Student Learning Networks in PeerWise
37%
:
Effects of Argumentation Scaffolds on Student Performance on Conceptual Physics Problems
37%
:
Gender Differences in Student Responses to Physics Conceptual Questions Based on Question Context
37%
:
A study on the impact of real, virtual and comprehensive experimenting on students’ conceptual understanding of DC electric circuits and their skills in undergraduate electricity laboratory
37%
:
Conceptual Understanding of Resistive Electric Circuits Among First-year Engineering Students
