Lesson 1 of 57 • 22 upvotes • 10:38mins
57 lessons • 7h 57m
Sprint to JEE - Introduction
10:38mins
Electrostatics - Lecture 2 - Field, Potential and Energy
12:42mins
Electrostatics - Lecture 3 - Energy, Relation and Dipole
14:50mins
Electrostatics - Lecture 4 - Flux, Gauss Law and Solid Angle
10:33mins
Electrostatics - Lecture 1 - Charge and Coulomb's Law
11:58mins
Electrostats, lecture 5 ( conductor, earthing, van de graff)
10:30mins
Electrostats,lecture 6 (Questions)
2:39mins
Geometrical optics, lecture 1 ( reflection, laws, object & image)
10:10mins
Geomterical optics, Lecture 2 ( image formation by plane mirror)
10:21mins
Geometrical optics, lecture 4 (refraction , laws, shifts etc)
5:08mins
Geometrical optics, lecture 3 (image formation by curved mirror & mirror formula)
7:28mins
Geometrical optics, lecture 5 ( apparent depth, parallel shifts , lateral shifts & TIR)
8:12mins
Geometrical optics, lecture 6 (PRISM )
7:01mins
Geometrical optics, lecture 7 (PRISM & Refraction through curved surface)
7:58mins
Geometrical optics, lecture 9 (Questions)
3:14mins
Geometrical optics, lecture 8 (Lens & displacement method)
9:56mins
Wave Optics , lecture 1 ( Hugyen principle, wavefronts & interference)
7:14mins
Wave Optics, lecture 2 ( YDSE)
8:11mins
Wave Optics, lecture 3 ( Thin film insertion & oblique YDSE)
8:29mins
Wave optics, lecture 4 ( Diffraction )
8:19mins
Wave Optics , lecture 5 ( Polarization)
8:35mins
Wave Optics , lecture 6 (Questions)
2:50mins
Alternating current, Lecture 1 ( Basic definitions & circuits)
8:27mins
Alternating current, Lecture 2 ( circuit analysis )
7:14mins
Alternating current, Lecture 3( Resonance, Transformer)
9:35mins
Alternating current, Lecture 4 ( Questions)
2:25mins
EMI, lecture 1(flux, faraday's &lenz law)
6:56mins
EMI, lecture 2(methods to produce emf)
8:44mins
EMI, lecture 3(Rotational emf, time varying B, Inductance)
8:25mins
EMI, lecture 4( LR & LC circuits)
10:12mins
Capacitance, lecture 1 (isolated conductor)
8:00mins
Capacitance, lecture 2 (Capacitors)
8:27mins
Capacitance, lecture 3 (Circuits)
8:32mins
Capacitance, lecture 4 (dielectrics)
8:13mins
Modern Physics , Lecture 1 ( Photoelectric effect)
8:05mins
Modern Physics , Lecture 2( Explanations of PE effect & de-broglie)
9:12mins
Modern Physics , Lecture 3 ( Bohr's model)
8:37mins
Modern Physics , Lecture 4 ( Spectrum & atomic collision)
9:18mins
Modern Physics , Lecture 5 ( x-rays )
8:01mins
Modern Physics , Lecture 6 ( Nuclear Physics)
9:35mins
Modern Physics , Lecture 7 (radioactivity)
9:32mins
Current Electricity, lecture 1 ( current through conductors)
9:33mins
Current Electricity, lecture 2 (resistors & resistance)
8:02mins
Current Electricity, lecture 3(ohm's law, kcl, kvl )
9:01mins
Current Electricity, lecture 4(combination of cells & instruments)
9:29mins
Magnetism, Lecture 1 ( magnets)
8:32mins
Magnetism, Lecture 2 ( field lines, oersted exp, biot-savart)
8:21mins
Magnetism, Lecture 3(field due to diff objects)
8:19mins
Magnetism, Lecture 4 ( ampere's law, solenoid, toroid)
8:00mins
Magnetism, Lecture 5(magnetic force, lorentz force)
8:00mins
Magnetism, Lecture 6 ( magnetic force, lorentz force)
8:01mins
Magnetism, Lecture 7 ( earth's magnetic field, properties of matter)
8:01mins
Magnetism, Lecture 8(properties of matter)
8:18mins
Electromagnetic Waves , Lecture 1 ( production, progation, hertz exp, maxwell )
8:52mins
Electromagnetic Waves, Lecture 2( maxwell eq., wave basic equations)
8:34mins
Optical instruments,Lecture 2(compound microscope, telescope)
4:22mins
Optical instruments,Lecture 1( human eye, simple microscope)
8:50mins