Block of mass m(2) is in equilibrium and...

Block of mass `m_(2)` is in equilibrium and at rest. The mass `m_(1)` moving with velocity `u` vertically downwards collids with `m_(2)` and sticks to it. Find the energy of oscillation.

Text Solution

Verified by Experts

Let the velocity of `m_(1)` & `m_(2)` be `v` after collision
By conservation of momentum
Hence , `KE = (1)/(2)(m_(1) + m_(2))v^(2) = (1)/(2)(m_(1)^(2))/(m_(1) + m_(2))u^(2)`

`m_(2)g = Kx_(1)`
`(m_(1) + m_(2))g = Kx_(2)`
`PE = (1)/(2)K(x_(2) - x_(1))^(2) = (1)/(2)K((m_(1)g)/(K))^(2) rArr PE = (1)/(2)(m_(1)^(2)g^(2))/(K)`
Therefore energy of oscillion is -
`E = KE + PE`
`E = (1)/(2)(m^(2)u^(2))/(m_(1) + m_(2)) + (m_(1)^(2)g^(2))/(2K) rArr = (1)/(2)[(m_(1)^(2)u^(2))/(m_(1) + m_(2)) + (m_(1)^(2)g^(2))/(K)]` Ans.

Topper's Solved these Questions

SIMPLE HARMONIC MOTION
RESONANCE ENGLISH|Exercise Board Level Exercise|24 Videos
SIMPLE HARMONIC MOTION
RESONANCE ENGLISH|Exercise Exercise- 1, PART - I|25 Videos
SIMPLE HARMONIC MOTION
RESONANCE ENGLISH|Exercise Advanced Level Problems|13 Videos
SEMICONDUCTORS
RESONANCE ENGLISH|Exercise Exercise 3|88 Videos
TEST PAPERS
RESONANCE ENGLISH|Exercise PHYSICS|784 Videos

Similar Questions

Explore conceptually related problems

A particle of mass 2m moving with velocity v strikes a stationary particle of mass 3m and sticks to it . The speed of the system will be

Block of mass m_(2) is in equilibrium as shown in figure. Anotherblock of mass m_(1) is kept gently on m_(2) . Find the time period of oscillation and amplitude.

An object of mass m_(1) moving with speed v collides with another object of mass m_(2) at rest and stick to it. Find the impulse imparted to the second object.

A spring block pendulum is shown in figure . The system is hanging in equilibrium. A bullet of mass m//2 moving at a speed u bites the block from downwards direction and gets embedded in it. Find the amplitude of oscillation of the block now.

A bullet of mass m moving with velocity v strikes a block of mass M at rest and gets embedded into it. The kinetic energy of the composite block will be

A body of mass m/2 moving with velocity v_0 collides elastically with another mass of m/3 . Find % change in KE of first body

If a sphere of mass m moving with velocity u collides with another identical sphere at rest on a frictionless surface, then which of the following is correct ?

A particle of mass m moves with velocity u_(1)=20m//s towards a wall that is moving with velocity u_(2)=5m//s . If the particle collides with the wall without losing its energy, find the speed of particle just after the collision.

Two masses, m_(1) and m_(2) , are moving with velocities v_(1) and v_(2) . Find their total kinetic energy in the reference frame of centre of mass.

RESONANCE ENGLISH-SIMPLE HARMONIC MOTION -Solved Miscellaneous Problems

Write the equation of SHM for the situtions shown below:
Text Solution
|
Block A of mass m is performing SHM of amplitude a. Another block B of...
Text Solution
|
At particle is executing SHM with amplitude A and has maximum velocity...
Text Solution
|
The block is allowed to fall, slowly from the position where spring i...
Text Solution
|
In the above problem if block is released from there, what would be ma...
Text Solution
|
Block of mass m(2) is in equilibrium as shown in figure. Anotherblock ...
Text Solution
|
Block of mass m(2) is in equilibrium and at rest. The mass m(1) moving...
Text Solution
|
A box is placed on a smototh plane end it is free to move. A single pe...
Text Solution
|
x(1) = 5 sin omega t x(2) = 5 sin (omega t + 53^(@)) x(3) = -...
Text Solution
|