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High School/JEE/NEET/IPhO Physics | 17-19 Yrs
Mechanics
Kinematics
Newton’s Laws of Motion
Work Energy Power
Circular Motion
System of Particles
Rigid Body Dynamics
Heat & Thermodynamics
Heat Transfer
KTG and Thermodynamics
Thermal Expansion & Calorimetry
Oscillation & Waves
Simple Harmonic Motion
Waves
Properties of Matter
Properties of Matter
Fluid Statics & Dynamics
Gravitation
Gravitation
Electrostatics
Electric Charges and Fields
Capacitance
Electric Current & Circuits
Current Electricity
Magnetic Effects
Magnetic Effects and Electromagnetic Induction
Optics
Geometrical Optics
Wave Optics
Modern Physics
Atomic and Nuclear Physics
Newton's Laws of Motion
Illustration - 1
A Boy Sliding Down a Weak Rope
Duration: 2.22 Min
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Illustration - 2
A Sinking Balloon is to be Lifted Up
Duration: 4.37 Min
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Illustration - 3
Motion Under a Force Changing its Direction
Duration: 2.36 Min
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Illustration - 4
Motion of Two Connected Bodies
Duration: 4.25 Min
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Illustration - 5
A Bead Sliding on a String
Duration: 3.49 Min
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Illustration - 6
A Bullet Penetrating a Plank
Duration: 3.44 Min
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Illustration - 7
Two Blocks in Equilibrium
Duration: 6.35 Min
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Illustration - 8
A Boy Lifting up His Cabin
Duration: 2.16 Min
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Illustration - 9
Maximum Weight for a System to Remain in Equilibrium
Duration: 3.13 Min
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Illustration - 10
Analysis of Pulley Systems-1
Duration: 6.27 Min
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Illustration - 11
Analysis of Pulley Systems-2
Duration: 3.58 Min
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Illustration - 12
Analysis of Pulley Systems-3
Duration: 5.41 Min
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Illustration - 13
Analysis of Pulley Systems-4
Duration: 3.17 Min
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Illustration - 14
Analysis of Wedge Pulley System-1
Duration: 3.15 Min
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Illustration - 15
Analysis of Wedge Pulley System-2
Duration: 6.32 Min
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Illustration - 16
Analysis of Wedge Pulley System-3
Duration: 4.44 Min
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Illustration - 17
Analysis of Wedge Pulley Systems-4
Duration: 6.26 Min
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Illustration - 18
One Boy Lifting up the Other Boy
Duration: 3.29 Min
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Illustration - 19
Sliding Over a Prism
Duration: 7.34 Min
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Illustration - 20
Sliding on a Surface Having Varying Friction
Duration: 6.29 Min
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Illustration - 21
A Motor Boat in a Lake
Duration: 5.06 Min
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Illustration - 22
A Sinking Box in a Pond
Duration: 2.53 Min
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Illustration - 23
A Body Ascending and Descending on Incline
Duration: 4.18 Min
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Illustration - 24
Sliding Body on Incline by a String
Duration: 4.17 Min
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Illustration - 25
Motion of a Block Relative to Rod
Duration: 3.49 Min
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Illustration - 26
A Block is Kept at Rest Supported by a Rod
Duration: 5.03 Min
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Illustration - 27
Contact Force Between Sliding Blocks
Duration: 5.24 Min
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Illustration - 28
Least Sliding Time of a Body on an Incline
Duration: 4.49 Min
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Illustration - 29
No Sliding Between Bodies
Duration: 8.15 Min
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Illustration - 30
An Insect Crawling Inside a Hemispherical Cup
Duration: 2.34 Min
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Illustration - 31
Equilibrium Under Static Friction
Duration: 6.26 Min
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Illustration - 32
One Block Chasing the Other on a Rough Incline
Duration: 4.05 Min
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Illustration - 33
Maximum Height Attained by a Block
Duration: 4.26 Min
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Illustration - 34
Sliding of a Block Over a Trolley
Duration: 4.48 Min
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Illustration - 35
Acceleration of Blocks Due to a Time Varying Force
Duration: 6.08 Min
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Illustration - 36
A Rough Block Projected Over Another Block
Duration: 3.14 Min
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Illustration - 37
Normal Forces in Equilibrium of a Ball
Duration: 4.00 Min
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Illustration - 38
A Block Sliding Along a Rough Wedge
Duration: 5.06 Min
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Illustration - 39
A Smooth Rod Sliding Over a Wedge
Duration: 5.29 Min
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Illustration - 40
A Sliding Ring in a Wire
Duration: 3.40 Min
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Illustration - 41
Weighing Machine in a Support Cabin
Duration: 5.17 Min
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Illustration - 42
A Man Over a Sliding Platform
Duration: 4.40 Min
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Illustration - 43
A Hanging Block on Spring Stretched by Strings
Duration: 3.13 Min
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Illustration - 44
A Block Breaking off From Ground
Duration: 4.17 Min
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Illustration - 45
Weighing Machine on a Sliding Block on Incline
Duration: 2.53 Min
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Illustration - 46
All Bodies Move Together Without Sliding
Duration: 4.48 Min
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Illustration - 47
Block Sliding Under a Block
Duration: 6.50 Min
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Illustration - 48
A Block Sliding Over Another Block on an Incline
Duration: 4.47 Min
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Illustration - 49
Force Exerted by a Prism on Wall and Floor
Duration: 3.51 Min
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Illustration - 50
A Block at Rest on Vertical Surface of Another Block
Duration: 5.35 Min
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Illustration - 51
A Block Sliding on Rough Vertical Face of Another Block
Duration: 4.53 Min
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Illustration - 52
Force Required to Slide a Block Under Another Block
Duration: 4.27 Min
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Illustration - 53
A Block Sliding in a Groove
Duration: 5.34 Min
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Illustration - 54
Monkeys Climbing up and Down a Rope
Duration: 4.04 Min
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Illustration - 55
A Man Managing Equilibrium of a Block
Duration: 5.30 Min
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Illustration - 56
System of Spring Balances-1
Duration: 3.14 Min
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Illustration - 57
System of Spring Balances-2
Duration: 3.38 Min
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Illustration - 58
Analysis of a Pulley System When Support Breaks-1
Duration: 4.51 Min
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Illustration - 59
Analysis of a Pulley System When Support Breaks-2
Duration: 4.57 Min
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Post your question related to above video lecture
How you integrated (v0 e^-rt/m) to Go/rt1(-e^rt/m)??
7 years ago by Sandal Agarwal
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sir do we want to integrate in second case as it is just average velocity (can't we simply add final and initial velocity and divide by time)
8 years ago by Sankar Nampoothiri KM
Ans 1 ->
No... as (v-u)/t will give you average acceleration not the average velocity and here average velocity cannot be obtained directly as its not a linear variation with time...
8 years ago by
Physics Galaxy
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