Bohr’s quantum condition is given by, angular momentum, L=

In a hydrogen like ion, nucleus has a positive charge Ze Bohr.s quantization rule is, the angular momentum of an electron about the nucleus l = (nh)/(2pi) , where n is a positive integer If electron goes from ground state to 1^(st) excited state then change in energy of the hydrogen like ion is

Dimensional formula for angular momentum is

Orbital angular momentum depends upon

The magnetic moment vectors mu_(s) and mu_(l) associated with the intrinsie spin angular momentum S and orbital angular momentum l, respectively, of an electron are predicted by quantum theory (and verified expenmentally to a high accuracy) to be given by: mu_(s)=-(e//m) S, mu_(1)=-(e//2m)l Which of these relations is in accordance with the result expected classically? Outline the derivation of the classical result.