A particle of mass m is subjected to the spherically symmetric attractive square well potential defined by 2. 0 a Find the minimum depth of the potential well needed to have (i) (ii) One bound state of zero angular momentum and Two bound states of zero angular momentum.

A particle of mass m is subjected to the spherically symmetric attractive square well potential defined by 2. 0 a Find the minimum depth of the potential well needed to have (i) (ii) One bound state of zero angular momentum and Two bound states of zero angular momentum.

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Question

Question 2: Quantum Mechanics

A particle of mass m is subjected to the spherically symmetric attractive square well potential
defined by
2.
0 <r<a
V(r) = {-V
r > a
Find the minimum depth of the potential well needed to have
(i)
(ii)
One bound state of zero angular momentum and
Two bound states of zero angular momentum.

Branch of physics that deals with the behavior of particles at a subatomic level.

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