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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 TENSION IS EQUAL TO FRICTION IN THIS CASE ?
1 years ago by
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Sir if we make string in straight line then acceleration should be added but you have substracted.. I cant understand
5 years ago by OMESH KUMAR
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how can both the acc.. be in downward direction
6 years ago by Md Zakie Akhtar Ansari
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Sir,'l' is the length of rod also and the distance by the rod also?Not able to understand,please explain!
6 years ago by Manasi Singh
Ans 1 ->
*distance covered
6 years ago by
Manasi Singh
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For the rod of mass M,in the equation of motion i.e.,in the second equation,have you simply substituted 'f' in place of 'T'?Or you have used some other logic?
6 years ago by Manasi Singh
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Sir,while writing the equations of motion,how do we consider which force is smaller and which one is larger?Is the bigger force in that direction in which the body is accelerating?
6 years ago by Manasi Singh
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How can both the accelerations be in downward direction?
6 years ago by Manasi Singh
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Is rod also coming down the string?Or is it moving along the string?
6 years ago by Manasi Singh
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Why is there tension force down the bead?
6 years ago by Manasi Singh
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sir I take that string is just attached to rod at one end then for acceleration of rod friction will not be coming into picture and it is not mentioned in the question as well. Sir I just want to say how I thought immediately after seeing question and I understand your solution sir.
7 years ago by dinesh sai
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SIR HOW FRICTION ACTING ON STRING IS DOWNWARD AND HOW IS IT EQUAL TO TENSION
8 years ago by KAIKALA RAVI KUMAR
Ans 1 ->
do not think that bead is hung on the string as bead is free to slide on the string as friction on bead acts upward due to sting same friction acts downward on sting due to bead and as sting is mass less the two forces acting on string will be same
7 years ago by
Prateek Kumar
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actually i am asking how friction on string is in downward direction
9 years ago by Manav kapur
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sir please tell how friction is equal to tension i am not getting it !
9 years ago by Manav kapur
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