login
-
create an account
-
help
AAPT ComPADRE
Events
Collaborate
About
Contact Us
home
»
Detail Page
» Similar Materials
Materials Similar to
Understanding and affecting student reasoning about sound waves
58%
:
Student understanding of light as an electromagnetic wave: Relating the formalism to physical phenomena
50%
:
Identifying students’ mental models of sound propagation: The role of conceptual blending in understanding conceptual change
50%
:
Changing Scientific Reasoning and Conceptual Understanding in College Students
50%
:
Consistency of students' conceptions of wave propagation: Findings from a conceptual survey in mechanical waves
49%
:
How Does Technology-Enabled Active Learning Affect Undergraduate Students’ Understanding of Electromagnetism Concepts?
48%
:
Helping students develop an understanding of Archimedes' principle. I. Research on student understanding
48%
:
Student Understanding Of Sound Propagation: Research And Curriculum Development
47%
:
Student understanding of the wave nature of matter: Diffraction and interference of particles
47%
:
Student Understanding of Superposition: Vectors and Wave Functions
45%
:
The object coordination class applied to wave pulses: Analyzing student reasoning in wave physics
45%
:
Student conceptual resources for understanding mechanical wave propagation
45%
:
The Precalculus Concept Assessment: A Tool for Assessing Students’ Reasoning Abilities and Understandings
44%
:
Displacement, velocity, and frames of reference: Students' understanding and some implications for teaching and assessment
44%
:
Investigation of Student Understanding of the Wave-Like Properties of Light and Matter
44%
:
Improving Student Understanding of Coulomb's Law and Gauss's Law
44%
:
Making Sense of How Students Come to an Understanding of Physics: An Example from Mechanical Waves
44%
:
Development of a concept inventory to assess students' understanding and reasoning difficulties about the properties and formation of stars
43%
:
University Physics Students' Conceptualizations of Factors Affecting the Speed of Sound Propagation
43%
:
Improving student understanding of Dirac notation by using analogical reasoning in the context of a three-dimensional vector space