A nitrogen nucleus `7^(N^(14))` absorbs a neutron and can transfrom into lithium nucleus `3^(Li^(7))` under suitable conditions, after emitting :

._6^12 C absorbs an energenic neutron and emits beta particles. The resulting nucleus is.

Binding energy per nucleon of fixed nucleus X^(A) is 6 MeV . It absorbs a neutron moving with KE= 2 MeV and converts into Y at ground state, emitting a photon of energy 1 MeV . The Binding energy per nucleon of Y (in MeV) is -

The nuclei ._(6)C^(13) & ._(7)N^(14) can be described as

The mass of a nucleus ._(Z)^(A)X is less that 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 masses m_(1) and m_(2) only if (m_(1)+m_(2)) lt M . Also two light nuclei of masses 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)He,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,205.974455u,._(83)^(209)Bi,208.980388u,._(84)^(210)Po,209.982876u):}| The correct statement is:

Number of neutrons i8n a parent nucleus X , which gives ._(7)^(14)N after two sucessive beta- emission would be:

Nucleus consists of neutrons and protons, neutrons and protons inside the nucleus interact with each other. They interchange into each other. The forces between them are charge independent. short range, mutual non conservative, strongly attractive. But many particles are emitted like alpha, beta, gamma rays and other high energy particles as mesons, leptons, baryons etc. Can you match the classification of particles in Column-1 with their characters in Coloumn-II. {:("Column-I","Column-II"),((A)"Chargeless integral spin particle",(p)"Pion"),((B)"Chargeless half spin particle",(q)"Photon"),((C)beta-"particle",(r)"Neutrino"),((D)"Exchange particle",(s)"Positron"):}

The number of neutrons in the parent nucleus which gives N^14 on beta -emission and the parent nucleus is

A certain nucleus X has a mass number 14 and atomic number 6. The nucleus X changes to ""_(7)Y^(14) after the loss of a particle. Represent this change in the form of an equation.

Tritium is an isotope of hydrogen whose nucleus triton contains 2 neutrons and 1 proton . Free neutrons decay into p+bar(e) +bar(n). If one of the neutrons in Triton decays , it would transform into He^(3) nucleus. This does not happen. This is because

Tritium is an isotope of hydrogen whose nucleus triton contains 2 neutrons and 1 proton . Free neutrons decay into p+bar(e) +bar(n). If one of the neutrons in Triton decays , it would transform into He^(3) nucleus. This does not happen. This is because