Mass Defect|Binding Energy

Nuclear physics:Nucleus||Fission||Fusion||Mass defect||Binding energy||Binding energy per nucleons||Examples

What is Mass defect, binding energy and binding energy per nucleon?

Find mass defect, binding energy and BE/nucleon for He nuclei. Take mass of He nucleus =4.001509u , M_p = 1.007825u and M_n = 1.008665 u

Calculate mass defect, binding energy and binding energy per nucleon for a lithium nucleus (._3Li^7) taking its mass =7.000000a.m.u. Mass proton=1.007825 a.m.u. and mass of neutron =1.008665 a.m.u. Take 1a.m.u. =931.5 MeV.

All nuclei consist of two types of particles- protaon and neutrons. Nuclear force is the strongest froce. Stability of nucleus is determined by the neutron - proton ratio or mass defect or binding energy per nucleus or packing fraction. Shape of nucleus is calculated by quadrupole moment. Spin of nucleus depends on even or odd mass number. Volume of nucleus depends on the mass number. Whole mass of the atom (nearly 99 % ) is centered at the nucleus. Magnetic moment of the nucleus is measured in terms of the nuclear magnetons. Volume (V) of the nucleus is related to mass number (A) as

All nuclei consist of two types of particles- protaon and neutrons. Nuclear force is the strongest froce. Stability of nucleus is determined by the neutron - proton ratio or mass defect or binding energy per nucleus or packing fraction. Shape of nucleus is calculated by quadrupole moment. Spin of nucleus depends on even or odd mass number. Volume of nucleus depends on the mass number. Whole mass of the atom (nearly 99 % ) is centered at the nucleus. Magnetic moment of the nucleus is measured in terms of the nuclear magnetons. The correct statements about nuclear force is/are

Q-Value in Terms OF Mass||Binding Energy||Kinetic Energy||Binding Energy Per Nucleon and Stability||Nuclear Fusion and Fission||Alpha-decay

Q Value in Terms OF Mass|| Binding Energy||Kinetic Energy|| Binding Energy Per Nucleon and Stability|| Nuclear Fusion and Fission|| Alpha-decay