01: Choose the correct answer:a) The zero point energy of the 1-dimensional harmonic oscillator is: 1) hw, 2) zero3)-hw..b) The wave function has definite parity when the potential is: 1) symmetric 2) infinite 3) antisymmetric.c) In ô-function potential the bound states are founds when the energy of the particle (E) is: 1) E<0 2) E> 0 3) E-03) L/2n.d) The wavelength associated with a particle in 1-D box of length L is: 1) 2L/n2) L/naye) At boundary condition is always continuous except where: 1) V(x) =2) V(x)=02) n=03) V(x)=constant.3) n=001) n=1f) The zero point energy of the 1-dimensional box occurred with:g) In classically forbidden regions, the wave function behavior is:1) oscillatory 2) decay or grow exponentially.

Harmonic oscillator and potential related quantum mechanics question

Q1: Choose the correct answer: a) The zero point energy of the 1-dimensional harmonic oscillator is: 1) hw, 2) zero 3)=-hw- b) The wave function has definite parity when the potential is: 1) symmetric 2) infinite 3) antisymmetric. c) In ô-function potential the bound states are founds when the energy of the particle (E) is: 1) E<0 2)E> 0 3) E=0 d) The wavelength associated with a particle in 1-D box of length L is: 1) 2L/n 3) L/2n. ay e) At boundary condition, is always continuous except where: 1) V(x) = f) The zero point energy of the 1-dimensional box occurred with: 1)}n=1 g) In classically forbidden regions, the wave function behavior is: 2) L/n 2) V(x)=0 2) n=0 3) V(x)=constant. 3) n=00. 1) oscillatory 2) decay or grow exponentially.

Q1: Choose the correct answer: a) The zero point energy of the 1-dimensional harmonic oscillator is: 1) hw, 2) zero 3)=-hw- b) The wave function has definite parity when the potential is: 1) symmetric 2) infinite 3) antisymmetric. c) In ô-function potential the bound states are founds when the energy of the particle (E) is: 1) E<0 2)E> 0 3) E=0 d) The wavelength associated with a particle in 1-D box of length L is: 1) 2L/n 3) L/2n. ay e) At boundary condition, is always continuous except where: 1) V(x) = f) The zero point energy of the 1-dimensional box occurred with: 1)}n=1 g) In classically forbidden regions, the wave function behavior is: 2) L/n 2) V(x)=0 2) n=0 3) V(x)=constant. 3) n=00. 1) oscillatory 2) decay or grow exponentially.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

01: Choose the correct answer:
a) The zero point energy of the 1-dimensional harmonic oscillator is: 1) hw, 2) zero
3)-hw..
b) The wave function has definite parity when the potential is: 1) symmetric 2) infinite 3) antisymmetric.
c) In ô-function potential the bound states are founds when the energy of the particle (E) is: 1) E<0 2) E> 0 3) E-0
3) L/2n.
d) The wavelength associated with a particle in 1-D box of length L is: 1) 2L/n
2) L/n
ay
e) At boundary condition is always continuous except where: 1) V(x) =
2) V(x)=0
2) n=0
3) V(x)=constant.
3) n=00
1) n=1
f) The zero point energy of the 1-dimensional box occurred with:
g) In classically forbidden regions, the wave function behavior is:
1) oscillatory 2) decay or grow exponentially.

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