Online Classes
Available Lesson & Learning Object's
1. Nuclear chemistry › Introduction to nuclear process › Introduction to nuclear chemistry
2. Nuclear chemistry › Introduction to nuclear process › The atom
3. Nuclear chemistry › Introduction to nuclear process › Atomic processes
4. Nuclear chemistry › Introduction to nuclear process › Ionization
5. Nuclear chemistry › Introduction to nuclear process › X ray emission
6. Nuclear chemistry › Introduction to nuclear process › Introduction to nuclear decay types
7. Nuclear chemistry › Introduction to nuclear process › Modern physical concepts for nuclear chemistry : Types of forces in nature
8. Nuclear chemistry › Introduction to nuclear process › De Broglie wavelength, wave particle duality
9. Nuclear chemistry › Introduction to nuclear process › Heisenberg uncertainty principle
10. Nuclear chemistry › Introduction to nuclear process › Units and conversion factors for nuclear chemistry
11. Nuclear chemistry › Introduction to nuclear process › Introduction to nuclear properties and brief history
12. Nuclear chemistry › Introduction to nuclear process › Test of knowledge
13. Nuclear chemistry › Energetics of nuclear process › Nuclear masses
14. Nuclear chemistry › Energetics of nuclear process › Binding energy per nucleon
15. Nuclear chemistry › Energetics of nuclear process › Separation energy systematics
16. Nuclear chemistry › Energetics of nuclear process › Semi-empirical mass equation
17. Nuclear chemistry › Energetics of nuclear process › Nuclear sizes and shapes
18. Nuclear chemistry › Energetics of nuclear process › Test of knowledge
19. Nuclear chemistry › Mechanics of nuclear process › Quantum mechanical properties
20. Nuclear chemistry › Mechanics of nuclear process › Nuclear angular momenta
21. Nuclear chemistry › Mechanics of nuclear process › Magnetic dipole moment
22. Nuclear chemistry › Mechanics of nuclear process › Electric quadrupole moment
23. Nuclear chemistry › Mechanics of nuclear process › Basic decay equations
24. Nuclear chemistry › Mechanics of nuclear process › Radioactive decay equilibrium
25. Nuclear chemistry › Mechanics of nuclear process › Natural radioactivity
26. Nuclear chemistry › Mechanics of nuclear process › Branching decay
27. Nuclear chemistry › Mechanics of nuclear process › Radioactive dating
28. Nuclear chemistry › Mechanics of nuclear process › Test of knowledge
29. Nuclear chemistry › Application of nuclear process › Introduction to radio-tracers
30. Nuclear chemistry › Application of nuclear process › Radio-tracers and their compounds
31. Nuclear chemistry › Application of nuclear process › Radio-tracers and chemical synthesis
32. Nuclear chemistry › Application of nuclear process › Radio-tracers and biosynthesis
33. Nuclear chemistry › Application of nuclear process › Chemical applications of tracers
34. Nuclear chemistry › Application of nuclear process › Isotopic effects of tracers
35. Nuclear chemistry › Application of nuclear process › Radio-tracers and biological applications
36. Nuclear chemistry › Application of nuclear process › Radio-tracers and environmental applications
37. Nuclear chemistry › Application of nuclear process › Industrial use of radio-tracers
38. Nuclear chemistry › Application of nuclear process › Nuclear medicine
39. Nuclear chemistry › Application of nuclear process › Introduction to nuclear forces
40. Nuclear chemistry › Application of nuclear process › Characteristics of the strong forces
41. Nuclear chemistry › Application of nuclear process › Charge independence of Nuclear forces
42. Nuclear chemistry › Application of nuclear process › Nuclear potentials
43. Nuclear chemistry › Application of nuclear process › Test of knowledge
44. Nuclear chemistry › Nuclear models › Schematic shell model
45. Nuclear chemistry › Nuclear models › Independent particle model
46. Nuclear chemistry › Nuclear models › Collective model
47. Nuclear chemistry › Nuclear models › Nilsson model
48. Nuclear chemistry › Nuclear models › Nuclear Fermi gas
49. Nuclear chemistry › Nuclear models › Test of knowledge
50. Nuclear chemistry › Radioactive decay › Introduction to alpha decay
51. Nuclear chemistry › Radioactive decay › Energetics of alpha decay
52. Nuclear chemistry › Radioactive decay › Theory of alpha decay
53. Nuclear chemistry › Radioactive decay › Hindrances factors
54. Nuclear chemistry › Radioactive decay › Heavy particle radioactivity
55. Nuclear chemistry › Radioactive decay › Proton radioactivity
56. Nuclear chemistry › Radioactive decay › Introduction to beta decay
57. Nuclear chemistry › Radioactive decay › Neutrino hypothesis
58. Nuclear chemistry › Radioactive decay › Beta decay rate constant
59. Nuclear chemistry › Radioactive decay › Electron capture decay
60. Nuclear chemistry › Radioactive decay › Beta delayed radioactivity
61. Nuclear chemistry › Radioactive decay › Double beta decay
62. Nuclear chemistry › Radioactive decay › Introdution to gamma decay
63. Nuclear chemistry › Radioactive decay › Energetics of gamma decay
64. Nuclear chemistry › Radioactive decay › Classification of decay types
65. Nuclear chemistry › Radioactive decay › Test of knowledge
66. Nuclear chemistry › Thermonuclear process › Electromagnetics transition rates
67. Nuclear chemistry › Thermonuclear process › Mossbauer effect
68. Nuclear chemistry › Thermonuclear process › Introdution to nuclear reactions
69. Nuclear chemistry › Thermonuclear process › Energetics of nuclear reactions
70. Nuclear chemistry › Thermonuclear process › Reaction types and mechanism
71. Nuclear chemistry › Thermonuclear process › Nuclear reaction cross section
72. Nuclear chemistry › Thermonuclear process › Rutherford scattering
73. Nuclear chemistry › Thermonuclear process › Direct reactions
74. Nuclear chemistry › Thermonuclear process › Compound nucleus reactions
75. Nuclear chemistry › Thermonuclear process › Photo-nuclear reactions
76. Nuclear chemistry › Thermonuclear process › Introduction to heavy ion reactions
77. Nuclear chemistry › Thermonuclear process › Coloumb excitation
78. Nuclear chemistry › Thermonuclear process › Elastic scattering
79. Nuclear chemistry › Thermonuclear process › Fusion reactions
80. Nuclear chemistry › Thermonuclear process › Incomplete fusion
81. Nuclear chemistry › Thermonuclear process › Reactions induced by radioactive projectiles
82. Nuclear chemistry › Thermonuclear process › High energy nuclear reactions
83. Nuclear chemistry › Thermonuclear process › Spallation and fragmentation
84. Nuclear chemistry › Thermonuclear process › Introduction to Fission
85. Nuclear chemistry › Thermonuclear process › Probability of fission
86. Nuclear chemistry › Thermonuclear process › Liquid drop model
87. Nuclear chemistry › Thermonuclear process › Spantaneous fission
88. Nuclear chemistry › Thermonuclear process › Transition nucleus
89. Nuclear chemistry › Thermonuclear process › Total kinetic energy release in fission
90. Nuclear chemistry › Thermonuclear process › Fission product mass distributions
91. Nuclear chemistry › Thermonuclear process › Fission product charge distributions
92. Nuclear chemistry › Thermonuclear process › Excitation energy of the fission fragments
93. Nuclear chemistry › Thermonuclear process › Dynamical properties of the fission fragments
94. Nuclear chemistry › Thermonuclear process › Introduction to nuclear reactions in nature
95. Nuclear chemistry › Thermonuclear process › Elemental and isotopic abundances
96. Nuclear chemistry › Thermonuclear process › Stellar evolution
97. Nuclear chemistry › Thermonuclear process › Thermonuclear reaction rates
98. Nuclear chemistry › Thermonuclear process › Introduction to stellar nucleosynthesis
99. Nuclear chemistry › Thermonuclear process › Introduction to solar neutrino sources
100. Nuclear chemistry › Thermonuclear process › Solar neutrino sources and energies
101. Nuclear chemistry › Thermonuclear process › Detections of neutrino and solar neutrino problem
102. Nuclear chemistry › Thermonuclear process › Neutrino oscillations -- solution to solar neutrino problem
103. Nuclear chemistry › Thermonuclear process › Test of knowledge
104. Nuclear chemistry › Nuclear particle detection › Introduction to radiation detectors
105. Nuclear chemistry › Nuclear particle detection › Gas ionization detectors
106. Nuclear chemistry › Nuclear particle detection › Scintillation detectors
107. Nuclear chemistry › Nuclear particle detection › Nuclear track detectors
108. Nuclear chemistry › Nuclear particle detection › Introduction to radiochemical techniques and its application
109. Nuclear chemistry › Nuclear particle detection › Measuring beam intensity and fluxes
110. Nuclear chemistry › Nuclear particle detection › Recoils, evaporation residues (EVRs)
111. Nuclear chemistry › Nuclear particle detection › Radiochemical separation techniques
112. Nuclear chemistry › Nuclear particle detection › Test of knowledge
2. Nuclear chemistry › Introduction to nuclear process › The atom
3. Nuclear chemistry › Introduction to nuclear process › Atomic processes
4. Nuclear chemistry › Introduction to nuclear process › Ionization
5. Nuclear chemistry › Introduction to nuclear process › X ray emission
6. Nuclear chemistry › Introduction to nuclear process › Introduction to nuclear decay types
7. Nuclear chemistry › Introduction to nuclear process › Modern physical concepts for nuclear chemistry : Types of forces in nature
8. Nuclear chemistry › Introduction to nuclear process › De Broglie wavelength, wave particle duality
9. Nuclear chemistry › Introduction to nuclear process › Heisenberg uncertainty principle
10. Nuclear chemistry › Introduction to nuclear process › Units and conversion factors for nuclear chemistry
11. Nuclear chemistry › Introduction to nuclear process › Introduction to nuclear properties and brief history
12. Nuclear chemistry › Introduction to nuclear process › Test of knowledge
13. Nuclear chemistry › Energetics of nuclear process › Nuclear masses
14. Nuclear chemistry › Energetics of nuclear process › Binding energy per nucleon
15. Nuclear chemistry › Energetics of nuclear process › Separation energy systematics
16. Nuclear chemistry › Energetics of nuclear process › Semi-empirical mass equation
17. Nuclear chemistry › Energetics of nuclear process › Nuclear sizes and shapes
18. Nuclear chemistry › Energetics of nuclear process › Test of knowledge
19. Nuclear chemistry › Mechanics of nuclear process › Quantum mechanical properties
20. Nuclear chemistry › Mechanics of nuclear process › Nuclear angular momenta
21. Nuclear chemistry › Mechanics of nuclear process › Magnetic dipole moment
22. Nuclear chemistry › Mechanics of nuclear process › Electric quadrupole moment
23. Nuclear chemistry › Mechanics of nuclear process › Basic decay equations
24. Nuclear chemistry › Mechanics of nuclear process › Radioactive decay equilibrium
25. Nuclear chemistry › Mechanics of nuclear process › Natural radioactivity
26. Nuclear chemistry › Mechanics of nuclear process › Branching decay
27. Nuclear chemistry › Mechanics of nuclear process › Radioactive dating
28. Nuclear chemistry › Mechanics of nuclear process › Test of knowledge
29. Nuclear chemistry › Application of nuclear process › Introduction to radio-tracers
30. Nuclear chemistry › Application of nuclear process › Radio-tracers and their compounds
31. Nuclear chemistry › Application of nuclear process › Radio-tracers and chemical synthesis
32. Nuclear chemistry › Application of nuclear process › Radio-tracers and biosynthesis
33. Nuclear chemistry › Application of nuclear process › Chemical applications of tracers
34. Nuclear chemistry › Application of nuclear process › Isotopic effects of tracers
35. Nuclear chemistry › Application of nuclear process › Radio-tracers and biological applications
36. Nuclear chemistry › Application of nuclear process › Radio-tracers and environmental applications
37. Nuclear chemistry › Application of nuclear process › Industrial use of radio-tracers
38. Nuclear chemistry › Application of nuclear process › Nuclear medicine
39. Nuclear chemistry › Application of nuclear process › Introduction to nuclear forces
40. Nuclear chemistry › Application of nuclear process › Characteristics of the strong forces
41. Nuclear chemistry › Application of nuclear process › Charge independence of Nuclear forces
42. Nuclear chemistry › Application of nuclear process › Nuclear potentials
43. Nuclear chemistry › Application of nuclear process › Test of knowledge
44. Nuclear chemistry › Nuclear models › Schematic shell model
45. Nuclear chemistry › Nuclear models › Independent particle model
46. Nuclear chemistry › Nuclear models › Collective model
47. Nuclear chemistry › Nuclear models › Nilsson model
48. Nuclear chemistry › Nuclear models › Nuclear Fermi gas
49. Nuclear chemistry › Nuclear models › Test of knowledge
50. Nuclear chemistry › Radioactive decay › Introduction to alpha decay
51. Nuclear chemistry › Radioactive decay › Energetics of alpha decay
52. Nuclear chemistry › Radioactive decay › Theory of alpha decay
53. Nuclear chemistry › Radioactive decay › Hindrances factors
54. Nuclear chemistry › Radioactive decay › Heavy particle radioactivity
55. Nuclear chemistry › Radioactive decay › Proton radioactivity
56. Nuclear chemistry › Radioactive decay › Introduction to beta decay
57. Nuclear chemistry › Radioactive decay › Neutrino hypothesis
58. Nuclear chemistry › Radioactive decay › Beta decay rate constant
59. Nuclear chemistry › Radioactive decay › Electron capture decay
60. Nuclear chemistry › Radioactive decay › Beta delayed radioactivity
61. Nuclear chemistry › Radioactive decay › Double beta decay
62. Nuclear chemistry › Radioactive decay › Introdution to gamma decay
63. Nuclear chemistry › Radioactive decay › Energetics of gamma decay
64. Nuclear chemistry › Radioactive decay › Classification of decay types
65. Nuclear chemistry › Radioactive decay › Test of knowledge
66. Nuclear chemistry › Thermonuclear process › Electromagnetics transition rates
67. Nuclear chemistry › Thermonuclear process › Mossbauer effect
68. Nuclear chemistry › Thermonuclear process › Introdution to nuclear reactions
69. Nuclear chemistry › Thermonuclear process › Energetics of nuclear reactions
70. Nuclear chemistry › Thermonuclear process › Reaction types and mechanism
71. Nuclear chemistry › Thermonuclear process › Nuclear reaction cross section
72. Nuclear chemistry › Thermonuclear process › Rutherford scattering
73. Nuclear chemistry › Thermonuclear process › Direct reactions
74. Nuclear chemistry › Thermonuclear process › Compound nucleus reactions
75. Nuclear chemistry › Thermonuclear process › Photo-nuclear reactions
76. Nuclear chemistry › Thermonuclear process › Introduction to heavy ion reactions
77. Nuclear chemistry › Thermonuclear process › Coloumb excitation
78. Nuclear chemistry › Thermonuclear process › Elastic scattering
79. Nuclear chemistry › Thermonuclear process › Fusion reactions
80. Nuclear chemistry › Thermonuclear process › Incomplete fusion
81. Nuclear chemistry › Thermonuclear process › Reactions induced by radioactive projectiles
82. Nuclear chemistry › Thermonuclear process › High energy nuclear reactions
83. Nuclear chemistry › Thermonuclear process › Spallation and fragmentation
84. Nuclear chemistry › Thermonuclear process › Introduction to Fission
85. Nuclear chemistry › Thermonuclear process › Probability of fission
86. Nuclear chemistry › Thermonuclear process › Liquid drop model
87. Nuclear chemistry › Thermonuclear process › Spantaneous fission
88. Nuclear chemistry › Thermonuclear process › Transition nucleus
89. Nuclear chemistry › Thermonuclear process › Total kinetic energy release in fission
90. Nuclear chemistry › Thermonuclear process › Fission product mass distributions
91. Nuclear chemistry › Thermonuclear process › Fission product charge distributions
92. Nuclear chemistry › Thermonuclear process › Excitation energy of the fission fragments
93. Nuclear chemistry › Thermonuclear process › Dynamical properties of the fission fragments
94. Nuclear chemistry › Thermonuclear process › Introduction to nuclear reactions in nature
95. Nuclear chemistry › Thermonuclear process › Elemental and isotopic abundances
96. Nuclear chemistry › Thermonuclear process › Stellar evolution
97. Nuclear chemistry › Thermonuclear process › Thermonuclear reaction rates
98. Nuclear chemistry › Thermonuclear process › Introduction to stellar nucleosynthesis
99. Nuclear chemistry › Thermonuclear process › Introduction to solar neutrino sources
100. Nuclear chemistry › Thermonuclear process › Solar neutrino sources and energies
101. Nuclear chemistry › Thermonuclear process › Detections of neutrino and solar neutrino problem
102. Nuclear chemistry › Thermonuclear process › Neutrino oscillations -- solution to solar neutrino problem
103. Nuclear chemistry › Thermonuclear process › Test of knowledge
104. Nuclear chemistry › Nuclear particle detection › Introduction to radiation detectors
105. Nuclear chemistry › Nuclear particle detection › Gas ionization detectors
106. Nuclear chemistry › Nuclear particle detection › Scintillation detectors
107. Nuclear chemistry › Nuclear particle detection › Nuclear track detectors
108. Nuclear chemistry › Nuclear particle detection › Introduction to radiochemical techniques and its application
109. Nuclear chemistry › Nuclear particle detection › Measuring beam intensity and fluxes
110. Nuclear chemistry › Nuclear particle detection › Recoils, evaporation residues (EVRs)
111. Nuclear chemistry › Nuclear particle detection › Radiochemical separation techniques
112. Nuclear chemistry › Nuclear particle detection › Test of knowledge
Other Topic's Details
Chemical change and chemical systemsChemical kinetics
Electrochemistry
Thermodynamics