A double charged lithium atom is equivalent to hydrogen whose atomic numer is `3`. The wavelength of required radiation for emitted electron from first to third Bohr orbit in `Li^(++` will be (lonisation energy of hydrogen atom is `13.6 eV`)

A doubly ionized lithium atom is hydrogen like with atomic . number 3. Find the wavelength of the radiation to excite the electron in . Li++ form the first to the third Bohr orbit. The ionization energy of the hydrogen . Atom is 13.6V.

A double ionised lithium atom is hydrogen like with atomic number 3 (i)Find the wavelength of the radiation to excite the electron in Li^(++) from the first to the third bohr orbit (lonisection energy of the hydrogen atom equals 13. 6) (ii) How many spectral lines are observed in the emission spetrum of the above excled system ?

A doubly ionized lithium atom is hydrogen like with atomic number 3. Find the wavelength of the radiation required to excite the electron in Li^(++) from to the third Bohr orbit (ionization energy of the hydrogen atom equals 13.6 eV).

A doubly ionized lithium atom is hydrogen like with atomic number 3 . Find the electron in (Li^(+ +)) from the first to thired Bohr orbit . The ionization energy of the hydrogen atom is 13.6 eV .

The ratio of the energy required to remove an electron from the first three Bohr's orbit of Hydrogen atom is

The ionization potential of hydrogen atom is 13.6 eV. The wavelength of the energy radiation required for the ionization of H-atom

Calculate the energy required to excite an electron in hydrogen atom from the ground state to the next higher state, if the ionsation energy for the hydrogen atom is 13.6 eV .

The wavelength of light emitted from second orbit to first orbits in a hydrogen atom is

Find the wavelength of the emitted radiation,if electron in hydrogen atom jumps from third orbit to second orbit.