Compute the minimum kinetic energy of proton incident on `.^(13)C` nuclei at rest in the laboratory the will produce the endothermic reaction `^(13)C(p,n)^(13)N`. Given masses are
`M(.^(13)C)=13.003355` amu,
`M(.^(1)H)=1.007825` amu
`m(n)=1.008665` amu,
`M(.^(13)N)=13.005738` amu

Find the mean binding energy per one nucleon in 0^(16) nucleus in MeV.Given m(O^(16)) =15.9994amu, m(H^(1)) =1.007823amum m(n^(1)) =1.008665amu

Find the Q - value for the nuclear reaction: ._(2)He^(4)+._(7)N^(14) rarr ._(8)O^(17)+._(1)H^(1) m(._(2)He^(4))=4.0039 "amu" m(._(7) N^(14))=14.0075 "amu" m(._(8)O^(17))=17.0045 amu m(._(1)H^(1))=1.0082 amu

Calculate the Q - value of the reaction ._(1)H^(2)+._(1)H^(2) rarr ._(1)H^(3)+._(1)H^(1) m(._(1)H^(2))=2.014103 "amu" m(._(1)H^(3))=3.016049 "amu" m(._(1H^(1))=1.007825 amu

Calculate the energy in the reaction 2 ._(1)^(1)H + 2 ._(0)^(1)n to ._(2)^(4)He Given, H = 1.00813 amu, n = 1.00897 amu and He = 4.00388

Determine the binding energy of ""_(3)Li^(7) if its mass is 7.00 amu Use 1 amu = 931 MeVc^(2) (m_(p) = 1.007825 u, m_(n) = 1.008665 u) .

A slow neutron strikes a nucleus of ._(92)U^(235) splitting it into lighter nuclei of barium and krypton and releasing three neutrons. Write the corresponding nuclear reaction. Also calculate the energy released on this reaction Given m(._(92)U^(235))=235.043933 "amu" m(._(0)n^(1))=1.008665 amu m(._(56)Ba^(141))=140.917700 "amu" m(._(36)Kr^(92))=91.895400 amu

A Tritium gas target bombarded with a beam of mono-energetic protons of K.E. 3 MeV. What is the K.E. of the neutrons which are emitted at an angle 30^(@) with the incident beam? Atomic masses are: H^(1)=1.007276 amu, n^(1) = 1.008665 amu, H _(1)^(3)= 3.06056 amu and H_(e)^(3)=3.016030 amu.

Calculate the binding energy of the deuteron, which consistss of a proton and a neutron, given that the atomic mass of the deuteron is 2.014102 amu,. Take mass of proton (m_(p))=1.007825 amu, mass of a neutron (m_(n))=1.008665 amu and 1amu=931.5 MeV

Find the binding energy and the binding energy pernucleon of the nucleus of ._(8)^(16)O . Given atomic mass of ._(8)^(16)O(m)=15.994915 amu, mass of proton (m_(p))=1.007823 amu, mass of a neutron (m_(n))=1.008665 amu and 1 amu =931.5 MeV.