Statement-1: We can use two photons successively of 1240 Å and 2000 Å wavelength in order to ionise a H-atom from ground state
Statement-2: Sum of the energies of both the photons is greater than IE of H atom

Ground state energy of H-atom is -13.6 eV. The energy needed to ionise H-atom from its second excited state is

A 100 eV electron collides with a stationary helium ion (He^(+)) in its ground state and excites to a higher level. After the collision , He^(+) ion emits two photons in succession with wavelength 1085 Å and 304 Å . Find the principal quantum number of the excite in its ground state and. Also calculate energy of the electron after the collision. Given h = 6.63 xx 10^(-34) J s .

An excited He^(+) ion emits two photons in succession with wavelengths 108.5nm and 30.4 nm, in making a transition to ground state. The quantum number n, corresponding to its initial excited state is (for photon of wavelength lamda energy E=(1240eV)/(lamda("in cm")) , a) n= 4 b) n= 5 c) n= 7 d) n= 6

Statement-1:In compton effect, the scattered photon has wavelength more than the incident photon. Statement-2:Energy and momentum are conserved during the scattering of a photon by an electron.

Statement-1 : Work function of a metal is 8 eV. Two photons each having energy 5 eV can't eject the electron from the metal. and Statement-2 : More than one photon can't collide simultaneously with an electron.

An electron in hydrogen atom after absorbing-an energy photon jumps from energy state n_(1) to n_(2) . Then it returns to ground state after emitting six different wavelengths in emission spectrum.'The energy of emitted photons is either equal to, less than or grater than the absorbed photons: Then n_(1) and n_(2) are:

If the wavelength of photon emitted from an electron jump n=4 to n=2 in a H- like species is 1216 Å then the species is :

Statement-1 : IE_(1) ofN is greater than 0 . Statement-2: N-atom is bigger than O in size.

In a sample of hydrogen atoms, all the atoms exist in two energy levels A and B. A is the ground level and B is some higher energy level. These atoms absorb photons of energy 2.7 eV and attain a higher energy level C.After this, these atoms emit photons of six different energies. Some of these photon energies are higher than 2.7 eV, some equal to 2.7 eV and some are loss than 2.7 eV. The longest wavelength emitted in the radiation spectrum observed is

In a sample of hydrogen atoms, all the atoms exist in two energy levels A and B. A is the ground level and B is some higher energy level. These atoms absorb photons of energy 2.7 eV and attain a higher energy level C.After this, these atoms emit photons of six different energies. Some of these photon energies are higher than 2.7 eV, some equal to 2.7 eV and some are loss than 2.7 eV. The atomic number of these atoms is