Consider the nuclear reaction
`._(3)^(7)Li+._(1)^(1)Hrarr2._(2)^(4)He`
The relevant atomic masses are:
`.^(7):7.018u,.^(1)H:1.008u, .^(4)He:4.004u`.
One gram of `.^(1)H` is compltely consumed in the reaction along with sufficient amount of `.^(7)Li`. Find energy released.

Balance the following nuclear reactions: a. ._(3)Li^(7) + ._(0)n^(1) rarr 2 ._(2)He^(4) + ? b. ._(42)Mo^(94) + ._(1)H^(2) rarr ._(0)n^(1) + ?

Balance the following nuclear reactions: a. ._(3)Li^(7) + ._(0)n^(1) rarr 2 ._(2)He^(4) + ? b. ._(42)Mo^(94) + ._(1)H^(2) rarr ._(0)n^(1) + ?

A._(7)^(14)N nucleus, when bombarded by ._(2)^(4)He , converts into ._(8)^(17)O accoring to the following reaction. ._(7)^(14)N+._(2)^(4)Herarr._(8)^(17)O+._(1)^(1)H Atomic masses are: .^(14)N:14.003u,.^(4)He:4.003u,.^(17)O:16.999u,.^(1)H:1.008u (a) Find the Q value of the reactions (b) Assume that a .^(4)He nucleus collides with a free .^(14)N nucleus originally at rest. Calculate the minimum kinetic energy (k_(0)) that .^(4)He must have so as to cause this reaction. (c) If the .^(17)O nucleus has an excitation energy of 1.0 MeV, find the minimum kinetic energy (k_(0)) that .^(4)He must have. [Take 1u=930MeV//c^(2) ]

Calculate the energy released in MeV during the reaction ._(3)^(7)Li + ._(1)^(1)H to 2[._(2)^(4)He] if the masses of ._(3)^(7)Li, ._(1)^(1)H and ._(2)H_(4)He are 7.018, 1.008 and 4.004 amu respectively.

In the nuclear reaction _7^14N + _2^4He = _z^AX + _1^1H ,' _z^AX is

What is the Q-value of the reaction? ""^(1)H+""^(7)Lito ""^(4)He+""^(4)He The atomic masses of ""^(1)H,""^(4)Heand ""^(7)Li 1.007825u, 4.0026034u and 7.01600u, respectively.