4. Consider a particle bound by an infinite spherically symmetric well potential V(r). Write the wavefunctions of the system for =2. 5. Assume that eight fermions of the same type are confined to a 1-D infinite potential well. If the dimension of the well is 5 fm and the mass of the particle is 940 MeV c², calculate the kinetic energies of these particles.
4. Consider a particle bound by an infinite spherically symmetric well potential V(r). Write the wavefunctions of the system for =2. 5. Assume that eight fermions of the same type are confined to a 1-D infinite potential well. If the dimension of the well is 5 fm and the mass of the particle is 940 MeV c², calculate the kinetic energies of these particles.
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Please explain steps 4 and 5. . I do understand it will be two questions.
Transcribed Image Text:urth energy state (E4)?
4. Consider a particle bound by an infinite spherically symmetric well potential V(r). Write
the wavefunctions of the system for e = 2.
5. Assume that eight fermions of the same type are confined to a 1-D infinite potential well.
If the dimension of the well is 5 fm and the mass of the particle is 940 MeV c², calculate
the kinetic energies of these particles.
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