A hydrogen-like atom (described by Bohr's model) is observed to emit six wavelengths originating from all possible transitions between a group of levels. These levels have energies between -0.85 eV and -0.544 eV (including both these values). Find the atomic number of the atom.

A hydrogen like atom (described by the Borh model) is observed to emit six wavelength, originating from all possible transitions between a group of levels. These levels have energies between - 0.85 eV and 0.544 eV (including both these values). (a)Find the atomic number of the atom. (b) Calculate the smallest wavelength emitted in these transitions. ( Take, hc = 1240 eV - nm, ground state energy of hydrogen atom =-13.6 eV)

A hydrogen like atom (described by the Bohr model) is observed ot emit ten wavelengths, originating from all possible transition between a group of levels. These levels have energies between - 0.85 eV and -0.544 eV (including both these values). (a) Find the atomic number of the atom. (b) Calculate the smallest wavelength emitted in these transitions. (Take ground state energy of hydrogen atom =- 13.6 eV)

A hydrogen - like atom (described by the Bohr model) is observed to emit six wavelength , originating from all possible transitions between - 0.85 eV and -0.544 eV (inclading bohr these values ) (a) Find the atomic number of the atom (b) Calculate the smallest wavelength emitted in these transitions . (Take hc = 1240) eV - nm , ground state energy of hydrogen atom = 13.6 eV)

A H-like ion is observed to emit six different wavelength originating from all possible transitions between a group of levels. These levels have energies between -0.85 eV (Min) and -0.544 eV (Max) (a) Find atmoic number (z) of element (b) Find quantum number of levels between which transitions occur. (c) Calculate largest wavelength emitted in transitions between the levels.

Draw energy level diagram for hydrogen atom and show the various line spectra originating due to transition between energy levels.

In the emission line spectra of hydrogen atom, how many lines can be accounted for by all possible electron transitions between five lowest energy levels within the atom ?

Three photons originating from excited atomic hydrogen atoms are found to have energies of 0.66 eV , 1.89 eV and 2.55 eV respectively . The minimum no. of atoms that must be present are :

Assuming Bohr's atomic model find (a)largest wavelength in Balmer series, (b)the excitation energy of n=3 level of He^+ atom.