The following fusion reaction take place `2_1^2Ararr_2^3B+n+3.27` MeV. If 2 kg of `._1^2A` is subjected to the above reaction, the energy released is used to light a 100 W light a lamp, how long will the lamp glow ?

Which of the following reactions take place by S_(N^(2)) reaction?

if in a nuclear fusion reaction, mass defect to 0.3% , then energy released in fusion of 1 kg mass

Following reaction takes place in one step: 2NO +O_(2) + 2NO_(2) How will the rate of above reaction change if the volume of reaction vessel is reduced to 1/3 rd of original volume? Will there be any change in the order of reaction?

Calculate the energy released in the following reaction ._3Li^6 + ._0n^1 to ._2He^4 + ._1H^3

A nuclear fusion reaction is given by ._(1)H^(2)+._(1)H^(2)rarr._(1)He^(3)+._(0)^(1)n + Q ("energy") . If 2 moles of deuterium are fused, then total released energy is

In the reaction 3Ararr2B , rate of reaction +(d[B])/(dt) is equal to :

In the reaction ._1^2 H + ._1^3 H rarr ._2^4 He + ._0^1 n , if the binding energies of ._1^2 H, ._1^3 H and ._2^4 He are respectively a,b and c (in MeV), then the energy (in MeV) released in this reaction is.

In the fusion reaction _1^2H+_1^2Hrarr_2^3He+_0^1n , the masses of deuteron, helium and neutron expressed in amu are 2.015, 3.017 and 1.009 respectively. If 1 kg of deuterium undergoes complete fusion, find the amount of total energy released. 1 amu =931.5 MeV//c^2 .