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Quantum Physics
Unit 1
Classical Physics
Newton's Laws of Motion
Kinematics
Work, Energy, and Power
Unit 2
How Quantum Physics Works
Quantum Superposition
Quantum Entanglement
Wave-Particle Duality
Quantum Tunneling
Quantum Measurement Problem
Unit 3
Applications of Quantum Physics
Quantum Computing
Quantum Cryptography
Quantum Sensing and Imaging
Unit 2 • Chapter 1
Quantum Superposition
Summary
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Concept Check
What is the key principle of Quantum Superposition?
Particles move in one direction
Particles can only be in one state
Particles are stationary
Particles can exist in multiple states simultaneously
How does Quantum Superposition differ from classical physics?
Particles can be observed directly
Allows particles to be in multiple states at once
Particles exist in one state
Particles have fixed positions
Describe a consequence of Quantum Superposition.
Particles follow classical laws
Particles can be isolated individually
Particles have defined properties
Entanglement of particle states
What does the Schrödinger's Cat thought experiment demonstrate?
State of superposition until observed
A cat sleeping peacefully
Quantum particles move randomly
Objects have definite states
How does Quantum Superposition impact quantum computing?
Limited by classical laws
Computers operate sequentially
Computations are slow
Allows for parallel computation
Check Answer
Next
Quantum Entanglement