Consider the following changes `A to A^(+) + e^- , E_1` and `A^+ to A^(2+) + e^- : E_2` The energy required to pull out the two electrons are `E_1` and `E_2` respectively. The correct relationship between two energies would be

A rarr A^(+)+e,E_(1) and A^(+) rarr A^(2+)+e,E_(2) . The energy requried to pull out the two electrons are E_(1) and E_(2) respectively. The correct relationship between two energy would be

The energies E_1 and E_2 of two radiations are 25 eV and 50 e V respectively. The relation between their wavelengths, i.e., lamda_1 and lamda_2 will be.

Photon having energy E has the same de Broglie wavelength as that of proton of energy E_1 . The correct relation between E and E_1 is

Two bodies with moment of inertia I_1 and I_2 (I_1 gt I_2) have equal angular momenta. If their kinetic energy of rotation are E_1 and E_2 respectively, then.

It the energy required to eject an electron from an atom is E_(e ) and the energy required to eject a nucleon from a nucleus is E_(n) then

The potential energies of first, second and third Bohr’s orbits of He ^(+) cation are E _(1),E_(2) and E_(3). The correct sequanece of these energies is-

A molecule is described by three Lewis structures having energies E_1 , E_2 , and E_3 , respectively. The energies of these structures follow the order E_1gtE_2gtE_3 , respectively. If the experimental energy of the molecules is E_0 , the resonance energy is