Course Content
Basic Calculation
0/3
Square root Trick
46:15
Conversions in MCQs
26:06
Basic Calculation
41:47
Vector & equilibrium
0/8
Vectors Basics
33:50
Unit Vector & its MCQs
25:21
Resolution of Vector
27:50
Addition of Vectors using Rectangular Components
20:53
Addition of Vectors Part-2
27:01
Position Vector, Displacement Vector & its MCQs
32:00
Scalar Product
39:36
Vector Product
39:00
Force and Motion
0/21
Position & Frame of Reference
17:32
Displacement & Distance
35:12
Speed and Velocity Part-1
22:39
Speed and Velocity Part-2
05:10
Average Speed and Velocity Part-3
39:22
Acceleration
24:27
Equation of Motion
06:11
Displacement-Time Graph
22:02
Velocity-Time Graph
07:07
Acceleration-Time Graph
12:42
Force +Inertia
12:57
Newton Laws of Motion
19:48
Linear Momentum & Impulse
31:09
Conservation of Linear momentum
17:10
Elastic & Inelastic Collision
15:10
elastic collision in 1-Dimension
29:50
Identify Motion in 1D
02:41
Projectile Motion-P1
21:51
Horizontal Projectile Motion
17:21
Height, Time and Range of Projectile
19:50
Energy Conservation in Projectile
07:21
Work & Energy
0/14
Work Lecture 1
36:53
Graphical Analysis
16:50
Vector Concept in Work
11:44
Work-Done By Gravitational Field
06:43
Conservative & non conservative field
05:26
Friction ( Some Misconceptions)
10:00
Work-Energy Theorem
22:21
Conservation of energy
22:04
efficiency ( Basic Concept)
01:54
Power Concept (MCQs Tricks)
20:36
Energy & Momentum
24:02
Percentage Increase Decrease in K.E/Momentum
17:16
Absolute Potential Energy (APE)
05:48
Escape Velocity (in Short)
09:41
Rotational & Circular Motion
0/11
Circular Motion (Angular Displacement)
27:44
Clock Problems ( Mint & Hour Hand angle)
06:51
Angular Velocity ( Detailed)
22:30
Angular Acceleration (Detailed)
09:52
Relation B/w Linear & Angular Quantities
09:20
Uniform & Non Uniform Circular Motion
Horizontal & Vertical Circular Motion
13:48
Moment of Inertia (Basics)
04:52
Torque (Basic Concept)
Angular Momentum ( Detailed)
16:13
Centripetal force & imp Relations
10:55
Fluid Dynamics
0/10
Real Vs Ideal Fluid
09:04
Drag Force & Stokes Law
17:33
Viscosity ( Detailed )
37:50
Terminal Velocity ( Detailed )
33:52
Fluid Flow ( Detailed )
42:09
equation of continuity ( Detailed )
36:33
Bernoulli’s principle ( Detailed )
40:00
Filter Pump, atomizer and engine carburetor
10:18
Torricelli’s theorem
20:46
Venturi Meter, Aerofoil & Blood Flow
25:10
Oscillations
0/8
Oscillation (SHM) Lecture #1
Displacement, Velocity & Acceleration in SHM
10:05
Characteristics of SHM
12:46
Hooks Law, vertical spring, Factor effecting K, Combination of Springs
16:27
Cutting of Springs (imp)
03:34
Energy Conservation in SHM
08:06
Simple Pendulum (Detailed)
22:57
Time for Fractional Path in SHM
18:34
Waves
0/15
Introduction to Waves
09:09
Longitudinal Vs Transverse Waves
14:01
Crest /Trough Wavelength & Amplitude of wave
11:26
Reflection of Waves ( Longitudinal & Transverse)
13:51
Speed of Wave
11:44
Speed of Sound
21:50
Factors effecting Speed of Sound
14:27
Path Difference, Phase Difference & Relation Between Them
23:45
Principle of Superposition & Interference
16:54
Resultant Amplitude & Intensity (and Their Relations)
15:01
Beats (Basic)
05:53
Intro to Stationary Waves & Difference b/w Progressive & Stationary Waves
13:16
Stationary Waves in a Stretched String
42:57
Organ Pipes (Open & Closed)
41:24
Doppler Effect (Easy Trick)
14:25
Thermodynamics
0/7
Heat, Temperature, Zeroth Law
15:37
Internal Energy (Detailed)
20:48
Reversible, Irreversible process and Thermodynamics Cycle
09:00
First Law of Thermodynamics (Detailed)
19:58
Isothermal, Adiabatic, isochoric & Isobaric
14:36
Work Done in Compression Vs Expansion (PV-Diagrams)
06:01
Molar Specific Heat & Relation Between Cp and Cv
20:43
Electrostatic
0/19
Electric Charge Part-1
24:57
Electric Charge Part-2
16:52
Coulombs’ Law (Detailed)
33:52
Electric Field ( Introduction)
10:12
Electric Field Strength (Detailed)
36:19
Zero Field Point ( Trick)
09:44
Electric Flux (Detailed)
18:01
Gauss Law (Detailed)
14:19
Application of Gauss’s Law
09:58
Electric Potential
29:22
Equipotential Surface
06:26
Zero Potential Location (Trick)
12:01
Potential Energy of a System of Charge
15:39
Electrostatic of Conductors
03:33
Capacitance (Detailed)
23:13
Energy Stored in Capacitor
06:47
Effect of Dielectric on Capacitors (battery connected or disconnected)
11:08
Combination of Capacitors
14:55
Charging & Discharging of Capacitors
12:53
Current Electricity
0/20
Current Electricity Lecture 1
23:37
Current Density
05:52
Isolated Conductor ( No Potential difference Applied)
06:39
Drift Velocity
15:58
Ohm’s Law ( Detailed)
11:33
Stretching & Compressing of a Wire
18:19
Conductance & Conductivity
06:38
Temperature Coefficient of Resistance
12:46
Combination of Resistors (Series & Parallel)
18:18
Equivalent Resistance Problems
28:18
Kirchoff’s Laws ( KCL & KVL)
22:49
Wheatstone Bridge
08:28
Potential Difference Between two Points in a Circuit
06:53
Short Circuit Vs Open Circuit
06:15
Emf, Terminal Potential, Internal resistance & Vt and E relation
19:26
Combination of Cells ( Series & Parallel)
14:35
Power Consumed & Rated Power
19:44
Power Consumed ( in series & Parallel)
28:51
Commercial Unit of Energy & Electricity Cost calculation
07:28
Potentiometer (Imp Points)
07:27
Electromagnetism
0/16
magnetism Introduction
08:31
Magnetic Field
13:14
Direction of Magnetic Field
05:50
Force On Current Carrying Conductor
18:30
Fleming Left Hand Rule
05:55
Magnetic field of Solenoid (Detailed)
29:25
Ampere’s Law
19:31
Magnetic Flux (Detailed)
25:57
Force on Moving Charge inside Magnetic Field (Detailed)
51:46
Deflection of electron, Proton & Alpha particles
08:14
Right Hand Palm Rule
05:15
Cyclotron ( Detailed)
11:44
Torque on Current Carrying Coil in Magnetic Field
17:12
Galvanometer
06:51
Conversion of Galvanometer to Ammeter & Voltmeter
13:54
Ammeter Vs Voltmeter
05:11
Electromagnetic Induction
0/14
Introduction to EMI
07:57
Motional EMF
09:09
Faraday’s Law With MCQs
28:55
Lenz’s Law with MCQs
12:15
Lenz’s Law & Conservation of Energy
03:11
Eddy Current
06:37
Self-Inductance (Detailed)
12:05
Mutual Inductance (Detailed)
11:22
Energy Stored in Inductor
09:14
AC-Generator (Detailed)
22:21
Transformers (Detailed)
11:09
Step Up & Step Down Transformers
08:45
efficiency of Transformer & Ideal Transformer
13:04
Losses in Transformer (Detailed)
14:48
Alternating Current ( AC )
0/6
AC Intro Average & RMS Value of Voltage & Current
47:35
Phase of Alternating Current (Phase Lead & Lag )
29:41
AC Through Resistor
43:00
AC Through Inductors
41:33
AC Through Capacitors
43:09
Electromagnetic Waves
34:07
Electronics
0/6
Intrinsic + Extrinsic Semiconductor
13:23
PN-Junction ( Detailed )
14:00
Diode Biasing (Detailed)
12:39
Half Wave Rectifiers ( Detailed)
18:14
Full Wave Rectifiers ( Detailed)
15:50
Important Table in Rectification
05:27
Dawn of Modern Physics
0/9
Introduction to Modern Physics
09:14
Inertial Vs Non Inertial Frames
04:33
Consequences of Special Theory of relativity
06:27
Black body radiations
13:26
Planks Quantum Theory
04:18
Photon ( Detailed)
26:32
Photoelectric Effect ( Detailed)
44:28
Compton effect
15:30
Pair Production
12:02
Atomic Spectra
0/6
Introduction
03:35
Atomic Spectra of Hydrogen ( Introduction)
06:27
Lyman Series
10:08
Balmer Series
09:24
Paschan Series
04:16
Bracket and Pfund Series
04:19
Nuclear Physics
0/6
Atomic Number & Mass Number
06:45
Isotopes, Isobars, Isotones
13:06
Radioactivity
25:45
Radioactivity MCQs Discussion
15:12
Half Life With MCQs
39:27
Half Life With MCQs Part 2
02:40
Physics Lectures

Acceleration

 

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