Connecting Students in 221 Countries
Home
FEATURES
Video Lectures
Practice Questions
Practice Questions
Downloads
Advance Illustrations
Tips & Tricks
About
Ashish Arora
Physics Galaxy
testimonials
Interact
contact
SIGNUP & LOGIN
SIGNUP & LOGIN
Signup
Login
Search
*
Log In with by just Once Click -
OR
OR
Log In with your mail ID -
E-Mail:
Enter correct email id.
Enter your email id.
Password:
Enter your password.
Forgot Password ? Click here
New User ? Click here
Topic List
Illustration List
Advance Illustration
Video Lecture
Advance Illustration
My Sequence
My Bookmark
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
Work Energy Power
Illustration - 1
Breaking off a Block From Ground
Duration: 2.21 Min
Add to my sequences
Bookmark This Video
Illustration - 2
Speed of a Falling Rope Supported on a Nail
Duration: 2.26 Min
Add to my sequences
Bookmark This Video
Illustration - 3
A Washer Falling on a Rubber Cord
Duration: 2.31 Min
Add to my sequences
Bookmark This Video
Illustration - 4
Work Done in Dragging a Block Along a Spherical Surface
Duration: 2.17 Min
Add to my sequences
Bookmark This Video
Illustration - 5
A Hanging Block Hitting the Floor
Duration: 3.11 Min
Add to my sequences
Bookmark This Video
Illustration - 6
A Disc Sliding and Follows Projectile Motion
Duration: 3.22 Min
Add to my sequences
Bookmark This Video
Illustration - 7
A Block Hitting a Wall
Duration: 4.23 Min
Add to my sequences
Bookmark This Video
Illustration - 8
A Ring Sliding on a Smooth Rod
Duration: 2.49 Min
Add to my sequences
Bookmark This Video
Illustration - 9
Position of Equilibrium in a Force Field
Duration: 3.05 Min
Add to my sequences
Bookmark This Video
Illustration - 10
Minimum Required Force to Slide a Body in a Spring System
Duration: 2.26 Min
Add to my sequences
Bookmark This Video
Illustration - 11
Maximum Speed of a Particle in a Force Field
Duration: 3.16 Min
Add to my sequences
Bookmark This Video
Illustration - 12
Breaking off a Cube from Ground
Duration: 4.04 Min
Add to my sequences
Bookmark This Video
Illustration - 13
Power of a Force Pulling a Rope
Duration: 3.36 Min
Add to my sequences
Bookmark This Video
Illustration - 14
Effect of Air Drag on Motion of a Body
Duration: 6.00 Min
Add to my sequences
Bookmark This Video
Illustration - 15
Breaking off a Block on Rough Ground
Duration: 4.40 Min
Add to my sequences
Bookmark This Video
Illustration - 16
Falling Chain Through a Hole
Duration: 4.27 Min
Add to my sequences
Bookmark This Video
Illustration - 17
Sliding on a Conveyer Belt
Duration: 7.02 Min
Add to my sequences
Bookmark This Video
Illustration - 18
Breaking off a Body from a Surface
Duration: 4.32 Min
Add to my sequences
Bookmark This Video
Illustration - 19
Block Sliding on a Smooth Track and a Rough Surface
Duration: 1.43 Min
Add to my sequences
Bookmark This Video
Illustration - 20
Work done by Friction on a Sliding Chain
Duration: 3.47 Min
Add to my sequences
Bookmark This Video
Illustration - 21
Power Developed by Friction on a Body
Duration: 5.02 Min
Add to my sequences
Bookmark This Video
Illustration - 22
Work done Against a Spring and Friction
Duration: 4.04 Min
Add to my sequences
Bookmark This Video
Illustration - 23
Projection of a Particle in a Potential Field
Duration: 2.39 Min
Add to my sequences
Bookmark This Video
Illustration - 24
Maximum Elongation in a Spring Attached to Two Blocks
Duration: 5.10 Min
Add to my sequences
Bookmark This Video
Illustration - 25
Sliding Over an Inclined of Variable Roughness
Duration: 3.03 Min
Add to my sequences
Bookmark This Video
Illustration - 26
Work by a Variable Force in Lifting a Body
Duration: 4.05 Min
Add to my sequences
Bookmark This Video
Illustration - 27
Verification of a Central Force Field
Duration: 2.40 Min
Add to my sequences
Bookmark This Video
<< PREVIOUS
Switch to Video with GLOBAL Voice Accent
NEXT >>
Share this with your friends :
Post your question related to above video lecture
Sir, I used force method to solve this question. F-kx=#m2g kx=#m1g So, F=#(m1 m2)g Sir, can you please tell me what have I missed? Thank you. PS:-I have used # for mu.
6 years ago by Ayushi Jain
Post your answer here
why final kinetic energy is zero.if constant force is applied m1 will gain some velocity.
8 years ago by manasibandhaokar23@yahoo.com
Ans 1 ->
Hey yaar manasi u didnot consider friction which oppose the external force
8 years ago by
ansuman dixit
Post your answer here
While using work energy theorem why the final kinetic energy is zero?Even though the force is minimum m2 must had gain some velocity.
9 years ago by Sandip Kumar
Ans 1 ->
Friction opposed it.that's the reason
8 years ago by
ansuman dixit
Post your answer here
Playlist dashboard
Close
Sequence Title :
*
Select Playlist to which you want to add this video :