When an electron revolving in the ground state of a hydrogen atom jumps to its `2^"nd"` excited state.

The energy required to excite an electron from the ground state of hydrogen atom to the first excited state, is

An electron is in the ground state of a hydrogen atom. A photon is absorbed by the atom and the electron is excited to the n= 2 state. What is the energy in eV of the photon?

The orbital velocity of the electron in the ground state of hydrogen atom is v. What will be its orbital velocity when excited to the energy state= -0.544 eV ?

The area of the electron orbit for the ground state of hydrogen atom is A.What will be the area of the electron orbit corresponding to the first excited state ?

In a hydrogen atom , If the energy of electron in the ground state is -x eV ., then that in the 2^(nd) excited state of He^(+) is

When an electron in a hydrogen atom makes a transition from 2^("nd") excited state to ground state. It emits a photon of frequency f.The frequency of photon emitted when an electron of Li^("++") makes a transition from 1^("st") excited state to ground state is :