E-Resources
Dr. Aditya Saxena:
1. Thermal Physics, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole Editor:
Aditya Saxena. ISBN: 978-81-931455-8-6
2. Digital Electronics, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole Editor:
Aditya Saxena. ISBN: 978-81-931455-9-3
3. Mechanics, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole Editor: Aditya
Saxena. ISBN: 978-93-85611-79-7
4. Oscillations and Waves, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole
Editor: Aditya Saxena. ISBN: 978-93-85611-81-0
5. Electricity and Magnetism, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015)
Sole Editor: Aditya Saxena. ISBN: 978-93-85611-82-7
6. Mathematical Physics-I, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole
Editor: Aditya Saxena. ISBN: 978-93-85611-78-0
7. Mathematical Physics-II, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole
Editor: Aditya Saxena. ISBN: 978-93-85611-80-3
8. Mathematical Physics-III, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole
Editor: Aditya Saxena. ISBN: 978-93-85611-83-4
9. Microprocessor and Computer Programming, e-Book/e-Content, (Institute of Life Long Learning
(ILLL), India, 2015) Sole Editor: Aditya Saxena. ISBN: 978-93-85611-84-1
10. Optics, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole Editor: Aditya
Saxena. ISBN: 978-93-85611-85-8
11. Numerical Analysis, e-Book/e-Content, (Institute of Life Long Learning (ILLL), India, 2015) Sole
Editor: Aditya Saxena. ISBN: 978-93-85611-86-5
Chapters in Edited Books
1. ‘Dynamics of carbon in different layers of graphite’, Disordered Materials, (Narosa, India, 2003),
Chapter 21, Page 126. Co-authors: S.P.Tewari and Poonam Silotia. ISBN: 978-81-7319-463-4
e-Content in e-PG Pathshala (NME-ICT, MHRD):
1. Paper: Quantum Mechanics-1
(https://epgp.inflibnet.ac.in/ahl.php?csrno=28)
(i) Module 1: Some earlier attempts towards Quantum Mechanical concepts-I (Quadrant:
Self Learn)
(ii) Module 2: Review of some earlier attempts -II (Quadrant: Self Learn)
(iii) Module 3: Heisenberg’s Uncertainty Principle-1 (Quadrant: Self Learn)
(iv) Module 4: Linear Vector Spaces (Quadrant: Self Learn)
(v) Module 5: Functional Vector Spaces and Operators (Quadrant: Self Learn)
(vi) Module 6: Linear Vector Spaces and Operators (Quadrant: Self Learn)
(vii) Module 7: Postulates of Quantum Mechanics and representations of vectors, bases and
unitary operators (Quadrant: Self Learn)
(viii) Module 8: Connection between State vectors and wave function in x-space and
momentum space: Dynamical Variables as Matrix Operators (Quadrant: Self Learn)
(ix) Module 9: Commuting operators and a complete set of commuting operators (Quadrant:
Self Learn)
(x) Module 10: On properties of operators, their commutators and some useful, important
identities (Quadrant: Self Learn)
(xi) Module 11: Generalized Uncertainty Principle (Quadrant: Self Learn)
(xii) Module 12: Quantum Dynamics: Heisenberg’s Picture (Quadrant: Self Learn)
(xiii) Module 13: Linear Harmonic Oscillator (Operator Method) (Quadrant: Self Learn)
(xiv) Module 14: Coherent states of the Harmonic Oscillator (Quadrant: Self Learn)
(xv) Module 15: Symmetries in Quantum Mechanics (Quadrant: Self Learn)
(xvi) Module 16: Symmetries II: Discrete Symmetry Transformations (Quadrant: Self Learn)
(xvii) Module 17: Permutation Symmetries in Quantum Mechanics (Quadrant: Self Learn)
(xviii) Module 19: Angular Momentum-II (Quadrant: Self Learn)
(xix) Module 20: Orbital Angular Momentum and Spherical Harmonics (Quadrant: Self Learn)
(xx) Module 21: Orbital Angular Momentum and Spherical Harmonics-II (Quadrant: Self Learn)
(xxi) Module 22: Addition of Angular Momentum and Clebsch Gordon Coefficients (Quadrant:
Self Learn)
(xxii) Module 23: Coupling of Angular Momentum, Selection Rules (Quadrant: Self Learn)
(xxiii) Module 24: Clebsch Gordon Coefficients (Quadrant: Self Learn)
(xxiv) Module 25: Study of a few examples to evaluate Clebsch Gordon Coefficients (Quadrant:
Self Learn)
(xxv) Module 26: Review of earlier attempts III: Matter Waves (Quadrant: Self Learn)
(xxvi) Module 29: Symmetries in Quantum Mechanics (Quadrant: Self Learn)
2. Paper: Electromagnetic Theory
(https://epgp.inflibnet.ac.in/ahl.php?csrno=28)
(i) Module 1: Mathematical Preliminaries-I (Quadrant: Self Learn)
(ii) Module 2: Mathematical Preliminaries-II (Quadrant: Self Learn)
(iii) Module 3: Maxwell’s Equations-I (Quadrant: Self Learn)
(iv) Module 4: Maxwell’s Equations-II (Quadrant: Self Learn)
(v) Module 5: Conservation Laws-I (Quadrant: Self Learn)
(vi) Module 6: Conservation Laws-II (Quadrant: Self Learn)
(vii) Module 7: Electromagnetic Waves-I (Quadrant: Self Learn)
(viii) Module 8: Electromagnetic Waves-II (Quadrant: Self Learn)
(ix) Module 10: Waveguide and Cavities (Quadrant: Self Learn)
(x) Module 11: Theory of Relativity-I (Quadrant: Self Learn)
(xi) Module 12: Theory of Relativity-II (Quadrant: Self Learn)
(xii) Module 27: Theory of Relativity-III (Quadrant: Self Learn)
Dr. Deepti Goel:
DEVELOPMENT OF e-CONTENT@Deepti Goel
A You Tube Channel has been published under the name 'LEARNING PHYSICS WITH DEEPTI GOEL'. It is an attempt to serve the students in this crucial Pandemic period of Covid-19.
The link of the channel is
https://www.youtube.com/channel/UCQbLjFMMZaxtCtB56_BqxpQ/featured
List of links of published videos :-
1. https://youtu.be/bZGzgIbgFD4 - Lissajous Figures
2. https://youtu.be/iPvwWWSvhZE - Melde's Experiment
3. https://youtu.be/I_h8akawOJY - CATHODE RAY OSCILLOSCOPE
4. https://youtu.be/zS_xiDu3Vo0 - Atomic Nucleus Part-1
5. https://youtu.be/J2RHcCh2Vpg - PROPERTIES OF ATOMIC NUCLEUS PART 1
6. https://youtu.be/G8LfWSdqqPw - PROPERTIES OF ATOMIC NUCLEUS PART 2
7. https://youtu.be/KUNV5ITIzhw - NUCLEAR STABILITY, NUCLEAR FORCES AND PROPERTIES OF NUCLEAR FORCES
8. https://youtu.be/yH6icNrhz4Q - NUCLEAR MAGNETIC MOMENT AND ELECTRIC QUADRUPOLE MOMENT
9. https://youtu.be/ymaxRP5_0YM - NUCLEAR MODEL- LIQUID DROP MODEL
10. https://youtu.be/FvFTEL8wW9U - MASS PARABOLA EQUATION
11. https://youtu.be/eQbPeqgCNis - Experimental Evidence of Magic Number
12. https://youtu.be/91aUTR2maEM - ASSUMPTIONS OF NUCLEAR SHELL MODEL
13. https://youtu.be/5PVLaVhonlQ - NUCLEAR SHELL MODEL
14. https://youtu.be/HiGoP-Jjj8M - SUCCESS OF THE NUCLEAR SHELL MODEL
15. https://youtu.be/tWhEvMfuW9c - RADIO ACTIVITY AND PROPERTIES OF ALPHA, BETA AND GAMMA RAYS
16. https://youtu.be/tKVamJ9B1z4 - Laws of RadioActivity and Average and Half Life Time
17. https://youtu.be/gzesWYdShDo - RadioActive Series
18. https://youtu.be/4PoUh5J3e-U - Successive Transformation and RadioActive Equilibrium
19. https://youtu.be/JPaW6M_ZjdU - Discovery and Properties of Neutrons
20. https://youtu.be/wEgq0OHmFQI - β-Decay
21. https://youtu.be/M0HePOrGL8w - β Spectra and ϒ Decay
22. https://youtu.be/rmsg9Jx__WQ - Alpha Decay Part 1
23. https://youtu.be/ksOUfIDMXZU - Alpha Decay Part 2
24. https://youtu.be/32Q1PU-9tlk - Alpha Decay Part 3
25. https://youtu.be/Eo6I1_w2Lro - Gamow's Theory of Alpha Decay
26. https://youtu.be/NVTSg56Gt3Q - Classification of Elementary Particles
27. https://youtu.be/-UXT1f38r_c - PARAMETERS OF ELEMENTARY PARTICLES PART 1
28. https://youtu.be/GljR6IE2Tys - PARAMETERS OF ELEMENTARY PARTICLES PART II
29. https://youtu.be/GK9ygQfxXb8 - Conservation Laws
30. https://youtu.be/rKi7QMb-yJc - QUARKS
31. https://youtu.be/Y2NXGfzglp8 - COSMIC RAYS PART -1
32. https://youtu.be/VGwqUFiOgyw - COSMIC RAYS PART 2
33. https://youtu.be/ZwQ4iYte4K0 - COSMIC RAYS PART -3
34. https://youtu.be/pBkJAiX9W4s - Types of Interactions
35. https://youtu.be/jCFtyDbGHFE - Tale of discovery of elementary particles
36. https://youtu.be/H4Iw7r_pjeg - Eight fold symmetry in mesons and baryons
37. https://youtu.be/jkKzKqJbWIE - INTRODUCTION TO C++
38. https://youtu.be/aEAe9uqwCMU - Header and data types
39. https://youtu.be/c8uiZirfIeQ - DECLARATION OF VARIABLES
40. https://youtu.be/fyDtlpYCNd4 - INPUT OUTPUT FORMATTED FUNCTIONS
41. https://youtu.be/VqStVx9-OY0 - C++ Manipulator
42. https://youtu.be/hiquj2SVvpg - CONTROL STATEMENT- IF ELSE AND SWITCH
43. https://youtu.be/E8dwM_HLRXs - Do while for statement
44. https://youtu.be/-hWLaFvKvaQ - Bisection Method
45. https://youtu.be/6XRuBTYjdpU - Laplace Transform
46. https://youtu.be/jUWpeHImhpI - Properties of Laplace Transform
47. https://youtu.be/QJ01WURrYXs - Laplace Transform of Derivative
48. https://youtu.be/yEQvhJLlPVg - Initial and final value theorem
49. https://youtu.be/smU7V1Od0Zc - Laplace Transform of Integral of Function, L[t . f(t)] , L[f(t)/t]
50. https://youtu.be/UZV_PqfmDRM - Laplace transform of unit step function
51. https://youtu.be/ah3thoasfrM - Convolution theorem
52. https://youtu.be/pUe2RNkuzbA - Laplace transform of periodic functions
53. https://youtu.be/bC9zHM1TIog - Evaluation of Integrals
54. https://youtu.be/vz8EQ0kQcdk - Inverse Laplace Transforms
55. https://youtu.be/s1CFllauL2E - Solving Inverse Laplace Transform using Partial Fraction Method and Convolution Theorem
56. https://youtu.be/-2VAB9k-WSc - INVERSE LAPLACE TRANSFORM OF DERIVATIVE AND INTEGRAL OF FS
57. https://youtu.be/U2NqyjFw8BM - Solving differential equations using Laplace Transform
58. https://youtu.be/Lku4jbs2Ijs - Spectrometer
59. https://youtu.be/hKDiciY4KCA - Vernier of Spectrometer
60. https://youtu.be/nvnN2zXkiu4 - Least Count of Spectrometer
61. https://youtu.be/XZgUF5Cjk2o - How to Note the Readings in the Vernier of spectrometer
62. https://youtu.be/nYkP9Ro1MXk - Integral Transform
63. https://youtu.be/bBnX_Wv_af0 - Fourier Transforms
64. https://youtu.be/xN_rI6lMZeA - Numericals on Fourier integral theorem
65. https://youtu.be/S-dEVBk5wSs - Properties of Fourier Transform
66. https://youtu.be/SCXlwkf_qec - fourier sine and cosine transforms
67. https://youtu.be/BX00GM79xx0 - Convolution and Parsevals Identity
68. https://youtu.be/IxNudu2RGRg - Relationship between Fourier & Laplace Transform
69. https://youtu.be/tPMVP9wiPwg - fourier transform of derivatives
70. https://youtu.be/7BKQUdSfJFE - Complex Variables
71. https://youtu.be/3VvHJBq3iEA - analytic functions
72. https://youtu.be/RxrMTXpoF54 - cr equations in polar form
73. https://youtu.be/AstSfot7M-Y - complex integration
74. https://youtu.be/XnCIuIT6Kjo - cauchy integral theorem
75. https://youtu.be/k0xLtJsqRfQ - cauchy integral formula
Dr. Yogesh Kumar
Quantum Mechanics (Numerical Problem):
Part1: https://youtu.be/UWWSJRc1C3I
Part2: https://youtu.be/6aPAITQVVAs
Part3: https://youtu.be/5IYw2sMUCtA