login
-
create an account
-
help
AAPT ComPADRE
Events
Collaborate
About
Contact Us
home
»
Detail Page
» Similar Materials
Materials Similar to
The impact of students' epistemological framing on a task requiring representational consistency
40%
:
Student Representational Competence and the Role of Instructional Environment in Introductory Physics
38%
:
Representational task formats and problem solving strategies in kinematics and work
37%
:
Relations between representational consistency, conceptual understanding of the force concept, and scientific reasoning
36%
:
Using Student Notecards as an Epistemological Lens
36%
:
Student difficulties in translating between mathematical and graphical representations in introductory physics
35%
:
Force Concept Inventory-based multiple-choice test for investigating students' representational consistency
35%
:
Student Behavior and Epistemological Framing: Examples from Collaborative Active-Learning Activities in Physics
34%
:
Students’ Consistency of Graphical Vector Addition Method on 2-D Vector Addition Tasks
34%
:
Gender Differences in Learning of the Concept of Force, Representational Consistency, and Scientific Reasoning
33%
:
“So it’s the same equation...”: A blending analysis of student reasoning with functions in kinematics
32%
:
The Use of Multiple Representations and Visualizations in Student Learning of Introductory Physics: An Example from Work and Energy
32%
:
Algebra-Based Students and Vector Representations: Arrow vs. ijk
32%
:
Student conceptual resources for understanding mechanical wave propagation
32%
:
The use of ACER to develop and analyze student responses to expectation value problems
32%
:
Algebra-Based Students & Vectors: Can ijk Coaching Improve Arrow Subtraction?
32%
:
Tracking the referent system to understand students' math modeling processes
32%
:
Arrows as anchors: Conceptual blending and student use of electric field vector arrows
31%
:
Investigating the Influence of Visualization on Student Understanding of Quantum Superposition
30%
:
Consistency of students' conceptions of wave propagation: Findings from a conceptual survey in mechanical waves
