1. Having two commutative operators in quantum mechanics, means that, the corresponding physical quantities a) can be determined in the same time. b) each of them is independent on the other one. c) can be determined in terms of each other. d) can't be determined in the same time. 2. The meaning of the energy quantization in quantum mechanics is a) The energy is conserved. b) The energy can take any value. c) The energy could take only half-integer values of a certain quantity. d) The energy could take only integer values of a certain quantity.

icon
Related questions
Question
Choose the correct answer from each of the following:
1. Having two commutative operators in quantum mechanics, means that, the
corresponding physical quantities
a) can be determined in the same time.
b) each of them is independent on the other one.
c) can be determined in terms of each other.
d) can't be determined in the same time.
2. The meaning of the energy quantization in quantum mechanics is
a) The energy is conserved.
b) The energy can take any value.
c) The energy could take only half-integer values of a certain quantity.
d) The energy could take only integer values of a certain quantity.
Transcribed Image Text:Choose the correct answer from each of the following: 1. Having two commutative operators in quantum mechanics, means that, the corresponding physical quantities a) can be determined in the same time. b) each of them is independent on the other one. c) can be determined in terms of each other. d) can't be determined in the same time. 2. The meaning of the energy quantization in quantum mechanics is a) The energy is conserved. b) The energy can take any value. c) The energy could take only half-integer values of a certain quantity. d) The energy could take only integer values of a certain quantity.
Expert Solution
steps

Step by step

Solved in 2 steps

Blurred answer
Similar questions