The total energy of an electron revolving in the second orbit of a hydrogen atom is

The total energy of an electron revolving in the second orbit of hydrogen atom is

The energy of an electron revolving in the first orbit of hydrogen atom is

State Bohr’s postulates for atomic model and using them derive an expression forthe total energy of an electron revolving in a stationary nth orbit of hydrogen atom.

The energy of an electron present in Bohr's second orbit of hydrogen atom is

The energy of an electron present in Bohr's second orbit of hydrogen atom is

(a) The radius of the innermost electron orbit of a hydrogen atom is 5.3 xx 10^(-11) m. Calculate its radius in n =2 orbit. (b) The total energy of an electron in the second excited state of the hydrogen atom is -1.51 eV. Find out its (i) kinetic energy and (ii) potential energy in this state.

Prove that the velocity of the electron revolving in the first orbit is twice to that of the electron revolving in the second orbit of the hydrogen atom.

The total energy of an electron in the nth orbit of the hydrogen atom is proportional to