Two balls of masses m(1), m(2) and speed...

Two balls of masses `m_(1), m_(2)` and speeds `v_(1)` and `v_(2)` collide at right angle . The maximum amount of kinetic energy loss due ot inelastic collision is ___.

`(1)/(2)(m_(1)v_(1)^(2) + m_(2) V_(2)^(2))`

`(1)/(2) (m_(1)m_(2))/(m_(1) + m_(2)) (v_(1)^(2) + v_(2)^(2))`

`(1)/(2) (1)/(m_(1) + m_(2)) (m_(1)^(2)v_(1)^(2) + m_(2)^(2)v_(2)^(2))`

`(1)/(2) (m_(1)m_(2))/(m_(1) + m_(2)) (v_(1) + v_(2))^(2)`

Text Solution

Verified by Experts

The correct Answer is:

Maximum energy loss happens when balls stick together (perfectly inelastic)

`F_(ext) = 0` both along x & y aixs
Aong x-axis :
`m_(1)v_(1) = (m_(1) + m_(2))v_(x)`
`v_(x) = (m_(1)v_(1))/(m_(1) + m_(2))`
Along y-axis :
`v_(v) = (m_(2)v_(2))/(m_(1) + m_(2))`
`v = sqrt(v_(x)^(2) + v_(y)^(2))`
`DeltaKE = (1)/(2) (m_(1) + m_(2))[((m_(1)v_(1))/(m_(1) + m_(2)))^(2) + ((m_(2)v_(2))/(m_(1) + m_(2)))^(2)]`
`-(1)/(2)m_(1)v_(1)^(2) - (1)/(2) m_(2)v_(2)^(2)`
`= -(1)/(2)(m_(1)m_(2))/(m_(1) + m_(2)) (v_(1)^(2) + v_(2)^(2))`
METHOD-2
For two body system
`DeltaK = -(1)/(2)mu|vec(v)_(rel)|^(2)`
`mu = (m_(1)m_(2))/(m_(1) + m_(2)), vec(v)_(rel) = vec(v)_(1) - vec(v)_(2)`
`vec(v)_(rel) = v_(1)hat(i) - v_(2)hat(j)`
`|vec(v)_(rel)| = sqrt(v_(1)^(2) + v_(2)^(2))`

Topper's Solved these Questions

CENTRE OF MASS
ALLEN |Exercise EXERCISE-II|43 Videos
CENTRE OF MASS
ALLEN |Exercise EXERCISE-III|41 Videos
CENTRE OF MASS
ALLEN |Exercise EXERCISE-V B|19 Videos
BASIC MATHEMATICS USED IN PHYSICS &VECTORS
ALLEN |Exercise EXERCISE-IV ASSERTION & REASON|11 Videos
ELASTICITY, SURFACE TENSION AND FLUID MECHANICS
ALLEN |Exercise Exercise 5 B (Integer Type Questions)|3 Videos

Similar Questions

Explore conceptually related problems

Two H atoms in the ground state collide inelastically. The maximum amount by which their combined kinetic energy is reduced is

Two bodies of masses m_(1) and m_(2) have same linear momentum . The ratio of their kinetic energies (E_(1))/(E_(2)) will be ………

A ball A moving with a velocity 5 m/s collides elastically with another identical ball at rest such that the velocity of A makes an angle of 30^(@) with the line joining the centres of the balls. Then consider following statements : (A) Balls A an B move at right angles after collision (B) kinetic energy is conserved (C) speed of A after collision is (5/2) m/s (D) speed of B after collision is ( 5sqrt(3)//2 ) m/s Select correct alternative :-

Two particle of masses m_(1).m_(2) moves with initial velocities u_(1) and u_(2) . On collision one of the particles get excited to higher level after absorbing energy epsilon . If final velocities of particles be v_(1) and v_(2) then we must have :

Find the mass of a body which has 5J of kinetic energy while moving at a speed of 2m/s (AS_(1))

A sphere of mass m_(1) in motion hits directly another sphere of mass m_(2) at rest and sticks to it, the total kinetic energy after collision is 2//3 of their total K.E. before collision. Find the ratio of m_(1) : m_(2) .

Two bodies of masses m_(1) and m_(2) are acted upon by a constant force F for a time t . They start from rest and acquire kinetic energies K_(1) and K_(2) respectively. Then (K_(1))/(K_(2)) is :

Two particles A_(1) and A_(2) masses m_(1),m_(2)(m_(1)gtm_(2)) have the same de-Broglie wavelegth .Then

A ball of mass m , moving with a speed 2v_(0) collides inelastically ( e gt 0) with an identical ball at rest . Show that (a) For head - on collision , both the balls move forward . (b) For a general collision , the angle between the two velocities of scattered balls is less than 90^(@)

This question has statement -I and statement - II of the four choices given after the statements , choose the one that best describes the two statements . Statement - I : A point particle of mass m moving with speed v collides with stationary point particle of mass M . If the maximum energy loss possible is given as f(1/2 mv^(2)) " then" F = (m/(M+m)) Statement -II : Maximum energy loss occurs when the particles get stuck together as a result of the collision .

ALLEN -CENTRE OF MASS-EXERCISE-I

As shown, a big box of mass M is resting on a horziontal smooth florr....
Text Solution
|
The elastic collision between two bodies, A and B, can be cosidered us...
Text Solution
|
Two balls of masses m(1), m(2) and speeds v(1) and v(2) collide at rig...
Text Solution
|
Two paricle A and B initially at rest, move towards each other under m...
Text Solution
|
The velcoity of centre of mass of the system as shown in the figure :-
Text Solution
|
A strange cat with a mass m(c ) is sitting at rest on the left sled of...
Text Solution
|
The figure shows the positions and velocity of two particle. If the pa...
Text Solution
|
A particle of mass 2m is connected by an inextensible string of length...
Text Solution
|
A ball of mass 1 kg drops vertically on to the floor wit a speed of 25...
Text Solution
|
A particle of mass m is made to move with uniform speed v(0) along the...
Text Solution
|
Two balls of same mass are dropped from the same height h, on to the f...
Text Solution
|
An impulse vrc(I) changes the velocity of a particle from vec(v)(1) to...
Text Solution
|
A particle of mass 4m which is at rest explodes into masses m, m and 2...
Text Solution
|
Two blocks A(3 kg) and B(2 kg) resting on a smooth horizontal surface ...
Text Solution
|
A shell is fired vertically upwards with a velocity v(1) from the deck...
Text Solution
|
A shell is fired from a cannon with a velocity v (m//sec.) at an angle...
Text Solution
|
A ball hits the floor and rebounds after an inelastic collision. In th...
Text Solution
|
Three balls A, B and C are placed on a smooth horizontal surface. Give...
Text Solution
|
A body of mass 1 kg strikes elastically with another body at rest and ...
Text Solution
|
A small bucket of mass M kg is attached to a long inextensible cord of...
Text Solution
|