`O^(19)` `:-` `F^(19)` + e + v
In this decay , the rest mass energy of `O^(19)` and `F^(19)` are 17692.33 MeV and 17687.51 MeV respectively . The Q factor of the dacay is

The nucleus of an atom of ._(92)Y^(235) initially at rest decays by emitting an alpha particle. The binding energy per nucleon of parent and dougther nuclei are 7.8MeV and 7.835MeV respectively and that of alpha particles is 7.07MeV//"nucleon" . Assuming the dougther nucleus to be formed in the unexcited state and neglecting its share of energy in the reaction, calculate speed of emitted alpha particle. Take mass of alpha particle to be 6.68xx10^(-27)kg .

19 gm of ice is converted into water at 0^(@)C and 1 atm. The entropies of H_(2)O(s) and H_(2)O(l) are 38.2 and 60 J//"mol " K respectively. The enthalpy change for this conversion is :

Heat of sol^(n) of CuSO_(4) (s) and CuSO_(4) . 5 H_(2) O is 15.9 and 19.3 kJ/mol respectively . Find the heat of hydration of CuSO_(4) (s)

Calculate the binding energy per nucleon for C^(12),N^(14), O^(16) , and comment on their relative magnitudes. Masses of proton and neutron are 1.0078 and 1.0087m_(u) , respectively. (m_(u)=931MeV)

The atomic mass of F^(19) is 18.9984 m_(u) . If the masses of proton and neutron are 1.0078 m_(u) and .0087 m_(u) . Respectively, calculate the binding energy per nucleon (ignore the mass of electrons). (1 m_(u) = 931) MeV)

A moving positron and electron both with kinetic energy 1 Me V annihilate with each other and emits two gamma photons. If the rest mass energy of an electron is 0.51 MeV, the wavelength of each photon is ?

Four charges +q, +q, -q, and -q are placed, respectively, at the corners A,B,C, and D of a square of side a , arranged in the given order. E and F are the midpoints of sides BC and CD , respectively, O is the center of square. The work done in carrying a charge e from O to F is.

Four charges +q, +q, -q, and -q are placed, respectively, at the corners A,B,C, and D of a square of side a , arranged in the given order. E and F are the midpoints of sides BC and CD , respectively, O is the center of square. The work done in carrying a charge e from O to E is.