An atom absorb `2eV`energy and is excited to next energy state . The wavelength of light absorbed will be

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 :-

The electron in the first excited state (n_(1)=2) of H - atom absorbs a photon and is further excited to n^(th) shell. The de-Broglie wavelength of the electron in this excited state is 1340 pm. Find the value of n .

In germanium the energy gap is about 0.75 eV. The wavelength of light which germanium starts absorbing is

The energy required to excite a hydrogen atom from n= 1 to n = 2 energy state 10.2 eV. What is the wavelength of the radiation emitted by the atom when it goes back to Its ground state ?

An electron , in a hydrogen-like atom, is in excited state. It has a total energy of -3.4 eV. Calculate (a) the kinetic energy and (b) the de Broglie wavelength of the electron.

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

If the ionization energy for the hydrogen atom is 13.6 eV , the energy required to excite it from the ground state to the next higher state is nearly

A hydrogen - like neutral species in some excited state A, on absorbing a photon of energy 3.066 eV get excited to a new state B. When the electron from state B returns back, photons of a maximum ten different wavelengths can be observed in which some photons are of energy smaller than 3.066 eV, some are of equal energy and only four photons are having energy greater than 3.066 eV. The ionization energy of this atom is

A ground state hydrogen atom has an energy of -13.6 eV. If the electron is excited to the energy state n=3 , its energy ebcomes

A hydrogen atom in a state of binding energy 0.85 eV makes a transition to a state of excitation energy of 10.2 eV . Find the energy and wavelength of photon emitted.