The binding energies of the nuclei A and B are `E_(alpha)and E_(alpha)` respectively. Three atoms of the element B fuse to give one atom of element A and an energy Q is released. Then, `E_(a),E_(b)` Q are relaetd as

The binding energy of nucei X and Y are E_(1) and E_(2) , respectively. Two atoms of X fuse to give one atom of Y and an energy Q is released. Then,

The activation energies for forward and backward reactions are E_f and E_b respectively. If the reaction is exothermic then which is true regarding relation of activation energies?

The magnitude of binding energy of the satellite is E and kinetic energy is K. The ratio E/K is

This binding energy per nucleon for the parent nucleus is E_(1) and that for the daughter nuclei is E_(2) . Then

If the activation energies of the forward and backward reactions of a reversible reaction are E_(a)(f) and E_(a)(b) , respectively. The DeltaE of the reaction is ………..

In hydrogen atom, the energy of second shell e^(Θ

In a hydrogen atom, the binding energy of the electron in the ground state is E_(1) then the frequency of revolution of the electron in the nth orbit is

A molecule may be represented by three structures having energies E_(1), E_(2) and E_(3) , respetively. The energies of these structures follow the order E_(2)ltE_(2)ltE_(1) , respectively. If the experimantal bond energy of the molecule is E_(0) , the resonance energy is :

If the electric lines of force are as shown in the figure and electric intensity at A and B are E_(A) and E_(B) respectively then

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