Obtain the binding energy (in MeV) of a nitrogen nucleus `(""_(7)^(14)N)` , given m `(""_(7)^(14)N) =14.00307 u.`

Obtain the binding energy of the nuclei ""_(26)^(26)Fe and ""_(83)^(209)Bi in units of MeV from the following data: m (""_(26)^(56)Fe ) = 55.934939 u" " m (""_(83)^(209)Bi ) = 208.980388 u

The neutron separation energy is defined as the energy required to remove a neutron from the nucleus. Obtain the neutron separation energies of the nuclei ""_(20)^(41)Ca and ""_(13)^(27)Al from the following data: m(""_(20)^(40)Ca) = 39.962591 u m(""_(20)^(41)Ca) = 40.962278 u m(""_(13)^(26)Al) = 25.986895 u m (""_(13)^(27)Al) = 26.981541 u .

Find the indicated terms in each of the sequences whose n^(th) term is given: a_(n)= 2n^(2) -1, a_(7)

A fission reaction is given by ._(92)^(236)U rarr ._(54)^(140)Xe + ._(54)^(140)Xe + ._(38)^(94)Sr + x +y , where x and y are two particles. Considering ._(92)^(236)U to be at rest, the kinetic energies of the products are denoted by K_(xe),K_(Sr),K_(x)(2MeV) and K_(y)(2Me V) , respectively. Let the binding energies per nucleon of ._(92)^(236)U, ._(54)^(140)Xe and ._(38)^(94)Sr be 7.5 MeV, 8.5 Me V and 8.5 MeV , respectively. Considering different conservation laws, the correct options (s) is (are)

The electrostatic energy of Z protons uniformly distributed throughout a spherical nucleus of radius R is given by E = (3 Z(Z- 1)e^(2))/5( 4 pi e _(0)R) The measured masses of the neutron _(1)^(1) H, _(7)^(15) N and , _(8)^(16)O are 1.008665 u, 1.007825 u , 15.000109 u and 15.003065 u, respectively Given that the ratio of both the _(7)^(12) N and _(8)^(15) O nucleus are same , 1 u = = 931.5 Me V c^(2) (c is the speed of light ) and e^(2)//(4 pi e_(0)) = 1.44 MeV fm Assuming that the difference between the binding energies of _7^(15) N and _(8)^(15) O is purely due to the electric energy , The radius of the nucleus of the nuclei is

If the binding energy per nucleon in ._(3)Li^(7) and ._(2)He^(4) nuclei are respectively 5.60 MeV and 7.06 MeV, then the ebergy of proton in the reaction ._(3)Li^(7) +p rarr 2 ._(2)He^(4) is

The mass of nucleus ._(z)X^(A) is less than the sum of the masses of (A-Z) number of neutrons and Z number of protons in the nucleus. The energy equivalent to the corresponding mass difference is known as the binding energy of the nucleus. A heavy nucleus of mass M can break into two light nuclei of mass m_(1) and m_(2) only if (m_(1)+m_(2)) lt M . Also two light nuclei of massws m_(3) and m_(4) can undergo complete fusion and form a heavy nucleus of mass M ''only if (m_(3)+m_(4)) gt M ''. The masses of some neutral atoms are given in the table below. |{:(._(1)^(1)H,1.007825u,._(1)^(2)H,2.014102u,),(._(1)^(3)H,3.016050u,._(2)^(4)H,4.002603u,),(._(3)^(6)Li,6.015123u,._(3)^(7)Li,7.016004u,),(._(30)^(70)Zn,69.925325u,._(34)^(82)Se,81.916709u,),(._(64)^(152)Gd,151.91980u,._(82)^(206)Pb,205.97445u,),(._(83)^(209)Bi,208.980388u,._(84)^(210)Po,209.982876u,):}| The correct statement is

The positions of ._(1)^(2)D,._(2)^(4)He and ._(3)^(7)Li are shown on the binding energy curve as shown in figure. The energy released in the fusion reaction. ._(1)^(2)D+._(3)^(7)Li rarr 2 ._(2)^(4)He + ._(0)^(1)n

Studied the radioactivity and developed it ._(6) ^(14) C ._(6)^(13) C ._(7) ^(14) N ._(6)^(12) C

Predict the bombarding projectile in the following nuclear reactions (i) 13^(Al^(27)) + ? rarr 11^(Na^(24)) + 2^(He^(4)) (ii) 34^(Se^(83)) + ? rarr 34^(Se^(84)) + gamma rays (iii) 7^(N^(14)) + ? rarr 8^(O^(17) + 1^(H^(1))