NucleiComposition and size of NucleusAtomic massesIsotopesIsobarsIsotonesRadioactivity alpha, beta and gamma particles/rays and their propertiesRadioactive decay lawMass-energy relation Mass defectBinding energy per nucleon and its variation with mass numberNuclear fissionNuclear fusionSUMMARY1. An atom has a nucleus. The nucleus is positively charged. The radius of the nucleus is smaller than the radius of an atom by a factor of 104. More than 99.9% mass of the atom is concentrated in the nucleus. 2. On the atomic scale, mass is measured in atomic mass units (u). 3. A nucleus contains a neutral particle called neutron. Its mass is almost the same as that of proton. 4. The atomic number Z is the number of protons in the atomic nucleus of an element. The mass number A is the total number of protons and neutrons in the atomic nucleus; A = Z+N; Here N denotes the number of neutrons in the nucleus. Nuclides with the same atomic number Z, but different neutron number N are called isotopes. Nuclides with the same A are isobars and those with the same N are isotones. Most elements are mixtures of two or more isotopes. The atomic mass of an element is a weighted average of the masses of its isotopes. The masses are the relative abundances of the isotopes. 5. A nucleus can be considered to be spherical in shape and assigned a radius. Electron scattering experiments allow determination of the nuclear radius.6. Neutrons and protons are bound in a nucleus by the short-range strong nuclear force. The nuclear force does not distinguish between neutron and proton. 7. The nuclear mass M is always less than the total mass, m, of its constituents. The difference in mass of a nucleus and its constituents is called the mass defect, M = (Z mp + (A Z )mn ) M8. Energies associated with nuclear processes are about a million times larger than chemical process. 9. The Q-value of a nuclear process is Q = final kinetic energy initial kinetic energy. Due to conservation of mass-energy, this is also, Q = (sum of initial masses sum of final masses)c raise to 2 10. Radioactivity is the phenomenon in which nuclei of a given species transform by giving out or or rays; -rays are helium nuclei; -rays are electrons. -rays are electromagnetic radiation of wavelengths shorter than X-rays.11. Energy is released when less tightly bound nuclei are transmuted into more tightly bound nuclei.12. The fact that more neutrons are produced in fission than are consumed gives the possibility of a chain reaction with each neutron that is produced triggering another fission. The chain reaction is uncontrolled and rapid in a nuclear bomb explosion. It is controlled and steady in a nuclear reactor. In a reactor, the value of the neutron multiplication factor k is maintained at 1. 13. In fusion, lighter nuclei combine to form a larger nucleus. Fusion of hydrogen nuclei into helium nuclei is the source of energy of all stars including our sun.