13) If the wave function that describes a particle in a box "bleeds" outside the box, what can we say about the system? The box has walls that break above a certain energy a) b) The particle is static, i.e. its kinetic energy is zero c) The particle and the box are entangled d) The box is not linear, for example it might be round e) The box is infinitely strong, i.e. it is unbreakable
13) If the wave function that describes a particle in a box "bleeds" outside the box, what can we say about the system? The box has walls that break above a certain energy a) b) The particle is static, i.e. its kinetic energy is zero c) The particle and the box are entangled d) The box is not linear, for example it might be round e) The box is infinitely strong, i.e. it is unbreakable
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![13) If the wave function that describes a particle in a box "bleeds"
outside the box, what can we say about the system?
a) The box has walls that break above a certain energy
b) The particle is static, i.e. its kinetic energy is zero
c) The particle and the box are entangled
d) The box is not linear, for example it might be round
e) The box is infinitely strong, i.e. it is unbreakable
ANSWER:
14) If two operators have the following property
[Â, B] = h
then:
a) They are the position and momentum
b) They are Hermitian
c) They are Hamiltonian
d) They commute
e) They do not commute
ANSWER:
15) The Heisenberg uncertainty principle involves:
a) Operators that commute
b) Operators that do not commute
c) Wave functions that overlap
d) Wave functions that do not overlap
e) The imaginary part of the wave function](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3252c01d-c7eb-4e6c-a848-adf850a3f9ee%2F0191ed8d-6c10-4da6-b02c-7b34045b1fe1%2Fahh6ccq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:13) If the wave function that describes a particle in a box "bleeds"
outside the box, what can we say about the system?
a) The box has walls that break above a certain energy
b) The particle is static, i.e. its kinetic energy is zero
c) The particle and the box are entangled
d) The box is not linear, for example it might be round
e) The box is infinitely strong, i.e. it is unbreakable
ANSWER:
14) If two operators have the following property
[Â, B] = h
then:
a) They are the position and momentum
b) They are Hermitian
c) They are Hamiltonian
d) They commute
e) They do not commute
ANSWER:
15) The Heisenberg uncertainty principle involves:
a) Operators that commute
b) Operators that do not commute
c) Wave functions that overlap
d) Wave functions that do not overlap
e) The imaginary part of the wave function
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