In the mass of `""^(228)Thto""^(224)Ra+alpha` : Atomic mass of `""^(228)Th` is 228.0287u `""^(228)Ra` is `224.0202:""^(4)He` is 4.0026u. What is Q value of reaction (approximately)

How much energy is released in the following reaction ? ""^(7)Li +p rarr alpha + alpha Atomic mass of ""^(7)Li = 7.0160 u and that of ""^(4)He = 4.0026 u .

The kinetic energy of alpha - particles emitted in the decay of ""_(88)Ra^(226) into ""_(86)Rn^(222) is measured to be 4.78 MeV. What is the total disintegration energy or the 'Q - value of this process ?

Calculate the Q-value of the fusion reaction ""^(4)He + ""^(4)He = ""^(8)Be In such a fusion energetically favorable? Atomic mass of ""^(8)Be is 8.0053 u and that of He is 4.0026 u.

Find the Q value of the reaction p+""^(7)Li rarr ""^(4)He+""^(4)He . Determine whether the reaction is exothermic or endothermic . The atomic mass of ""^(1)H, ""^(4)He and ""^(7)Li are 1.007825 u, 4.002603 u and 7.016004 u respectively

Bombardment of lithium with protons gives rise to the following reaction : ._(3)^(7)Li + ._(1)^(1)H rarr 2[._(2)^(4)He]+Q . Find the Q - value of the reaction. The atomi mases of lithium, proton and helium are 7.016u, 1.0084 and 4.004 u respectively.

If B.E. per nucleon of B 11 ,(the atomic mass of B-11 is 11.00931 u). , is (0.1 xx y) approximately , then what is the value of 'y'

We are given the following atomic masses : ._(92)^(238)U = 238.05079 u " " ._(2)^(4)He=4.00260 u ._(90)^(234)Th=234.04363u " " ._(1)^(1)H=1.00783 u ._(91)^(237)Pa=237.05121 u Here the symbol Pa is for the element protactinium (Z = 91) . Calculate the energy released during the alpha decay of ._(92)^(238)U .