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High School/JEE/NEET/IPhO Physics | 17-19 Yrs

Mechanics

Heat & Thermodynamics

Oscillation & Waves

Properties of Matter

Gravitation

Electrostatics

Electric Current & Circuits

Magnetic Effects

Optics

Modern 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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How you integrated (v0 e^-rt/m) to Go/rt1(-e^rt/m)??

6 years ago by Sandal Agarwal

Post your answer here

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)

7 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...

7 years ago by Physics Galaxy

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High School/JEE/NEET/IPhO Physics | 17-19 Yrs

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