In Bohr's model of the hydrogen atom, the ratio between the period of revolution of an electron in the orbit of ` n = 1` to the period of revolution of the electron in the orbit `n = 2` is

In Bohr's model of the hydrogen atom the ratio between the period of revolution of an electron in the orbit of n=1 to the period of the revolution of the electron in the orbit n=2 is :- (a). 1 : 2 (b). 2 : 1 (c). 1 : 4 (d). 1 : 8

The period of revolution of an electron in the ground state of hydrogen atom is T. The period of revolution of the electron in the first excited state is

In Bohr model of the hydrogen atom, the lowest orbit corresponds to

In a hydrogen atom, the binding energy of the electron in the ground state is E_(1) then the frequency of revolution of the electron in the nth orbit is

The period of revolution of a satellite in an orbit of radius 2R is T. What will be its period of revolution in an orbit of radius 8R ?

Determine the frequency of revolution of an electron in the second Bohr orbit in hydrogen atom

In Bohr.s model of hydrogen atom, radius of the first orbit of an electron is r_(0) . Then, radius of the third orbit is:

In the Bohr model of the hydrogen atom, the ratio of the kinetic energy to the total energy of the electron in a quantum state n is ……..

In the Bohr model of the hydrogen atom, the ratio of the kinetic energy to the total energy of the electron in a quantum state n is ……..

The number of revolutions/sec made by an electron in lind orbit is 8 times of the number of revolutions/sec made by an electron in n^"th" orbit. Give the value of "n".