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Modern Physics with Specialized Online Physics Exams
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The ‘Muon g-2 Experiment’ is designed to measure:
A. The magnetic moment of the muon
B. The mass of the electron
C. The charge of the proton
D. The wavelength of gamma rays
Answer: The magnetic moment of the muon
The ‘Hawking Radiation’ theory suggests that:
A. Black holes emit radiation due to quantum effects near the event horizon
B. Photons can escape from black holes
C. Electrons can pass through potential barriers
D. Gravitational waves can be detected
Answer: Black holes emit radiation due to quantum effects near the event horizon
The ‘Quantum Computing’ leverages which quantum principle?
A. Superposition and entanglement
B. Wave-particle duality
C. Heisenberg uncertainty
D. Quantum tunneling
Answer: Superposition and entanglement
The ‘Standard Model of Particle Physics’ describes:
A. Fundamental particles and their interactions
B. The curvature of spacetime
C. The quantization of energy levels
D. The behavior of macroscopic objects
Answer: Fundamental particles and their interactions
The ‘Quantum Electrodynamics’ (QED) theory describes:
A. The interaction of photons with charged particles
B. The strong nuclear force
C. The weak nuclear force
D. The gravitational force
Answer: The interaction of photons with charged particles
The ‘Cosmic Microwave Background Radiation’ is a remnant of:
A. The Big Bang
B. Quantum entanglement
C. Stellar evolution
D. Black hole evaporation
Answer: The Big Bang
The ‘Quantum Leap’ refers to:
A. An electron jumping between discrete energy levels
B. The transition of light from wave to particle
C. The absorption of photons by atoms
D. The acceleration of particles in a collider
Answer: An electron jumping between discrete energy levels
The ‘Planck Length’ is a measure of:
A. The smallest measurable length scale in quantum gravity
B. The distance between electrons in an atom
C. The wavelength of visible light
D. The size of atomic nuclei
Answer: The smallest measurable length scale in quantum gravity
The ‘Lorentz Transformation’ equations are fundamental to which theory?
A. Special Relativity
B. General Relativity
C. Quantum Mechanics
D. Electromagnetism
Answer: Special Relativity