In H-atom electron jumps form 3 to 2 energy level, the energy released is

A spectral line obtained when an electron jumps from sixth energy level to first energy level in spectrum of hydrogen atom falls in:

Calculate the ionisation energy of hydrogen atom as well as energy needed to promote its electron from first energy level to third energy level

The binding energy/nucleon of deuteron (""_(1)H^(2)) and the helium atom (""_(2)He^(4)) are 1.1 MeV and 7MeV respectively. If the two deuteron atoms fuse to form a single helium atom, then the energy released is

when a certain energy is applied to an hydrogen atom, an electron jumps from n =1 to n = 3 state. Find (i) the energy absorbed by the electron. (ii) wavelength of radiation emitted when the electron jump back to its initial state. ( Energy of electron in first orbit = - 13.6 eV , Planck's constant = 6.6225 xx10^(-34) Js, Charge on electron = 1.6 xx10^(-19) C, speed of light in vacuum = 3xx10^(8)ms^(-1)

When electron jumps from n = 4 level to n = 1 level , the angular momentum of electron changes

When a microgram of matter is converted into energy, the amount of energy released will be

It is found that an electron in an hydrogen atom requires +13.6 ev of energy to jump from the innermost level to the outermost energy level .Calculate the radius of the innermost orbit and the velocity in that orbit .

When the electron jumps from a level n=4 to n=1 , momentum of the recoiled hydrogen atom will be