Media Storage Type : DVD-ROM
NPTEL Course Name : Nuclear Science and Engineering
NPTEL Subject Matter Expert : Dr. Santanu Ghosh
NPTEL Co-ordinating Institute : IIT Delhi
NPTEL Lecture Count : 51
Lecture Titles:
Lecture 1 - Content and Lecture Plan[module 1]
Lecture 2 - Basic Properties of Nucleus [Lecture 1]
Lecture 3 - Shape of the Nucleus: Electric Moments and magnetic Moment [Lecture 2]
Lecture 4 - Binding Energy of a Nucleus [Lecture 3]
Lecture 5 - Examples with hints for lectures 1 to 3 [Lecture 4]
Lecture 6 - Liquid Drop Model: Nuclear Stability [Lecture 5]
Lecture 7 - Liquid Drop Model: Nuclear Stability (Contd.) [Lecture 6]
Lecture 8 - Magic Nuclei and Nuclear Shell Model [Lecture 7]
Lecture 9 - Examples with hints for lectures 5 to 7 [Lecture 8]
Lecture 10 - Bibliography [module 1]
Lecture 11 - Content and Lecture Plan[module 2]
Lecture 12 - Generation of energetic particles in accelerators [Lecture 1]
Lecture 14 - Interaction of photons with matter [Lecture 3]
Lecture 15 - Gas Detectors [Lecture 4]
Lecture 16 - Gas Detectors (Contd.)[Lecture 5]
Lecture 17 - Solid State Detector [Lecture 6]
Lecture 18 - Scintillation Detectors [Lecture 7]
Lecture 19 - Nuclear Electronics for Signal processing [Lecture 8]
Lecture 20 - Bibliography [module 2]
Lecture 21 - Contents and Lecture plans [module3]
Lecture 22 - Fundamentals of Nuclear Reactions, Reaction energy and Model [Lecture 1]
Lecture 23 - Reaction Cross section and Examples of various Nuclear Reactions [Lecture 2]
Lecture 24 - Fission Reaction Mechanism, Energy in Fission Reaction and Basic Formulation on Fission Reactor [Lecture 3]
Lecture 25 - Basic Design Aspects of a Fission Reactor [Lecture 4]
Lecture 26 - Basic Design Aspects of a Fission Reactor (Contd.)[Lecture 5]
Lecture 27 - Basic Fusion Process, Stellar Evolution and Fusion Reaction Rate [Lecture 6]
Lecture 28 - Fusion Reactions in the Plasma and Reactor Design Aspects [Lecture 7]
Lecture 29 - Various issues related to Tokamak and the present status [Lecture 8]
Lecture 30 - Bibliography [module 3]
Lecture 31 - Contents and Lecture plans [module4]
Lecture 32 - Basic Formulation of Radioactivity [Lecture 1]
Lecture 33 - Theory of Successive Transformation and Radioactive Equilibrium [Lecture 2]
Lecture 34 - Basic Formulation on Radioactive Dating process [Lecture 3]
Lecture 35 - Accelerator Mass Spectrometry [Lecture 4]
Lecture 36 - Radiation Dosimetry and Interaction of Nuclear Radiation with Biological Specimen [Lecture 5]
Lecture 37 - Radioisotopes and Their Use in Medical Diagnostics [Lecture 6]
Lecture 38 - Nuclear Radiation Based Therapy [Lecture 7]
Lecture 39 - Practical Examples Related To Above Topics [Lecture 8]
Lecture 40 - Bibliography [module 4]
Lecture 41 - Interaction of energetic charged particles with matter [Lecture 2]
Lecture 42 - Contents and Lecture plans [module5]
Lecture 43 - Neutron Activation Analysis (NAA) [Lecture 1]
Lecture 44 - Neutron Activation Analysis (NAA)(Continued) [Lecture 2]
Lecture 45 - Rutherford Back Scattering Spectrometry (RBS) [Lecture 3]
Lecture 46 - Rutherford Back Scattering Spectrometry (RBS) (Continued) [Lecture 4]
Lecture 47 - Nuclear reaction Analysis (NRA) [Lecture 5]
Lecture 48 - Nuclear reaction Analysis (NRA) (Continued) [Lecture 6]
Lecture 49 - Particle induced X-ray emission (PIXE)[Lecture 7]
Lecture 50 - Particle induced X-ray emission (PIXE) (Continued) [Lecture 8]
Lecture 51 - Bibliography [module 5]