Physics Class 12

Physics 12 videos According to Higher Secondary Education Board (HSEB), Nepal Designed for +2 Students.

Intermediate 5 (27 Reviews ) 194713 Students enrolled
Last updated Fri, 23-Jan-2026 Nepali
What will I learn?
  • After the completion of this course students will get the complete knowledge of Class 12 Physics.

Curriculum for this course
527 Lessons 84h 11m
0. How to Purchase Course from MeroSchool
1 Lessons
  • 0. How to Purchase Course from MeroSchool.mp4 00:03:30
  • Chapter 1- Rotational Dynamics|1. Rigid Bodies.mp4 00:06:20
  • Chapter 1- Rotational Dynamics|2. Equations of Angular Motion.mp4 00:08:21
  • Chapter 1- Rotational Dynamics|3. Equations of Rotational Motion Continued.mp4 00:09:20
  • Chapter 1- Rotational Dynamics|4. Rotational Kinetic Energy.mp4 00:13:34
  • Chapter 1- Rotational Dynamics|5. Kinetic Energy of a Rolling Body.mp4 00:13:49
  • Chapter 1- Rotational Dynamics|6. Moment of Inertia.mp4 00:12:17
  • Chapter 1- Rotational Dynamics|7. Radius of Gyration.mp4 00:11:04
  • Chapter 1- Rotational Dynamics|8. Theorem of Parallel Axes.mp4 00:15:04
  • Chapter 1- Rotational Dynamics|9. Theorem of Perpendicular Axes.mp4 00:11:37
  • Chapter 1- Rotational Dynamics|10. Moment of Inertia of a Thin Uniform Rod.mp4 00:15:25
  • Chapter 1- Rotational Dynamics|11. Calculation of Moment of Inertia of Thin Circular Ring.mp4 00:14:02
  • Chapter 1- Rotational Dynamics|12. Calculation of Moment of Inertia of Thin Circular Disc.mp4 00:16:46
  • Chapter 1- Rotational Dynamics|13. Torque.mp4 00:14:04
  • Chapter 1- Rotational Dynamics|14. Relation Between Torque and Moment of Inertia.mp4 00:11:00
  • Chapter 1- Rotational Dynamics|15. Work and Power in Rotational Motion.mp4 00:06:20
  • Chapter 1- Rotational Dynamics|16. Angular Momentum.mp4 00:09:02
  • Chapter 1- Rotational Dynamics|17. Relation Between Angular Momentum and Moment of Inertia.mp4 00:05:19
  • Chapter 1- Rotational Dynamics|18. Relation Between Angular Momentum and Torque.mp4 00:04:53
  • Chapter 1- Rotational Dynamics|19. Principle of Conservation of Angular Momentum.mp4 00:12:08
  • Chapter 1- Rotational Dynamics|20. Relation Between Translational and Rotational Motion.mp4 00:02:27
  • Chapter 1- Rotational Dynamics|21. Problem 1.mp4 00:05:38
  • Chapter 1- Rotational Dynamics|22. Problem 2.mp4 00:09:04
  • Chapter 1- Rotational Dynamics|23. Problem 3.mp4 00:05:37
  • Chapter 1- Rotational Dynamics|24. Problem 4.mp4 00:05:51
  • Chapter 1- Rotational Dynamics|25. Problem 5.mp4 00:08:51
  • Chapter 1- Rotational Dynamics|26. Problem 6.mp4 00:16:42
  • Chapter 1- Rotational Dynamics|27. Problem 7.mp4 00:13:11
  • Chapter 2- Periodic Motion|1. Simple Harmonic Equation Introduction.mp4 00:07:27
  • Chapter 2- Periodic Motion|2. Displacement Equation.mp4 00:08:20
  • Chapter 2- Periodic Motion|3. Velocity Equation.mp4 00:09:29
  • Chapter 2- Periodic Motion|4. Acceleration Equation.mp4 00:09:24
  • Chapter 2- Periodic Motion|5. Amplitude, Time Period, Frequency and Phase of a Particle in SHM.mp4 00:14:10
  • Chapter 2- Periodic Motion|6. Graphical Interpretation of Displacement, Velocity and Acceleration in SHM.mp4 00:09:13
  • Chapter 2- Periodic Motion|7. Energy in SHM.mp4 00:25:04
  • Chapter 2- Periodic Motion|8. Vibration of a Particle in Horizontal Spring.mp4 00:07:26
  • Chapter 2- Periodic Motion|9. Application of Simple Harmonic Motion.mp4 00:05:37
  • Chapter 2- Periodic Motion|10. Vibration of a Particle in Vertical Spring.mp4 00:21:57
  • Chapter 2- Periodic Motion|11. Second's Pendulum and Drawbacks of Simple Pendulum.mp4 00:08:30
  • Chapter 2- Periodic Motion|12. Angular Simple Harmonic Motion.mp4 00:08:54
  • Chapter 2- Periodic Motion|13. Free Oscillation and Damped Oscillation.mp4 00:04:23
  • Chapter 2- Periodic Motion|14. Forced Vibration and Resonant Vibration.mp4 00:05:40
  • Chapter 2- Periodic Motion|15. Problem 1.mp4 00:08:24
  • Chapter 2- Periodic Motion|16. Problem 2.mp4 00:10:29
  • Chapter 2- Periodic Motion|17. Problem 3.mp4 00:09:42
  • Chapter 2- Periodic Motion|18. Problem 4.mp4 00:11:18
  • Chapter 2- Periodic Motion|19. Problem 5.mp4 00:11:18
  • Chapter 2- Periodic Motion|20. Problem 6.mp4 00:04:26
  • Chapter 3- Fluid Statics|1. Pascal's Law.mp4 00:11:28
  • Chapter 3- Fluid Statics|2. Archimedes' Law.mp4 00:11:24
  • Chapter 3- Fluid Statics|3. Pressure in a Liquid.mp4 00:04:29
  • Chapter 3- Fluid Statics|4. Upthrust and Laws of Floatation.mp4 00:12:26
  • Chapter 3- Fluid Statics|5. Equilibrium of Floating Bodies.mp4 00:08:34
  • Chapter 3- Fluid Statics|6. Surface Tension.mp4 00:09:00
  • Chapter 3- Fluid Statics|7. Some Examples of Surface Tension.mp4 00:05:12
  • Chapter 3- Fluid Statics|8. Surface Energy.mp4 00:05:53
  • Chapter 3- Fluid Statics|9. Relation Between Surface Energy and Surface Tension.mp4 00:04:51
  • Chapter 3- Fluid Statics|10. Excess Pressure on Curved Surface of a Liquid.mp4 00:03:32
  • Chapter 3- Fluid Statics|11. Excess Pressure Inside a Liquid Drop.mp4 00:12:45
  • Chapter 3- Fluid Statics|12. Shape of Liquid Surface.mp4 00:05:16
  • Chapter 3- Fluid Statics|13. Angle of Contact.mp4 00:03:56
  • Chapter 3- Fluid Statics|14. Capillarity.mp4 00:08:03
  • Chapter 3- Fluid Statics|15. Measurement of Surface Tension by Capillary Rise Method.mp4 00:17:27
  • Chapter 3- Fluid Statics|16. Newton's Law of Viscosity.mp4 00:15:09
  • Chapter 3- Fluid Statics|17. Units of Coefficient of Viscosity.mp4 00:09:02
  • Chapter 3- Fluid Statics|18. Types of Flow.mp4 00:06:26
  • Chapter 3- Fluid Statics|19. Critical Velocity and Reynold's Number.mp4 00:12:54
  • Chapter 3- Fluid Statics|20. Poiseuille's Formula.mp4 00:12:32
  • Chapter 3- Fluid Statics|21. Applications of Poiseuille's Formula.mp4 00:07:46
  • Chapter 3- Fluid Statics|22. Stokes' Law.mp4 00:15:30
  • Chapter 3- Fluid Statics|23. Determination of Viscosity of a Liquid Using Stokes' Formula.mp4 00:08:23
  • Chapter 3- Fluid Statics|24. Equation of Continuity.mp4 00:07:57
  • Chapter 3- Fluid Statics|25. Energy of a Liquid.mp4 00:08:13
  • Chapter 3- Fluid Statics|26. Bernoulli's Theorem.mp4 00:16:17
  • Chapter 3- Fluid Statics|27. Applications of Bernoulli's Theorem.mp4 00:13:22
  • Chapter 3- Fluid Statics|28. Problem 1.mp4 00:06:06
  • Chapter 3- Fluid Statics|29. Problem 2.mp4 00:05:52
  • Chapter 3- Fluid Statics|30. Problem 3.mp4 00:10:59
  • Chapter 3- Fluid Statics|31. Problem 4.mp4 00:05:39
  • Chapter 3- Fluid Statics|32. Problem 5.mp4 00:11:42
  • Chapter 3- Fluid Statics|33. Problem 6.mp4 00:04:50
  • Chapter 3- Fluid Statics|34. Problem 7.mp4 00:08:55
  • Chapter 3- Fluid Statics|35. Problem 8.mp4 00:07:05
  • Chapter 3- Fluid Statics|36. Problem 9.mp4 00:09:37
  • Chapter 4- First Law of Thermodynamics|1.Thermodynamic Systems and Thermal Equilibrium.mp4 00:08:28
  • Chapter 4- First Law of Thermodynamics|2. Work Done During Volume Change.mp4 00:08:16
  • Chapter 4- First Law of Thermodynamics|3. Indicator Diagram.mp4 00:10:21
  • Chapter 4- First Law of Thermodynamics|4. Work Done in a Cyclic Process.mp4 00:06:11
  • Chapter 4- First Law of Thermodynamics|5. Heat, Work and Internal Energy.mp4 00:08:23
  • Chapter 4- First Law of Thermodynamics|6. First Law of Thermodynamics.mp4 00:09:51
  • Chapter 4- First Law of Thermodynamics|7. Isothermal Process.mp4 00:02:24
  • Chapter 4- First Law of Thermodynamics|8. Adiabatic Process.mp4 00:07:47
  • Chapter 4- First Law of Thermodynamics|9. Equation for Adiabatic Process.mp4 00:12:25
  • Chapter 4- First Law of Thermodynamics|10. Adiabatic Equation in Terms of T and V, and T and P.mp4 00:08:20
  • Chapter 4- First Law of Thermodynamics|11. Work Done During an Adiabatic Process.mp4 00:08:13
  • Chapter 4- First Law of Thermodynamics|12. Isochoric and Isobaric Process.mp4 00:07:55
  • Chapter 4- First Law of Thermodynamics|13. Reversible and Irreverisible Processes.mp4 00:05:19
  • Chapter 4- First Law of Thermodynamics|14. Molar Heat Capacity of a Gas at Constant Volume.mp4 00:07:22
  • Chapter 4- First Law of Thermodynamics|15. Molar Heat Capacity of a Gas at Constant Pressure.mp4 00:04:08
  • Chapter 4- First Law of Thermodynamics|16. Relation Between Two Molar Specific Heat Capacities of Gas.mp4 00:11:09
  • Chapter 4- First Law of Thermodynamics|17. Limitations of First Law of Thermodynamics.mp4 00:03:49
  • Chapter 4- First Law of Thermodynamics|18. Problem 1.mp4 00:03:44
  • Chapter 4- First Law of Thermodynamics|19. Problem 2.mp4 00:07:53
  • Chapter 4- First Law of Thermodynamics|20. Problem 3.mp4 00:06:10
  • Chapter 4- First Law of Thermodynamics|21. Problem 4.mp4 00:07:56
  • Chapter 4- First Law of Thermodynamics|22. Problem 5.mp4 00:09:42
  • Chapter 4- First Law of Thermodynamics|23. Problem 6.mp4 00:07:38
  • Chapter 5- Second Law of Thermodynamics|1. Statements of Second Law of Thermodynamics.mp4 00:10:48
  • Chapter 5- Second Law of Thermodynamics|2. Heat Engines.mp4 00:08:18
  • Chapter 5- Second Law of Thermodynamics|3. Carnot Engine.mp4 00:06:52
  • Chapter 5- Second Law of Thermodynamics|4. Carnot's Cycle.mp4 00:17:03
  • Chapter 5- Second Law of Thermodynamics|5. Efficiency of a Carnot's Engine.mp4 00:19:36
  • Chapter 5- Second Law of Thermodynamics|6. Petrol Engine.mp4 00:10:23
  • Chapter 5- Second Law of Thermodynamics|7. Otto Cycle in a P-V Diagram.mp4 00:06:28
  • Chapter 5- Second Law of Thermodynamics|8. Efficiency of a Petrol Engine.mp4 00:06:43
  • Chapter 5- Second Law of Thermodynamics|9. Diesel Engine.mp4 00:10:30
  • Chapter 5- Second Law of Thermodynamics|10. Diesel Cycle in a P-V Diagram.mp4 00:04:54
  • Chapter 5- Second Law of Thermodynamics|11. Efficiency of a Diesel Engine.mp4 00:05:01
  • Chapter 5- Second Law of Thermodynamics|12. Refrigerator.mp4 00:07:47
  • Chapter 5- Second Law of Thermodynamics|13. Entropy.mp4 00:10:29
  • Chapter 5- Second Law of Thermodynamics|14. Entropy in a Cyclic Process.mp4 00:06:11
  • Chapter 5- Second Law of Thermodynamics|15. Entropy and Second Law of Thermodynamics.mp4 00:11:36
  • Chapter 5- Second Law of Thermodynamics|16. Kelvin Temperature Scale.mp4 00:05:05
  • Chapter 5- Second Law of Thermodynamics|17. Problem 1.mp4 00:04:31
  • Chapter 5- Second Law of Thermodynamics|18. Problem 2.mp4 00:05:23
  • Chapter 5- Second Law of Thermodynamics|19. Problem 3.mp4 00:08:31
  • Chapter 5- Second Law of Thermodynamics|20. Problem 4.mp4 00:05:13
  • Chapter 5- Second Law of Thermodynamics|21. Problem 5.mp4 00:01:48
  • Chapter 5- Second Law of Thermodynamics|22. Problem 6.mp4 00:09:54
  • Chapter 6- Wave Motion|1. Wave Motion.mp4 00:12:45
  • Chapter 6- Wave Motion|2. Wave Properties.mp4 00:10:58
  • Chapter 6- Wave Motion|3. Equation of a Progressive Wave.mp4 00:13:29
  • Chapter 6- Wave Motion|4. Demonstration of Equation of a Progressive Wave.mp4 00:08:39
  • Chapter 6- Wave Motion|5. Differential Equation of a Progressive Wave.mp4 00:07:00
  • Chapter 6- Wave Motion|6. Principle of Superposition.mp4 00:07:18
  • Chapter 6- Wave Motion|7. Demonstration of Principle of Superposition.mp4 00:08:02
  • Chapter 6- Wave Motion|8. Standing Wave.mp4 00:07:34
  • Chapter 6- Wave Motion|9. Demonstration of Standing Wave.mp4 00:05:45
  • Chapter 6- Wave Motion|10. Equation of Standing Wave.mp4 00:11:47
  • Chapter 6- Wave Motion|11. Demonstration of Distance Between Nodes and Antinodes.mp4 00:03:24
  • Chapter 6- Wave Motion|12. Properties of Standing Waves.mp4 00:06:31
  • Chapter 6- Wave Motion|13. Problem 1.mp4 00:06:10
  • Chapter 6- Wave Motion|14. Problem 2.mp4 00:03:02
  • Chapter 6- Wave Motion|15. Problem 3.mp4 00:08:16
  • Chapter 6- Wave Motion|16. Problem 4.mp4 00:05:57
  • Chapter 7- Mechanical Waves|1. Velocity of Sound in Liquid and Gas.mp4 00:04:32
  • Chapter 7- Mechanical Waves|2. Velocity of Sound in a Gas.mp4 00:09:39
  • Chapter 7- Mechanical Waves|3. Newton's Formula for Velocity of Sound.mp4 00:06:49
  • Chapter 7- Mechanical Waves|4. Laplace Correction.mp4 00:08:15
  • Chapter 7- Mechanical Waves|5. Effect of Temperature on the Velocity of Sound in a Gas.mp4 00:05:30
  • Chapter 7- Mechanical Waves|6. Effect of Pressure and Density on the Velocity of Sound in a Gas.mp4 00:03:30
  • Chapter 7- Mechanical Waves|7. Effect of Humidity, Direction of Wind, Frequency, Wavelength and Amplitude on the Velocity of Sound in a Gas.mp4 00:08:12
  • Chapter 7- Mechanical Waves|8. Problem 1.mp4 00:06:15
  • Chapter 7- Mechanical Waves|9. Problem 2.mp4 00:04:00
  • Chapter 7- Mechanical Waves|10. Problem 3.mp4 00:09:13
  • Chapter 7- Mechanical Waves|11. Problem 4.mp4 00:09:13
  • Chapter 8- Waves in Pipes and Strings|1. Waves is Pipes and Strings.mp4 00:03:58
  • Chapter 8- Waves in Pipes and Strings|2. Closed Pipe.mp4 00:18:01
  • Chapter 8- Waves in Pipes and Strings|3. Open Pipe.mp4 00:10:21
  • Chapter 8- Waves in Pipes and Strings|4. End correction in Pipes.mp4 00:07:58
  • Chapter 8- Waves in Pipes and Strings|5. Resonance.mp4 00:05:44
  • Chapter 8- Waves in Pipes and Strings|6. Measurement of Velocity of Sound by Resonance Air Column Tube.mp4 00:10:19
  • Chapter 8- Waves in Pipes and Strings|7. Velocity of Transverse Waves along a Stretched String.mp4 00:10:38
  • Chapter 8- Waves in Pipes and Strings|8. Vibration on Strings.mp4 00:13:25
  • Chapter 8- Waves in Pipes and Strings|9. Laws of Vibration of a Fixed String.mp4 00:11:56
  • Chapter 8- Waves in Pipes and Strings|10. Problem 1.mp4 00:02:02
  • Chapter 8- Waves in Pipes and Strings|11. Problem 2.mp4 00:02:45
  • Chapter 8- Waves in Pipes and Strings|12. Problem 3.mp4 00:05:58
  • Chapter 8- Waves in Pipes and Strings|13. Problem 4.mp4 00:05:47
  • Chapter 8- Waves in Pipes and Strings|14. Problem 5.mp4 00:08:38
  • Chapter 8- Waves in Pipes and Strings|15. Problem 6.mp4 00:07:22
  • Chapter 8- Waves in Pipes and Strings|16. Demonstration.mp4 00:15:03
  • Chapter 9- Acoustic Phenomena|1. Sound as Pressure Waves.mp4 00:14:33
  • Chapter 9- Acoustic Phenomena|2. Musical Sound and Noise.mp4 00:06:35
  • Chapter 9- Acoustic Phenomena|3. Characteristics of Musical Sound.mp4 00:10:45
  • Chapter 9- Acoustic Phenomena|4. Intensity of Sound.mp4 00:17:42
  • Chapter 9- Acoustic Phenomena|5. Intensity and Loudness of Sound.mp4 00:17:33
  • Chapter 9- Acoustic Phenomena|6. Doppler Effect.mp4 00:07:54
  • Chapter 9- Acoustic Phenomena|7. Change in Frequency when Source is in Motion.mp4 00:06:07
  • Chapter 9- Acoustic Phenomena|8. Change in Frequency when Observer is in Motion.mp4 00:07:00
  • Chapter 9- Acoustic Phenomena|9. Change in Frequency when both Source and Observer is in Motion.mp4 00:15:43
  • Chapter 9- Acoustic Phenomena|10. Limitations of Doppler Effect, Shock Waves.mp4 00:13:26
  • Chapter 9- Acoustic Phenomena|11. Doppler Effect in Electromagnetic Waves.mp4 00:06:14
  • Chapter 9- Acoustic Phenomena|12. Applications of Doppler Effect.mp4 00:02:21
  • Chapter 9- Acoustic Phenomena|13. Range of Hearing.mp4 00:05:24
  • Chapter 9- Acoustic Phenomena|14. Doppler Effect Demonstration.mp4 00:05:04
  • Chapter 9- Acoustic Phenomena|15. Problem 1.mp4 00:12:19
  • Chapter 9- Acoustic Phenomena|16. Problem 2.mp4 00:11:47
  • Chapter 9- Acoustic Phenomena|17. Problem 3.mp4 00:06:31
  • Chapter 9- Acoustic Phenomena|18. Problem 4.mp4 00:10:19
  • Chapter 9- Acoustic Phenomena|19. Problem 5.mp4 00:04:00
  • Chapter 9- Acoustic Phenomena|20. Problem 6.mp4 00:08:43
  • Chapter 9- Acoustic Phenomena|21. Problem 7.mp4 00:11:57
  • Chapter 10- Nature and Propagation of Light|1. Nature and Sources of Light.mp4 00:16:47
  • Chapter 10- Nature and Propagation of Light|2. Electromagnetic Spectrum.mp4 00:05:51
  • Chapter 10- Nature and Propagation of Light|3. Wavefronts and its Types.mp4 00:06:54
  • Chapter 10- Nature and Propagation of Light|4. Demonstration of Wavefronts.mp4 00:10:48
  • Chapter 10- Nature and Propagation of Light|5. Huygens' Principle.mp4 00:06:22
  • Chapter 10- Nature and Propagation of Light|6. Laws of Reflection on the Basis of Wave Theory.mp4 00:11:23
  • Chapter 10- Nature and Propagation of Light|7. Laws of Refraction of Light on the Basis of Wave Theory.mp4 00:11:56
  • Chapter 11- Interference|1. Superposition principle.mp4 00:09:33
  • Chapter 11- Interference|2. Coherent Sources.mp4 00:05:59
  • Chapter 11- Interference|3. Interference of light.mp4 00:14:16
  • Chapter 11- Interference|4. Optical path.mp4 00:05:34
  • Chapter 11- Interference|5. Young's Double Slit Experiment.mp4 00:08:06
  • Chapter 11- Interference|6. Analytical Treatment of Interference.mp4 00:23:25
  • Chapter 11- Interference|7. Theory of Young's Double Slit experiment.mp4 00:24:07
  • Chapter 11- Interference|8. Problem 1.mp4 00:06:56
  • Chapter 11- Interference|9. Problem 2.mp4 00:03:53
  • Chapter 11- Interference|10. Problem 3.mp4 00:08:51
  • Chapter 11- Interference|11. Problem 4.mp4 00:09:28
  • Chapter 11- Interference|12. Problem 5.mp4 00:16:11
  • Chapter 12- Diffraction|1. Diffraction.mp4 00:07:05
  • Chapter 12- Diffraction|2. Types of diffraction.mp4 00:09:06
  • Chapter 12- Diffraction|3. Fraunhofer diffraction of single slit.mp4 00:14:49
  • Chapter 12- Diffraction|4. Secondary maxima.mp4 00:14:54
  • Chapter 12- Diffraction|5. Secondary maxima.mp4 00:20:37
  • Chapter 12- Diffraction|6. Diffraction grating.mp4 00:18:26
  • Chapter 12- Diffraction|7. Resolving Power.mp4 00:16:38
  • Chapter 12- Diffraction|8. Problem 1.mp4 00:02:45
  • Chapter 12- Diffraction|9. Problem 2.mp4 00:06:21
  • Chapter 12- Diffraction|10. Problem 3.mp4 00:07:40
  • Chapter 12- Diffraction|11. Problem 4.mp4 00:08:44
  • Chapter 12- Diffraction|12. Problem 5.mp4 00:11:57
  • Chapter 13- Polarization|1. Polarization of light.mp4 00:17:21
  • Chapter 13- Polarization|2. Polarized and unpolarized light.mp4 00:13:29
  • Chapter 13- Polarization|3. Polaroid.mp4 00:12:44
  • Chapter 13- Polarization|4. Malus' Law.mp4 00:19:46
  • Chapter 13- Polarization|5. Brewester's Law.mp4 00:17:48
  • Chapter 13- Polarization|6. Problem 1.mp4 00:04:22
  • Chapter 13- Polarization|7. Problem 2.mp4 00:05:22
  • Chapter 13- Polarization|8. Problem 3.mp4 00:05:08
  • Chapter 13- Polarization|9. Problem 4.mp4 00:06:35
  • Chapter 14- Electrical Circuits|1. Electric circuits.mp4 00:09:10
  • Chapter 14- Electrical Circuits|2. Kirchhoff Current Law.mp4 00:06:47
  • Chapter 14- Electrical Circuits|3. Kirchhoff Voltage Law.mp4 00:13:47
  • Chapter 14- Electrical Circuits|4. Kirchhoff Voltage Law (Second form).mp4 00:12:35
  • Chapter 14- Electrical Circuits|5. Wheatstone Bridge.mp4 00:17:25
  • Chapter 14- Electrical Circuits|6. Meter Bridge.mp4 00:07:00
  • Chapter 14- Electrical Circuits|7. P.O. Box.mp4 00:19:43
  • Chapter 14- Electrical Circuits|8. Potentiometer.mp4 00:09:43
  • Chapter 14- Electrical Circuits|9. Determination of Internal resistance of a cell.mp4 00:11:09
  • Chapter 14- Electrical Circuits|10. Comparison of emfs of two cells and determination of emf of one cell.mp4 00:06:03
  • Chapter 14- Electrical Circuits|11. Superconductors and their Applications.mp4 00:12:14
  • Chapter 14- Electrical Circuits|12. Galvanometer.mp4 00:09:57
  • Chapter 14- Electrical Circuits|13. Conversion of Galvanometer into Ammeter.mp4 00:15:11
  • Chapter 14- Electrical Circuits|14. Conversion of Galvanometer into Voltmeter.mp4 00:13:16
  • Chapter 14- Electrical Circuits|15. Ohmmeter.mp4 00:07:59
  • Chapter 14- Electrical Circuits|16. Joule's Law of heating.mp4 00:11:17
  • Chapter 14- Electrical Circuits|17. Symmetry in electric circuits.mp4Chapter 14- Electrical Circuits| 00:15:41
  • Chapter 14- Electrical Circuits|18. Problem 1.mp4 00:10:11
  • Chapter 14- Electrical Circuits|19. Problem 2.mp4 00:21:53
  • Chapter 14- Electrical Circuits|20. Problem 3.mp4 00:05:08
  • Chapter 14- Electrical Circuits|21. Problem 4.mp4 00:14:24
  • Chapter 14- Electrical Circuits|22. Problem 5.mp4 00:06:37
  • Chapter 14- Electrical Circuits|23. Problem 6.mp4 00:04:29
  • Chapter 14- Electrical Circuits|24. Problem 7.mp4 00:21:50
  • Chapter 15- Thermoelectric Effect|1. Thermoelectric effect.mp4 00:05:13
  • Chapter 15- Thermoelectric Effect|2. Seebeck Effect.mp4 00:06:04
  • Chapter 15- Thermoelectric Effect|3. Variation of Thermo emf with temperature.mp4 00:09:17
  • Chapter 15- Thermoelectric Effect|4. Relation between Thermoelectric constants.mp4 00:03:50
  • Chapter 15- Thermoelectric Effect|5. Thermoelectric power, and Cause of Seebeck Effect.mp4 00:04:10
  • Chapter 15- Thermoelectric Effect|6. Peltier Effect.mp4 00:06:40
  • Chapter 15- Thermoelectric Effect|7. Thomson Effect.mp4 00:07:17
  • Chapter 15- Thermoelectric Effect|8. Applications of Thermoelectric effect.mp4 00:04:38
  • Chapter 15- Thermoelectric Effect|9. Problem 1.mp4 00:04:30
  • Chapter 15- Thermoelectric Effect|10. Problem 2.mp4 00:05:32
  • Chapter 16- Magnetic Field|1. Magnetic field lines.mp4 00:08:15
  • Chapter 16- Magnetic Field|2. Magnetic flux.mp4 00:12:34
  • Chapter 16- Magnetic Field|3. Units of magnetic flux.mp4 00:03:44
  • Chapter 16- Magnetic Field|4. Oersted Experiment.mp4 00:11:37
  • Chapter 16- Magnetic Field|5. Force on a moving charge in a magnetic field.mp4 00:12:11
  • Chapter 16- Magnetic Field|6. Force of charge demonstration.mp4 00:11:15
  • Chapter 16- Magnetic Field|7. Force on a current carrying conductor.mp4 00:10:23
  • Chapter 16- Magnetic Field|8. Torque on rectangular coil in a uniform field.mp4 00:10:40
  • Chapter 16- Magnetic Field|9. Moving coil galvanometer.mp4 00:11:14
  • Chapter 16- Magnetic Field|10. Sensitivity of a galvanometer.mp4 00:05:35
  • Chapter 16- Magnetic Field|11. Hall effect.mp4 00:15:17
  • Chapter 16- Magnetic Field|12. Hall Probe.mp4 00:03:49
  • Chapter 16- Magnetic Field|13. Magnetic field due to a moving charge.mp4 00:12:32
  • Chapter 16- Magnetic Field|14. Biot and Savart Law.mp4 00:12:24
  • Chapter 16- Magnetic Field|15. Magnetic field at the centre of current carrying conductor.mp4 00:10:14
  • Chapter 16- Magnetic Field|16. Magnetic field on the axis of current carrying circular coil.mp4 00:14:45
  • Chapter 16- Magnetic Field|17. Demonstration of magnetic field on the axis of current carrying circular coil.mp4 00:03:47
  • Chapter 16- Magnetic Field|18. Magnetic field due to a straight current carrying conductor.mp4 00:20:38
  • Chapter 16- Magnetic Field|19. Magnetic field on the axis of solenoid.mp4 00:18:11
  • Chapter 16- Magnetic Field|20. Ampere's Law.mp4 00:14:31
  • Chapter 16- Magnetic Field|21. Magnetic field due to current carring solenoid by Ampere's Law.mp4 00:09:37
  • Chapter 16- Magnetic Field|22. Magnetic field due to a current carrying toroid.mp4 00:13:51
  • Chapter 16- Magnetic Field|23. Helmholtz Coil.mp4 00:14:28
  • Chapter 16- Magnetic Field|24. Force between to parallel current carrying conductors.mp4 00:10:53
  • Chapter 16- Magnetic Field|25. Definition of Ampere.mp4 00:04:43
  • Chapter 16- Magnetic Field|26. Problem 1.mp4 00:07:12
  • Chapter 16- Magnetic Field|27. Problem 2.mp4 00:07:43
  • Chapter 16- Magnetic Field|28. Problem 3.mp4 00:05:38
  • Chapter 16- Magnetic Field|29. Problem 4.mp4 00:12:11
  • Chapter 16- Magnetic Field|30. Problem 5.mp4 00:08:01
  • Chapter 16- Magnetic Field|31. Problem 6.mp4 00:06:33
  • Chapter 16- Magnetic Field|32. Problem 7.mp4 00:04:24
  • Chapter 16- Magnetic Field|33. Problem 8.mp4 00:08:19
  • Chapter 17- Magnetic Properties of Materials|1. Coulomb's Law.mp4 00:09:23
  • Chapter 17- Magnetic Properties of Materials|2. Magnetic Field Intensity.mp4 00:06:55
  • Chapter 17- Magnetic Properties of Materials|3. Torque experienced by a magnet in a magnetic field.mp4 00:14:19
  • Chapter 17- Magnetic Properties of Materials|4. Tangent Law.mp4 00:09:56
  • Chapter 17- Magnetic Properties of Materials|5. Intensity of magnetization.mp4Chapter 17- Magnetic Properties of Materials| 00:11:16
  • Chapter 17- Magnetic Properties of Materials|6. Flux density in magnetic material.mp4 00:08:25
  • Chapter 17- Magnetic Properties of Materials|7. Magnetic Permeability.mp4 00:05:24
  • Chapter 17- Magnetic Properties of Materials|8. Magnetic Susceptibility.mp4 00:09:24
  • Chapter 17- Magnetic Properties of Materials|9. Hysteresis.mp4 00:15:58
  • Chapter 17- Magnetic Properties of Materials|10. Dia, Para, and Ferro-magnetic material.mp4 00:13:16
  • Chapter 17- Magnetic Properties of Materials|11. Problem 1.mp4 00:06:28
  • Chapter 17- Magnetic Properties of Materials|12. Problem 2.mp4 00:05:17
  • Chapter 17- Magnetic Properties of Materials|13. Problem 3.mp4 00:03:34
  • Chapter 17- Magnetic Properties of Materials|14. Problem 4.mp4 00:04:15
  • Chapter 18- Electromagnetic Induction|1. Faraday's law of electromagentic induction.mp4 00:10:51
  • Chapter 18- Electromagnetic Induction|2. Induced electric current.mp4 00:15:23
  • Chapter 18- Electromagnetic Induction|3. Lenz's Law.mp4 00:07:12
  • Chapter 18- Electromagnetic Induction|4. Fleming's right hand rule.mp4 00:05:07
  • Chapter 18- Electromagnetic Induction|5. Magnetic field induced in a straight conductor moving in a uniform magnetic field.mp4 00:07:38
  • Chapter 18- Electromagnetic Induction|6. Induced emf in a coil rotating in a magnetic field.mp4 00:08:26
  • Chapter 18- Electromagnetic Induction|7. A.C. generator.mp4 00:11:51
  • Chapter 18- Electromagnetic Induction|8. DC Dynamo.mp4 00:06:22
  • Chapter 18- Electromagnetic Induction|9. Eddy current.mp4 00:06:07
  • Chapter 18- Electromagnetic Induction|10. Application and undesirable effects of eddy current.mp4 00:11:24
  • Chapter 18- Electromagnetic Induction|11. Self inductance.mp4 00:10:59
  • Chapter 18- Electromagnetic Induction|12. Dimensional formula of self inductance.mp4 00:05:09
  • Chapter 18- Electromagnetic Induction|13. Self inductance of a solenoid.mp4 00:05:06
  • Chapter 18- Electromagnetic Induction|14. Mutual Inductance.mp4 00:08:28
  • Chapter 18- Electromagnetic Induction|15. Mutual inductance of two long coaxial solenoids.mp4 00:18:02
  • Chapter 18- Electromagnetic Induction|16. Energy of a inductor.mp4 00:09:39
  • Chapter 18- Electromagnetic Induction|17. Transformers.mp4 00:16:02
  • Chapter 18- Electromagnetic Induction|18. Energy Losses in a Transformer.mp4 00:10:24
  • Chapter 18- Electromagnetic Induction|19. Problem 1.mp4 00:05:08
  • Chapter 18- Electromagnetic Induction|20. Problem 2.mp4 00:08:14
  • Chapter 18- Electromagnetic Induction|21. Problem 3.mp4 00:04:16
  • Chapter 18- Electromagnetic Induction|22. Problem 4.mp4 00:08:11
  • Chapter 18- Electromagnetic Induction|23. Problem 5.mp4 00:05:08
  • Chapter 18- Electromagnetic Induction|24. Problem 6.mp4 00:04:04
  • Chapter 18- Electromagnetic Induction|25. Problem 7.mp4 00:04:49
  • Chapter 18- Electromagnetic Induction|26. Problem 8.mp4 00:05:48
  • Chapter 19- Alternating Current|1. Alternating current.mp4 00:03:10
  • Chapter 19- Alternating Current|2. Peak value and rms value of AC current and voltage.mp4 00:16:50
  • Chapter 19- Alternating Current|3. Average value of alternating current.mp4 00:09:51
  • Chapter 19- Alternating Current|4. Phasor diagram.mp4 00:11:16
  • Chapter 19- Alternating Current|5. AC through Resistor.mp4 00:10:08
  • Chapter 19- Alternating Current|6. AC through an Inductor.mp4 00:20:32
  • Chapter 19- Alternating Current|7. Inductive Reactance.mp4 00:04:49
  • Chapter 19- Alternating Current|8. AC through a Capacitor.mp4 00:14:47
  • Chapter 19- Alternating Current|9. Capacitive Reactance.mp4 00:06:21
  • Chapter 19- Alternating Current|10. AC through an inductor and a resistor in series.mp4 00:12:16
  • Chapter 19- Alternating Current|11. AC through an inductor and a resistor in series Demonstration.mp4 00:08:23
  • Chapter 19- Alternating Current|12. AC through an capacitance and a resistance in series.mp4 00:08:34
  • Chapter 19- Alternating Current|13. AC through an capacitance and a resistance in series Demonstration.mp4 00:12:18
  • Chapter 19- Alternating Current|14. AC through a Resistance, Inductance and Capacitance.mp4 00:18:19
  • Chapter 19- Alternating Current|15. Demonstration of phasor diagram of AC through a Resistance, Inductance and Capacitance.mp4 00:10:21
  • Chapter 19- Alternating Current|16. Impedance and Admittance.mp4 00:04:50
  • Chapter 19- Alternating Current|17. Resonance is Series LCR circuit.mp4 00:17:46
  • Chapter 19- Alternating Current|18. Quality Factor.mp4 00:05:44
  • Chapter 19- Alternating Current|19. Power consumed in a series LCR circuit.mp4 00:13:56
  • Chapter 19- Alternating Current|20. Power factor.mp4 00:15:40
  • Chapter 19- Alternating Current|21. Choke coil.mp4 00:05:43
  • Chapter 19- Alternating Current|22. Advantages and disadvantages of AC.mp4 00:08:30
  • Chapter 19- Alternating Current|23. Problem 1.mp4 00:07:47
  • Chapter 19- Alternating Current|24. Problem 2.mp4 00:10:52
  • Chapter 19- Alternating Current|25. Problem 3.mp4 00:09:31
  • Chapter 19- Alternating Current|26. Problem 4.mp4 00:15:30
  • Chapter 19- Alternating Current|27. Problem 5.mp4 00:06:33
  • Chapter 20. Electrons|1. Millikan's Oil Drop Experiment (Part 1).mp4 00:12:23
  • Chapter 24. Radioactivity and Nuclear Reaction|14. Relation between half-life and decay constant.mp4 00:07:23
  • Chapter 20. Electrons|2. Millikan's Oil Drop Experiment (Part 2).mp4 00:14:44
  • Chapter 20. Electrons|3. Extimating mass of an electron.mp4 00:09:26
  • Chapter 20. Electrons|4. Discharge through gases.mp4 00:09:38
  • Chapter 20. Electrons|5. Cathode rays and their properties.mp4 00:11:29
  • Chapter 20. Electrons|6. Motion of electron beam in electric field.mp4 00:21:21
  • Chapter 20. Electrons|7. Motion of electron beam in magnetic field.mp4 00:10:07
  • Chapter 20. Electrons|8. Cross field.mp4 00:03:48
  • Chapter 20. Electrons|9. Thomsom's experiment to determine specific charge of an electron.mp4 00:14:29
  • Chapter 20. Electrons|10. Problem 1.mp4 00:08:10
  • Chapter 20. Electrons|11. Problem 2.mp4 00:12:26
  • Chapter 20. Electrons|12. Problem 3.mp4 00:12:21
  • Chapter 20. Electrons|13. Problem 4.mp4 00:03:50
  • Chapter 20. Electrons|14. Problem 5.mp4 00:05:30
  • Chapter 20. Electrons|15. Problem 6.mp4 00:11:30
  • Chapter 20. Electrons|16. Problem 7.mp4 00:04:02
  • Chapter 21. Photons|1. Quantum Nature of Light.mp4 00:12:03
  • Chapter 21. Photons|2. Einstein's Photoelectric equation.mp4 00:15:30
  • Chapter 21. Photons|3. Experimental study of photoelectric effect.mp4 00:09:53
  • Chapter 21. Photons|4. Effect of Intensity of incident light on the photoelectric current.mp4 00:07:31
  • Chapter 21. Photons|5. Effect of Potential on photoelectric current.mp4 00:11:03
  • Chapter 21. Photons|6. Effect of Frequency of Incident Light on Stopping Potential and Threshold Frequency.mp4 00:11:15
  • Chapter 21. Photons|7. Meaasurement of Planck's constant.mp4 00:15:10
  • Chapter 21. Photons|8. Uses of Photoelectric effect.mp4 00:06:17
  • Chapter 21. Photons|9. Problem 1.mp4 00:08:12
  • Chapter 21. Photons|10. Problem 2.mp4 00:07:37
  • Chapter 21. Photons|11. Problem 3.mp4 00:07:32
  • Chapter 21. Photons|12. Problem 4.mp4 00:10:18
  • Chapter 21. Photons|13. Problem 5.mp4 00:16:52
  • Chapter 22. Semiconductor Devices|1. Introduction to semiconductors.mp4 00:08:52
  • Chapter 22. Semiconductor Devices|2. P-N Junction.mp4 00:10:56
  • Chapter 22. Semiconductor Devices|3. Biasing of PN Junction diode -Forward Bias.mp4 00:07:24
  • Chapter 22. Semiconductor Devices|4. Forward Bias Characteristics.mp4 00:09:03
  • Chapter 22. Semiconductor Devices|5. Forward Bias Characteristics Simulation.mp4 00:16:46
  • Chapter 22. Semiconductor Devices|6. Reverse Bias.mp4 00:05:33
  • Chapter 22. Semiconductor Devices|7. Reverse Bias Characteristics.mp4 00:07:16
  • Chapter 22. Semiconductor Devices|8. Reverse Bias Characteristics Simulation.mp4 00:20:59
  • Chapter 22. Semiconductor Devices|9. Applications of Diodes.mp4 00:09:41
  • Chapter 22. Semiconductor Devices|10. Rectification and Half wave rectifier.mp4 00:03:32
  • Chapter 22. Semiconductor Devices|11. Half wave rectifier simulation.mp4 00:11:51
  • Chapter 22. Semiconductor Devices|12. Full wave rectifier - Center tapped full wave rectifier.mp4 00:04:34
  • Chapter 22. Semiconductor Devices|13. Center tapped full wave rectifier Simulation.mp4 00:09:22
  • Chapter 22. Semiconductor Devices|14. Full Bridge rectifier.mp4 00:08:41
  • Chapter 22. Semiconductor Devices|15. Full Bridge rectifier Simulation.mp4 00:05:26
  • Chapter 22. Semiconductor Devices|16. Filter Circuit and its types.mp4 00:07:43
  • Chapter 22. Semiconductor Devices|17. Filter circuit simulation.mp4 00:09:35
  • Chapter 22. Semiconductor Devices|18. Reverse breakdown.mp4 00:08:31
  • Chapter 22. Semiconductor Devices|19. Zener diode.mp4 00:07:03
  • Chapter 22. Semiconductor Devices|20. Zener Diode as a voltage regulator Simulation.mp4 00:13:10
  • Chapter 22. Semiconductor Devices|21. Transistor.mp4 00:05:09
  • Chapter 22. Semiconductor Devices|22. Types of transistor.mp4 00:04:21
  • Chapter 22. Semiconductor Devices|23. Transistor configuration.mp4 00:07:28
  • Chapter 22. Semiconductor Devices|24. Transistor as a switch.mp4 00:07:00
  • Chapter 22. Semiconductor Devices|25. Transistor as a switch Simulation.mp4 00:03:49
  • Chapter 22. Semiconductor Devices|26. Logic gates, OR gate.mp4 00:07:01
  • Chapter 22. Semiconductor Devices|27. OR gate simulation.mp4 00:07:08
  • Chapter 22. Semiconductor Devices|28. NOR gate.mp4 00:04:56
  • Chapter 22. Semiconductor Devices|29. NOR gate simulation.mp4 00:03:03
  • Chapter 22. Semiconductor Devices|30. Buffer and NOT gate.mp4 00:05:17
  • Chapter 22. Semiconductor Devices|31. NOT and Buffer simulation.mp4 00:04:03
  • Chapter 22. Semiconductor Devices|32. AND gate.mp4 00:07:14
  • Chapter 22. Semiconductor Devices|33. AND gate simulation.mp4 00:07:35
  • Chapter 22. Semiconductor Devices|34. NAND gate.mp4Chapter 22. Semiconductor Devices| 00:04:19
  • Chapter 22. Semiconductor Devices|35. NAND gate simulation.mp4 00:05:00
  • Chapter 22. Semiconductor Devices|36. NAND gate as a Universal gate.mp4 00:06:07
  • Chapter 22. Semiconductor Devices|37. NAND gate as Universal gate Simulation.mp4 00:09:54
  • Chapter 23. Quantisation of Energy|1. Quantization of energy.mp4 00:13:01
  • Chapter 23. Quantisation of Energy|1. Radioactivity.mp4 00:07:33
  • Chapter 23. Quantisation of Energy|2. Alpha rays, Beta rays, Gamma rays.mp4 00:08:30
  • Chapter 23. Quantisation of Energy|2. Bohr's Theory of hydrogen atom.mp4 00:13:16
  • Chapter 23. Quantisation of Energy|3. Alpha decay and properties of alpha rays.mp4 00:14:11
  • Chapter 23. Quantisation of Energy|3. Radius of nth orbit of hydrogen atom.mp4 00:17:37
  • Chapter 23. Quantisation of Energy|4. Beta decay and its types.mp4 00:11:43
  • Chapter 23. Quantisation of Energy|4. Velocity of electron in nth orbit.mp4 00:04:47
  • Chapter 23. Quantisation of Energy|5. Properties of beta decay.mp4 00:11:00
  • Chapter 23. Quantisation of Energy|5. Velocity of electron in nth orbit visualization.mp4 00:06:08
  • Chapter 23. Quantisation of Energy|6. Energy of the electron in nth orbit.mp4 00:09:54
  • Chapter 23. Quantisation of Energy|6. Gamma rays and their properties.mp4 00:10:52
  • Chapter 23. Quantisation of Energy|7. Cause of radioactivity.mp4 00:08:26
  • Chapter 23. Quantisation of Energy|7. Energy level diagram of hydrogen atom.mp4 00:22:13
  • Chapter 23. Quantisation of Energy|8. Bohr's interpretation of the hydrogen spectrum.mp4 00:16:42
  • Chapter 23. Quantisation of Energy|8. Laws of Radioactivity(1 and 2).mp4 00:06:50
  • Chapter 23. Quantisation of Energy|9. Spectral series of hydrogen atom.mp4 00:14:21
  • Chapter 23. Quantisation of Energy|10. Excitation and Ionization Potential.mp4 00:09:03
  • Chapter 23. Quantisation of Energy|11. Limitations of Bohr's Theory of Hydrogen Atom.mp4 00:05:19
  • Chapter 23. Quantisation of Energy|12. De Broglie Theory, Duality of particles.mp4 00:11:24
  • Chapter 23. Quantisation of Energy|13. De Broglie Wavelength.mp4 00:10:12
  • Chapter 23. Quantisation of Energy|14. Heisenberg's Uncertainty Principle.mp4 00:12:18
  • Chapter 23. Quantisation of Energy|15. X-rays.mp4 00:05:11
  • Chapter 23. Quantisation of Energy|16. Production of x-rays.mp4 00:05:53
  • Chapter 23. Quantisation of Energy|17. Control of Intensity and Quality of X-rays.mp4 00:07:15
  • Chapter 23. Quantisation of Energy|18. Frequency and Wavelength of X-rays.mp4 00:05:34
  • Chapter 23. Quantisation of Energy|19. Properties of X-rays.mp4 00:06:34
  • Chapter 23. Quantisation of Energy|20. Uses of X-rays.mp4 00:05:53
  • Chapter 23. Quantisation of Energy|21. X-ray diffraction.mp4 00:07:00
  • Chapter 23. Quantisation of Energy|22. Bragg's Law.mp4 00:07:32
  • Chapter 23. Quantisation of Energy|23. Problem 1.mp4 00:12:18
  • Chapter 23. Quantisation of Energy|24. Problem 2.mp4 00:14:49
  • Chapter 23. Quantisation of Energy|25. Problem 3.mp4 00:13:23
  • Chapter 23. Quantisation of Energy|26. Problem 4.mp4 00:15:20
  • Chapter 23. Quantisation of Energy|27. Problem 5.mp4 00:05:48
  • Chapter 23. Quantisation of Energy|28. Problem 6.mp4 00:10:08
  • Chapter 23. Quantisation of Energy|29. Problem 7.mp4 00:07:38
  • Chapter 23. Quantisation of Energy|30. Problem 8.mp4 00:07:52
  • Chapter 24. Radioactivity and Nuclear Reaction|9. 3rd law of Radioactivity (Mathematical Law of Radioactivity).mp4 00:13:50
  • Chapter 24. Radioactivity and Nuclear Reaction|10. Demonstration of equation of radioactivity.mp4 00:08:08
  • Chapter 24. Radioactivity and Nuclear Reaction|11. Radioactive decay, a random process.mp4 00:16:50
  • Chapter 24. Radioactivity and Nuclear Reaction|12. Half-Life.mp4 00:04:13
  • Chapter 24. Radioactivity and Nuclear Reaction|13. Decay constant.mp4 00:08:57
  • Chapter 24. Radioactivity and Nuclear Reaction|15. Demonstration of half-life.mp4 00:08:16
  • Chapter 24. Radioactivity and Nuclear Reaction|16. Mean life.mp4 00:09:27
  • Chapter 24. Radioactivity and Nuclear Reaction|17. Activity of radioactive substance.mp4 00:03:30
  • Chapter 24. Radioactivity and Nuclear Reaction|18. Units of radioactivity.mp4 00:02:33
  • Chapter 24. Radioactivity and Nuclear Reaction|19. Geiger-Muller tube.mp4 00:05:11
  • Chapter 24. Radioactivity and Nuclear Reaction|20. Radioisotopes.mp4 00:04:13
  • Chapter 24. Radioactivity and Nuclear Reaction|21. Radiocarbon dating.mp4 00:10:23
  • Chapter 24. Radioactivity and Nuclear Reaction|22. Medical uses of nuclear radiation.mp4 00:08:52
  • Chapter 24. Radioactivity and Nuclear Reaction|23. Other uses of nuclear radiation.mp4 00:05:47
  • Chapter 24. Radioactivity and Nuclear Reaction|24. Possible health hazards and safety precautions.mp4 00:06:19
  • Chapter 24. Radioactivity and Nuclear Reaction|25. Problem 1.mp4 00:12:13
  • Chapter 24. Radioactivity and Nuclear Reaction|26. Problem 2.mp4 00:12:49
  • Chapter 24. Radioactivity and Nuclear Reaction|27. Problem 3.mp4 00:03:45
  • Chapter 24. Radioactivity and Nuclear Reaction|28. Problem 4.mp4 00:09:25
  • Chapter 24. Radioactivity and Nuclear Reaction|29. Problem 5.mp4 00:09:28
  • Chapter 24. Radioactivity and Nuclear Reaction|30. Problem 6.mp4 00:12:26
  • Chapter 24. Radioactivity and Nuclear Reaction|31. Problem 7.mp4 00:06:36
  • Chapter 24. Radioactivity and Nuclear Reaction|32. Problem 8.mp4 00:08:09
  • Chapter 25. Recent Trends in Physics|1. Introduction.mp4 00:02:10
  • Chapter 25. Recent Trends in Physics|2. Techtonic plates and Seismic waves.mp4 00:07:33
  • Chapter 25. Recent Trends in Physics|3. Observing Techtonic plates.mp4 00:07:09
  • Chapter 25. Recent Trends in Physics|4. Body waves.mp4 00:08:28
  • Chapter 25. Recent Trends in Physics|5. Surface waves.mp4 00:07:06
  • Chapter 25. Recent Trends in Physics|6. Earthquakes and its types.mp4 00:12:51
  • Chapter 25. Recent Trends in Physics|7. Earthquake magnitudes.mp4 00:10:19
  • Chapter 25. Recent Trends in Physics|8. Earthquake magnitudes and their effects.mp4 00:11:08
  • Chapter 25. Recent Trends in Physics|9. Seismic waves and layers of earth.mp4 00:19:57
  • Chapter 25. Recent Trends in Physics|10. Phases of Seismic waves.mp4 00:18:04
  • Chapter 25. Recent Trends in Physics|11. Seismogram.mp4 00:07:46
  • Chapter 25. Recent Trends in Physics|12. Wave pattern of Gorkha Earthquake, 2015.mp4 00:09:48
  • Chapter 25. Recent Trends in Physics|13. Gravitational waves.mp4 00:16:21
  • Chapter 25. Recent Trends in Physics|14. Nanotechnology.mp4 00:04:47
  • Chapter 25. Recent Trends in Physics|15. Higgs Boson.mp4 00:11:50
  • 1. Specification grid.mp4 00:08:03
  • 2. Question 1-11.mp4 00:21:44
  • 3. Question 12.mp4 00:13:01
  • 4. Question 13.mp4 00:07:49
  • 5. Question 13 OR.mp4 00:13:00
  • 6. Question 14.mp4 00:07:13
  • 7. Question 15.mp4 00:12:51
  • 8. Question 15 OR.mp4 00:13:19
  • 9. Question 16.mp4 00:06:11
  • 10. Question 17.mp4 00:16:53
  • 11. Question 18.mp4 00:11:32
  • 12. Question 19.mp4 00:16:32
  • 13. Question 20.mp4 00:14:04
  • 14. Question 21.mp4 00:32:02
  • 15. Question 21 OR.mp4 00:25:24
  • 16. Question 22.mp4 00:17:31
  • 17. Question 22 OR.mp4 00:15:52
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The videos herein are strictly based on Nepal NEB curriculum, promoting "e-Learning in Nepal" and are made with intention to provide guidance to the " +2 students", for securing good score and crack NEB. This course tries to cover all the lessons of Class 12 Physics along with theories and solution of frequently asked questions in NEB and list of formula needed for completing Class 12's Physics. We strongly believe that, viewers will be benefited from these videos. Feedbacks and advises are always welcome and highly appreciated!

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