| No. | Subject | Course | Topic | User Category | Telecast Date / Day | Telecast Time | Repeat Time |
|---|---|---|---|---|---|---|---|
| 1 | in physics | irreducible representation 2_ Decimet and octet diagrams in the Quark Model | 08:00:00 - 08:21:35 || | ||||
| 2 | in physics | irreducible representation 1_ Composite objects from fundamental particles | 08:21:35 - 08:38:00 || | ||||
| 3 | in physics | irreducible representation 2_ Decimet and octet diagrams in the Quark Model | 08:38:00 - 09:05:05 || | ||||
| 4 | Background, Observational Astronomy, Properties of Sun and of Stars | 09:05:05 - 09:42:09 || | |||||
| 5 | Galaxies and Universe | 09:42:09 - 10:13:43 || | |||||
| 6 | Fundamentals, Technology And Applications | 10:13:43 - 10:59:50 || | |||||
| 7 | Mechanics With Applications | Postulates of Quantum Mechanics | 10:59:50 - 11:59:53 || | ||||
| 8 | Solid State Physics | metals, insulators and semiconductors | 11:59:53 - 12:36:07 || | ||||
| 9 | Solid State Physics | 12:36:07 - 13:08:44 || | |||||
| 10 | Technology | separation in natural gas systems - II | 13:08:44 - 13:30:10 || | ||||
| 11 | Technology | equillibrium in multicomponent systems | 13:30:10 - 13:46:46 || | ||||
| 12 | Technology | multicomponent distillation -I | 13:46:46 - 14:07:01 || | ||||
| 13 | anisotropic media (Contd.) | 14:07:01 - 14:37:40 || | |||||
| 14 | anisotropic media (Contd.) | 14:37:40 - 15:11:00 || | |||||
| 15 | classical thermodynamics | 15:11:00 - 16:00:10 || | |||||
| 16 | Design | design using Quantitative feedback theory (Part 1/2) | 16:00:10 - 17:00:15 || | ||||
| 17 | II | phenomena | 17:00:15 - 18:00:03 || | ||||
| 18 | LASER | Equations: 4-Level System | 18:00:03 - 18:35:04 || | ||||
| 19 | LASER | 18:35:04 - 19:14:21 || | |||||
| 20 | And Computing | Algorithm - III | 19:14:21 - 19:36:37 || | ||||
| 21 | And Computing | Algorithm - IV | 19:36:37 - 20:05:26 || | ||||
| 22 | And Computing | Transform | 20:05:26 - 20:32:23 || | ||||
| 23 | Turbulence | Turbulence | 20:32:23 - 21:17:35 || | ||||
| 24 | Physics | of Metals; Ionic Polarization in Alkali Halides; Piezoelectricity | 21:17:35 - 21:58:47 || | ||||
| 25 | Physics | Worked Examples | 21:58:47 - 22:42:36 || | ||||
| 26 | theory | 22:42:36 - 23:29:50 || | |||||
| 27 | Optical Sensing-III | 23:29:50 - 00:10:27 || | |||||
| 28 | Theory | 00:10:27 - 01:01:18 (2025-01-29) || | |||||
| 29 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | 01:01:18 - 01:18:18 (2025-01-29) || | |||||
| 30 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | groups. Poincare group | 01:18:18 - 01:47:12 (2025-01-29) || | ||||
| 31 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | 01:47:12 - 02:00:00 (2025-01-29) || | |||||
| 32 | Mechanics | work energy theorem; conservative and non-conservative force fields | 02:00:00 - 02:17:57 (2025-01-29) || | ||||
| 33 | Mechanics | Definition of potential energy for conservative forces; total mechanical energy | 02:17:57 - 02:33:35 (2025-01-29) || | ||||
| 34 | Mechanics | - Two solved examples using conservation principles | 02:33:35 - 02:44:50 (2025-01-29) || | ||||
| 35 | Mechanics | Further discussion on potential energy | 02:44:50 - 02:59:59 (2025-01-29) || | ||||
| 36 | Classical Mechanics | Poisson Brackets | 02:59:59 - 03:15:42 (2025-01-29) || | ||||
| 37 | Classical Mechanics | triatomic molecule using Mathematica | 03:15:42 - 03:59:41 (2025-01-29) || | ||||
| 38 | From Newtonian To Lagrangian Formulation | 8 | 03:59:41 - 05:00:00 (2025-01-29) || | ||||
| 39 | Fundamentals And Applications | in magnetized plasma | 05:00:00 - 06:00:28 (2025-01-29) || | ||||
| 40 | contd | 06:00:28 - 06:59:36 (2025-01-29) || | |||||
| 41 | SOLIDS | crystal Hamiltonian - 1 | 06:59:36 - 07:28:22 (2025-01-29) || | ||||
| 42 | SOLIDS | crystal Hamilonian - 2 | 07:28:22 - 08:00:00 (2025-01-29) || | ||||
| 43 | Theory | 08:00:00 - 08:59:51 || | |||||
| 44 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | Classical Field Theories | 08:59:51 - 09:40:17 || | ||||
| 45 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | -1 | 09:40:17 - 10:06:56 || | ||||
| 46 | Mechanics | Solved examples | 10:06:56 - 10:29:17 || | ||||
| 47 | Mechanics | Applying conservation principles to solve a collision problem | 10:29:17 - 11:00:00 || | ||||
| 48 | Optoelectronics | the Course | 11:00:00 - 11:59:36 || | ||||
| 49 | physics | Fortran - Part 1 Session-A | 11:59:36 - 12:32:32 || | ||||
| 50 | physics | Fortran - Part 1 Session-B | 12:32:32 - 12:59:50 || | ||||
| 51 | Fundamentals And Applications | cyclotron and magneto sonic waves in magnetized plasma | 12:59:50 - 13:59:55 || | ||||
| 52 | contd | 13:59:55 - 14:59:37 || | |||||
| 53 | SOLIDS | - 1 | 14:59:37 - 15:59:47 || | ||||
| 54 | in physics | irreducible representation 2_ Decimet and octet diagrams in the Quark Model | 15:59:47 - 16:21:22 || | ||||
| 55 | in physics | irreducible representation 1_ Composite objects from fundamental particles | 16:21:22 - 16:37:47 || | ||||
| 56 | in physics | irreducible representation 2_ Decimet and octet diagrams in the Quark Model | 16:37:47 - 17:04:22 || | ||||
| 57 | Background, Observational Astronomy, Properties of Sun and of Stars | 17:04:22 - 17:41:26 || | |||||
| 58 | Galaxies and Universe | 17:41:26 - 18:12:30 || | |||||
| 59 | Fundamentals, Technology And Applications | 18:12:30 - 18:59:51 || | |||||
| 60 | Mechanics With Applications | Postulates of Quantum Mechanics | 18:59:51 - 20:00:00 || | ||||
| 61 | Solid State Physics | metals, insulators and semiconductors | 20:00:00 - 20:36:14 || | ||||
| 62 | Solid State Physics | 20:36:14 - 21:08:21 || | |||||
| 63 | Technology | separation in natural gas systems - II | 21:08:21 - 21:29:47 || | ||||
| 64 | Technology | equillibrium in multicomponent systems | 21:29:47 - 21:46:23 || | ||||
| 65 | Technology | multicomponent distillation -I | 21:46:23 - 22:06:08 || | ||||
| 66 | anisotropic media (Contd.) | 22:06:08 - 22:36:47 || | |||||
| 67 | anisotropic media (Contd.) | 22:36:47 - 23:09:37 || | |||||
| 68 | classical thermodynamics | 23:09:37 - 23:59:57 || | |||||
| 69 | Design | design using Quantitative feedback theory (Part 1/2) | 23:59:57 - 01:00:02 || | ||||
| 70 | II | phenomena | 01:00:02 - 01:51:30 (2025-01-30) || | ||||
| 71 | LASER | Equations: 4-Level System | 01:51:30 - 02:26:31 (2025-01-30) || | ||||
| 72 | LASER | 02:26:31 - 03:05:18 (2025-01-30) || | |||||
| 73 | And Computing | Algorithm - III | 03:05:18 - 03:27:34 (2025-01-30) || | ||||
| 74 | And Computing | Algorithm - IV | 03:27:34 - 03:56:23 (2025-01-30) || | ||||
| 75 | And Computing | Transform | 03:56:23 - 04:22:50 (2025-01-30) || | ||||
| 76 | Turbulence | Turbulence | 04:22:50 - 05:07:32 (2025-01-30) || | ||||
| 77 | Physics | of Metals; Ionic Polarization in Alkali Halides; Piezoelectricity | 05:07:32 - 05:48:44 (2025-01-30) || | ||||
| 78 | Physics | Worked Examples | 05:48:44 - 06:32:03 (2025-01-30) || | ||||
| 79 | theory | 06:32:03 - 07:18:47 (2025-01-30) || | |||||
| 80 | Optical Sensing-III | 07:18:47 - 08:00:00 (2025-01-30) || | |||||
| 81 | Design | design using Quantitative feedback theory (Part 2/2) | 08:00:00 - 09:00:10 || | ||||
| 82 | II | phenomena (Contd.) | 09:00:10 - 10:00:19 || | ||||
| 83 | LASER | Amplifier | 10:00:19 - 11:13:37 || | ||||
| 84 | And Computing | QFT | 11:13:37 - 11:42:18 || | ||||
| 85 | And Computing | 11:42:18 - 12:11:16 || | |||||
| 86 | Turbulence | Mode-To-Mode Energy Transfers | 12:11:16 - 12:48:01 || | ||||
| 87 | Turbulence | Mode-To-Mode Energy Transfers (Continued) | 12:48:01 - 13:03:17 || | ||||
| 88 | Turbulence | Examples | 13:03:17 - 13:16:03 || | ||||
| 89 | Physics | Paramagnetism | 13:16:03 - 13:56:04 || | ||||
| 90 | Physics | Transition Metal and Rare Earth Ions | 13:56:04 - 14:41:55 || | ||||
| 91 | theory | (contd..),Time Varying Field (Introduction) | 14:41:55 - 15:34:35 || | ||||
| 92 | Optical Sensing-IV | 15:34:35 - 16:08:01 || | |||||
| 93 | Optical Sensing-V | 16:08:01 - 16:37:21 || | |||||
| 94 | Theory | 16:37:21 - 17:31:12 || | |||||
| 95 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | Classical Field Theories | 17:31:12 - 18:11:38 || | ||||
| 96 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | -1 | 18:11:38 - 18:38:47 || | ||||
| 97 | Mechanics | Solved examples | 18:38:47 - 19:01:08 || | ||||
| 98 | Mechanics | Applying conservation principles to solve a collision problem | 19:01:08 - 19:21:51 || | ||||
| 99 | Optoelectronics | the Course | 19:21:51 - 20:14:57 || | ||||
| 100 | physics | Fortran - Part 1 Session-A | 20:14:57 - 20:47:53 || | ||||
| 101 | physics | Fortran - Part 1 Session-B | 20:47:53 - 21:07:41 || | ||||
| 102 | Fundamentals And Applications | cyclotron and magneto sonic waves in magnetized plasma | 21:07:41 - 22:05:26 || | ||||
| 103 | contd | 22:05:26 - 22:59:52 || | |||||
| 104 | SOLIDS | - 1 | 22:59:52 - 23:59:32 || | ||||
| 105 | in physics | irreducible representation 2_ Decimet and octet diagrams in the Quark Model | 23:59:32 - 00:21:07 || | ||||
| 106 | in physics | irreducible representation 1_ Composite objects from fundamental particles | 00:21:07 - 00:37:32 (2025-01-31) || | ||||
| 107 | in physics | irreducible representation 2_ Decimet and octet diagrams in the Quark Model | 00:37:32 - 01:04:07 (2025-01-31) || | ||||
| 108 | Background, Observational Astronomy, Properties of Sun and of Stars | 01:04:07 - 01:41:11 (2025-01-31) || | |||||
| 109 | Galaxies and Universe | 01:41:11 - 02:12:15 (2025-01-31) || | |||||
| 110 | Fundamentals, Technology And Applications | 02:12:15 - 02:59:36 (2025-01-31) || | |||||
| 111 | Mechanics With Applications | Postulates of Quantum Mechanics | 02:59:36 - 03:59:45 (2025-01-31) || | ||||
| 112 | Solid State Physics | metals, insulators and semiconductors | 03:59:45 - 04:35:59 (2025-01-31) || | ||||
| 113 | Solid State Physics | 04:35:59 - 05:08:06 (2025-01-31) || | |||||
| 114 | Technology | separation in natural gas systems - II | 05:08:06 - 05:29:32 (2025-01-31) || | ||||
| 115 | Technology | equillibrium in multicomponent systems | 05:29:32 - 05:46:08 (2025-01-31) || | ||||
| 116 | Technology | multicomponent distillation -I | 05:46:08 - 06:05:53 (2025-01-31) || | ||||
| 117 | anisotropic media (Contd.) | 06:05:53 - 06:36:32 (2025-01-31) || | |||||
| 118 | anisotropic media (Contd.) | 06:36:32 - 07:09:22 (2025-01-31) || | |||||
| 119 | classical thermodynamics | 07:09:22 - 08:00:00 (2025-01-31) || | |||||
| 120 | in physics | continuous groups | 08:00:00 - 08:16:23 || | ||||
| 121 | in physics | in hydrogen atom_ SO(4) algebra | 08:16:23 - 08:40:56 || | ||||
| 122 | in physics | spectrum and degeneracy using Runge-Lenz vector | 08:40:56 - 09:02:14 || | ||||
| 123 | elemental abundance curve | 09:02:14 - 09:33:31 || | |||||
| 124 | nucleosynthesis – I | 09:33:31 - 10:05:32 || | |||||
| 125 | Fundamentals, Technology And Applications | Dynamics in Semiconductor | 10:05:32 - 10:35:00 || | ||||
| 126 | Fundamentals, Technology And Applications | and Diode working principle | 10:35:00 - 11:05:16 || | ||||
| 127 | Mechanics With Applications | Experiment Spin Quantization Young's Double Slit Experiment | 11:05:16 - 11:59:48 || | ||||
| 128 | Solid State Physics | as a linear combination of atomic orbitals: Tight Binding Model- I | 11:59:48 - 12:19:30 || | ||||
| 129 | Solid State Physics | II | 12:19:30 - 13:03:28 || | ||||
| 130 | Technology | multicomponent distillation -II | 13:03:28 - 13:27:37 || | ||||
| 131 | Technology | systems - I | 13:27:37 - 13:59:51 || | ||||
| 132 | anisotropic media (Contd.) | 13:59:51 - 14:27:15 || | |||||
| 133 | layered structures | 14:27:15 - 14:59:39 || | |||||
| 134 | classical thermodynamics (continued) | 14:59:39 - 15:34:36 || | |||||
| 135 | thermodynamics | 15:34:36 - 16:06:28 || | |||||
| 136 | Design | design using Quantitative feedback theory (Part 2/2) | 16:06:28 - 17:00:00 || | ||||
| 137 | II | phenomena (Contd.) | 17:00:00 - 17:59:57 || | ||||
| 138 | LASER | Amplifier | 17:59:57 - 19:12:45 || | ||||
| 139 | And Computing | QFT | 19:12:45 - 19:41:26 || | ||||
| 140 | And Computing | 19:41:26 - 20:09:54 || | |||||
| 141 | Turbulence | Mode-To-Mode Energy Transfers | 20:09:54 - 20:46:39 || | ||||
| 142 | Turbulence | Mode-To-Mode Energy Transfers (Continued) | 20:46:39 - 21:01:55 || | ||||
| 143 | Turbulence | Examples | 21:01:55 - 21:14:11 || | ||||
| 144 | Physics | Paramagnetism | 21:14:11 - 21:54:12 || | ||||
| 145 | Physics | Transition Metal and Rare Earth Ions | 21:54:12 - 22:39:33 || | ||||
| 146 | theory | (contd..),Time Varying Field (Introduction) | 22:39:33 - 23:31:43 || | ||||
| 147 | Optical Sensing-IV | 23:31:43 - 00:05:09 || | |||||
| 148 | Optical Sensing-V | 00:05:09 - 00:33:59 (2025-02-01) || | |||||
| 149 | Theory | 00:33:59 - 01:27:50 (2025-02-01) || | |||||
| 150 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | Classical Field Theories | 01:27:50 - 02:08:16 (2025-02-01) || | ||||
| 151 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | -1 | 02:08:16 - 02:35:25 (2025-02-01) || | ||||
| 152 | Mechanics | Solved examples | 02:35:25 - 02:57:46 (2025-02-01) || | ||||
| 153 | Mechanics | Applying conservation principles to solve a collision problem | 02:57:46 - 03:18:29 (2025-02-01) || | ||||
| 154 | Optoelectronics | the Course | 03:18:29 - 04:11:35 (2025-02-01) || | ||||
| 155 | physics | Fortran - Part 1 Session-A | 04:11:35 - 04:44:31 (2025-02-01) || | ||||
| 156 | physics | Fortran - Part 1 Session-B | 04:44:31 - 05:04:19 (2025-02-01) || | ||||
| 157 | Fundamentals And Applications | cyclotron and magneto sonic waves in magnetized plasma | 05:04:19 - 06:02:04 (2025-02-01) || | ||||
| 158 | contd | 06:02:04 - 07:00:26 (2025-02-01) || | |||||
| 159 | SOLIDS | - 1 | 07:00:26 - 08:00:00 (2025-02-01) || | ||||
| 160 | Theory | model | 08:00:00 - 09:00:10 || | ||||
| 161 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | -2 | 09:00:10 - 10:00:48 || | ||||
| 162 | Mechanics | - Solved examples | 10:00:48 - 10:27:30 || | ||||
| 163 | Mechanics | - degrees of freedom and number of variables required to describe motion of a rigid body | 10:27:30 - 10:39:21 || | ||||
| 164 | Mechanics | - Equation of motion for a single particle in terms of angular momentum and tor | 10:39:21 - 11:04:05 || | ||||
| 165 | Optoelectronics | Solids | 11:04:05 - 12:00:49 || | ||||
| 166 | physics | Fortran - Part 2 Session-A | 12:00:49 - 12:25:14 || | ||||
| 167 | physics | Fortran - Part 2 Session-B | 12:25:14 - 13:01:00 || | ||||
| 168 | Fundamentals And Applications | plasma waves | 13:01:00 - 14:00:42 || | ||||
| 169 | Linear Effects | 14:00:42 - 15:01:32 || | |||||
| 170 | SOLIDS | - 2 | 15:01:32 - 15:33:34 || | ||||
| 171 | SOLIDS | - 3 | 15:33:34 - 16:09:46 || | ||||
| 172 | in physics | continuous groups | 16:09:46 - 16:26:09 || | ||||
| 173 | in physics | in hydrogen atom_ SO(4) algebra | 16:26:09 - 16:50:42 || | ||||
| 174 | in physics | spectrum and degeneracy using Runge-Lenz vector | 16:50:42 - 17:12:00 || | ||||
| 175 | elemental abundance curve | 17:12:00 - 17:43:17 || | |||||
| 176 | nucleosynthesis – I | 17:43:17 - 18:15:18 || | |||||
| 177 | Fundamentals, Technology And Applications | Dynamics in Semiconductor | 18:15:18 - 18:44:46 || | ||||
| 178 | Fundamentals, Technology And Applications | and Diode working principle | 18:44:46 - 19:15:02 || | ||||
| 179 | Mechanics With Applications | Experiment Spin Quantization Young's Double Slit Experiment | 19:15:02 - 19:59:54 || | ||||
| 180 | Solid State Physics | as a linear combination of atomic orbitals: Tight Binding Model- I | 19:59:54 - 20:19:36 || | ||||
| 181 | Solid State Physics | II | 20:19:36 - 21:03:34 || | ||||
| 182 | Technology | multicomponent distillation -II | 21:03:34 - 21:27:43 || | ||||
| 183 | Technology | systems - I | 21:27:43 - 21:50:07 || | ||||
| 184 | anisotropic media (Contd.) | 21:50:07 - 22:17:31 || | |||||
| 185 | layered structures | 22:17:31 - 22:48:15 || | |||||
| 186 | classical thermodynamics (continued) | 22:48:15 - 23:23:12 || | |||||
| 187 | thermodynamics | 23:23:12 - 23:55:04 || | |||||
| 188 | Design | design using Quantitative feedback theory (Part 2/2) | 23:55:04 - 00:36:16 || | ||||
| 189 | II | phenomena (Contd.) | 00:36:16 - 01:26:53 (2025-02-02) || | ||||
| 190 | LASER | Amplifier | 01:26:53 - 02:39:41 (2025-02-02) || | ||||
| 191 | And Computing | QFT | 02:39:41 - 03:08:22 (2025-02-02) || | ||||
| 192 | And Computing | 03:08:22 - 03:36:50 (2025-02-02) || | |||||
| 193 | Turbulence | Mode-To-Mode Energy Transfers | 03:36:50 - 04:13:35 (2025-02-02) || | ||||
| 194 | Turbulence | Mode-To-Mode Energy Transfers (Continued) | 04:13:35 - 04:28:51 (2025-02-02) || | ||||
| 195 | Turbulence | Examples | 04:28:51 - 04:41:07 (2025-02-02) || | ||||
| 196 | Physics | Paramagnetism | 04:41:07 - 05:21:08 (2025-02-02) || | ||||
| 197 | Physics | Transition Metal and Rare Earth Ions | 05:21:08 - 06:06:29 (2025-02-02) || | ||||
| 198 | theory | (contd..),Time Varying Field (Introduction) | 06:06:29 - 06:58:39 (2025-02-02) || | ||||
| 199 | Optical Sensing-IV | 06:58:39 - 07:32:05 (2025-02-02) || | |||||
| 200 | Optical Sensing-V | 07:32:05 - 08:00:00 (2025-02-02) || | |||||
| 201 | Design | Toolbox software (Part 1/3) | 08:00:00 - 08:20:59 || | ||||
| 202 | Design | Toolbox software (Part 2/3) | 08:20:59 - 09:01:41 || | ||||
| 203 | II | phenomena (Contd.) | 09:01:41 - 09:59:10 || | ||||
| 204 | LASER | Frequencies | 09:59:10 - 10:58:59 || | ||||
| 205 | And Computing | qubits (and more) | 10:58:59 - 11:22:24 || | ||||
| 206 | And Computing | Algorithm | 11:22:24 - 11:58:48 || | ||||
| 207 | Turbulence | Spectral Energy Flux And Shell-To-Shell Energy Transfer | 11:58:48 - 13:04:18 || | ||||
| 208 | Physics | Angular Momentum; Ferromagnetism | 13:04:18 - 13:59:12 || | ||||
| 209 | theory | Inductance | 13:59:12 - 14:58:29 || | ||||
| 210 | Optical Sensing-VI | 14:58:29 - 15:27:11 || | |||||
| 211 | Optical Sensing-VII | 15:27:11 - 15:58:34 || | |||||
| 212 | Theory | model | 15:58:34 - 16:58:22 || | ||||
| 213 | QUANTUM FIELD THEORY (THEORY OF SCALAR FIELDS) | -2 | 16:58:22 - 17:58:10 || | ||||
| 214 | Mechanics | - Solved examples | 17:58:10 - 18:24:52 || | ||||
| 215 | Mechanics | - degrees of freedom and number of variables required to describe motion of a rigid body | 18:24:52 - 18:36:43 || | ||||
| 216 | Mechanics | - Equation of motion for a single particle in terms of angular momentum and tor | 18:36:43 - 19:00:57 || | ||||
| 217 | Optoelectronics | Solids | 19:00:57 - 19:58:21 || | ||||
| 218 | physics | Fortran - Part 2 Session-A | 19:58:21 - 20:22:46 || | ||||
| 219 | physics | Fortran - Part 2 Session-B | 20:22:46 - 20:58:00 || | ||||
| 220 | Fundamentals And Applications | plasma waves | 20:58:00 - 21:57:42 || | ||||
| 221 | Linear Effects | 21:57:42 - 22:57:30 || | |||||
| 222 | SOLIDS | - 2 | 22:57:30 - 23:29:32 || | ||||
| 223 | SOLIDS | - 3 | 23:29:32 - 00:05:14 || | ||||
| 224 | in physics | continuous groups | 00:05:14 - 00:21:37 (2025-02-04) || | ||||
| 225 | in physics | in hydrogen atom_ SO(4) algebra | 00:21:37 - 00:46:10 (2025-02-04) || | ||||
| 226 | in physics | spectrum and degeneracy using Runge-Lenz vector | 00:46:10 - 01:07:28 (2025-02-04) || | ||||
| 227 | elemental abundance curve | 01:07:28 - 01:38:45 (2025-02-04) || | |||||
| 228 | nucleosynthesis – I | 01:38:45 - 02:10:46 (2025-02-04) || | |||||
| 229 | Fundamentals, Technology And Applications | Dynamics in Semiconductor | 02:10:46 - 02:40:14 (2025-02-04) || | ||||
| 230 | Fundamentals, Technology And Applications | and Diode working principle | 02:40:14 - 03:10:30 (2025-02-04) || | ||||
| 231 | Mechanics With Applications | Experiment Spin Quantization Young's Double Slit Experiment | 03:10:30 - 03:57:22 (2025-02-04) || | ||||
| 232 | Solid State Physics | as a linear combination of atomic orbitals: Tight Binding Model- I | 03:57:22 - 04:17:04 (2025-02-04) || | ||||
| 233 | Solid State Physics | II | 04:17:04 - 05:01:02 (2025-02-04) || | ||||
| 234 | Technology | multicomponent distillation -II | 05:01:02 - 05:25:11 (2025-02-04) || | ||||
| 235 | Technology | systems - I | 05:25:11 - 05:52:05 (2025-02-04) || | ||||
| 236 | anisotropic media (Contd.) | 05:52:05 - 06:19:29 (2025-02-04) || | |||||
| 237 | layered structures | 06:19:29 - 06:50:13 (2025-02-04) || | |||||
| 238 | classical thermodynamics (continued) | 06:50:13 - 07:25:10 (2025-02-04) || | |||||
| 239 | thermodynamics | 07:25:10 - 08:00:00 (2025-02-04) || |
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