Statement-I : The wavelenght of any radiation belonging to any series ( other than Lyman serise ) is
greater than the wavelenght pf any radiation belonging to Lyman series for all the hydrogen like atoms
Statement -II: Energy difference between two successive energy levels decreases as 'n' increases.

Calculate the wavelenght of radiation emitted , producing a line in Lyman series , when n electron falls freom fourth stationary state in hydrogen atom .

Statement -I : Energy emitted when an electron jump from 5rarr2 (energy level) is less than when an electron jump from 2rarr1 in all 'H' like atom. Statement -II : The|total energy dofference| between 1^(st) & 2^(nd) energy level is greater than that of any two energy level provided level 1 is not part of those two energy levels.

A : wavelength for first line of any series of hydrogen spectrum is biggest among all other lines of the same series . R : Wavelength of spectral line for an electron transition if inversely related to difference in the energy level involved in the transition .

STATEMENT-1: Emitted radiation will fall in visible trange when an electron jump from n=4ton=2 H-atom. STATEMENT-2: Balmer series radiations belong to visible for hydrogen atom only.

STATEMENT-1: Emitted radiation will fall in visible trange when an electron jump from n=4ton=2 H-atom. STATEMENT-2: Balmer series radiations belong to visible for hydrogen atom only.

STATEMENT-1: Emitted radiation will fall in visible trange when an electron jump from n=4ton=2 H-atom. STATEMENT-2: Balmer series radiations belong to visible for hydrogen atom only.