An electron in a hydrogen atom in its ground state absorbs energy equal to ionisation energy of `Li^(+2)`. The wavelength of the emitted electron is :-

An electron in a hydrogen atom in the ground state absorbs energy equal to 1.5 time the energy required to remove the electron completely from the hydrogen atom. Calculate the velocity and wavelength of the electron emitted.

A hydrogen atom is in its ground state absorbs a photon. The maximum energy of such a photon is:

In hydrogen atom, an electron in its ground state absorbs two times of the energy as if requires escaping (13.6 eV) from the atom. The wavelength of the emitted electron will be

In hydrogen atom, an electron in its ground state absorbs two times of the energy as if requires escaping (13.6 eV) from the atom. The wavelength of the emitted electron will be

An electron in a hydrogen atom in its ground state absorbs 1.5 times as much energy as the minimum require for it to escape from the atom. What is the velocity of the emitted electron?

An electron in a hydrogen atom in its ground state absorbs 1.5 times as much energy as the minimum required for it to escape from the atom. What is the velocity of the emitted electron?

An electron in a hydrogen atom in its ground state absorbs 1.5 times as much energy as the minimum required for it to escape from the atom. What is the velocity of the emitted electron?

An electron in a hydrogen atom in its ground state absorbs 1.5 times as much energy as the minimum required for it to escape from the atom. What is the velocity of the emitted electron?

The ionisation energy of Li^(2+) atom in ground state is,