login
-
create an account
-
help
AAPT ComPADRE
Events
Collaborate
About
Contact Us
home
»
Detail Page
» Similar Materials
Materials Similar to
Development and Evaluation of a Quantum Interactive Learning Tutorial on Larmor Precession Of Spin
62%
:
Development, validation and in-class evaluation of a sequence of clicker questions on Larmor precession of spin in quantum mechanics
53%
:
Development of an Interactive Tutorial on Quantum Key Distribution
46%
:
Improving students’ understanding of quantum measurement. II. Development of research-based learning tools
44%
:
Interactive Learning Tutorials on Quantum Mechanics
41%
:
Developing an Interactive Tutorial on a Quantum Eraser
40%
:
Enhancing student learning of two-level quantum systems with interactive simulations
36%
:
Enhancing student visual understanding of the time evolution of quantum systems
34%
:
Developing and evaluating an interactive tutorial on degenerate perturbation theory
32%
:
Developing an interactive tutorial on a Mach-Zehnder Interferometer with single photons
32%
:
Testing Tutorials in Upper-Division: An Example from Quantum Mechanics
31%
:
Energy measurement resources in spins-first and position-first quantum mechanics
31%
:
Investigating student understanding of basic quantum mechanics in the context of time-dependent perturbation theory
31%
:
Development and validation of a sequence of clicker questions for helping students learn addition of angular momentum in quantum mechanics
30%
:
Development and assessment of research-based tutorials on heat engines and the second law of thermodynamics
29%
:
Development and Evaluation of a Large-Enrollment, Active-Learning Physics Curriculum
29%
:
Using the Tutorial Approach to Improve Physics Learning from Introductory to Graduate Level
27%
:
Development and evaluation of large-enrollment, active-learning physical science curriculum
27%
:
Student difficulties with determining expectation values in quantum mechanics
27%
:
Designing, validating, and contrasting conceptual quantum mechanics questions for spin states and spatial wave functions