A) Correlation of quantum states between particles
B) Mapping of quantum trajectories
C) Heat dissipation in a closed system
D) Wave interference patterns

A) Werner Heisenberg
B) Erwin Schrödinger
C) Niels Bohr
D) Albert Einstein

A) Graviton
B) Glueball
C) Photon
D) Higgs boson

A) Erwin Schrödinger
B) Max Planck
C) Werner Heisenberg
D) Albert Einstein

A) Observation of only single outcomes in quantum events
B) Relativity of simultaneity
C) Dual nature of particles exhibiting wave-like properties
D) Entropy principle of closed systems

A) Gravitational lensing
B) Wave-particle duality
C) Quantum entanglement
D) Quantum tunneling

A) Non-locality and hidden variables in quantum theory
B) Wave-particle duality
C) Quantum tunneling
D) Entropy principle

A) Challenge to the completeness of quantum mechanics
B) Observer effect
C) Wave-particle duality
D) Quantum tunneling phenomenon

A) Probabilistic outcomes of measurements
B) Waves interfering with each other
C) Quantum correlation between particles that persists regardless of distance
D) Heat transfer in quantum systems

A) Isaac Newton
B) Nikola Tesla
C) Max Planck
D) Hermann Minkowski

A) They are stationary
B) They are moving away from us
C) They are vibrating in place
D) They are moving towards us

A) Wave-particle duality
B) Quantum tunneling
C) Observer effect
D) Correlations between particles that instantaneously influence each other

A) Werner Heisenberg
B) Max Planck
C) Niels Bohr
D) Erwin Schrödinger

A) Plato
B) Aristotle
C) Socrates
D) Democritus

A) Isaac Newton
B) Aristotle
C) Galileo Galilei
D) Albert Einstein

A) Graviton
B) Meson
C) Boson
D) Lepton

A) Acoustics
B) Thermodynamics
C) Electrodynamics
D) Optics

A) Thermodynamics
B) Electrodynamics
C) Quantum Optics
D) Astrophysics

A) Dispersion
B) Diffraction
C) Refraction
D) Reflection