A sphere A moving with speed u and rotat...

A sphere `A` moving with speed `u` and rotating With angular velocity `omega` makes a head-on elastic collision with an identical stationary sphere `B`. There is no friction between the surfaces of `A` and `B`. Choose the conrrect alternative(s). Disregard gravity.

A will stop moving but continue to rotate with an _ angular speed `omega`

A will come to rest and stop rotating

B will move with a speed u without rotating

B will move with a speed u and rotate with. an angular velocity `omega`

Text Solution

Verified by Experts

Topper's Solved these Questions

IMPULSE AND MOMENTUM
ANURAG MISHRA|Exercise L-3,(P-1)|5 Videos
IMPULSE AND MOMENTUM
ANURAG MISHRA|Exercise P-2|9 Videos
IMPULSE AND MOMENTUM
ANURAG MISHRA|Exercise Level 1|110 Videos
FORCE ANALYSIS
ANURAG MISHRA|Exercise Matching type|13 Videos
RIGID BODY MOTION
ANURAG MISHRA|Exercise MATCH THE COLUMN|12 Videos

Similar Questions

Explore conceptually related problems

A sphere A moving with a speed u and rotating with an angular velocity omega , makes a head-on elastic collision with an identical stationary sphere B. There is no friction between the surfaces of a and B. Disregard gravity.

Particle A makes a head on elastic collision with another stationary particle B. They fly apart in opposite directions with equal speeds. The mass ratio will be

A solid sphere is rolling without slipping on rough ground as shown in figure. It collides elastically with another identical sphere at rest. There is no friction between the two spheres. Radius of each sphere is R and mass is m. What is the net angular impulse about centre of mass imparted to second sphere by the external forces?

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 solid sphere is rolling without slipping on rough ground as shown in figure. It collides elastically with another identical sphere at rest. There is no friction between the two spheres. Radius of each sphere is R and mass is m. Linear velocity of first sphere after it again starts rolling without slipping is:

ANURAG MISHRA-IMPULSE AND MOMENTUM-L-2

A ball strikes a wall with a velocity vecu at an angle theta with the ...
Text Solution
|
A ball hits the floor and rebounds after an inelastic collision. In th...
Text Solution
|
Two identical buggies move one after the other due to inertia (without...
Text Solution
|
A nonzero external force on a system of particles. The velocity and th...
Text Solution
|
A small particle travelling with a velocity v collides elastically wit...
Text Solution
|
Two particles A and B of equal size but of masses m kg and 2 m kg are ...
Text Solution
|
Two friends A and B (each weighing 40 kg) are sitting on a frictionles...
Text Solution
|
A ball of mass 1 kg is thrown up with an initial speed of 4 m//s. A se...
Text Solution
|
A cannon shell is fired to hit a target at a horizontal distance R. Ho...
Text Solution
|
In the figure, the block B of mass m starts from rest at the top of a ...
Text Solution
|
A strip of wood of mass M and length l is placed on a smooth" horizont...
Text Solution
|
A sphere A moving with speed u and rotating With angular velocity omeg...
Text Solution
|
In an elastic collision between spheres A and B of equal mass but uneq...
Text Solution
|
The ring R in the arrangement shown can slide along a smooth, fixed, h...
Text Solution
|
A ball A is falling vertically downwards with velocity v(1) . It strik...
Text Solution
|
A ball of mass m=200gm is suspended from a point A by an inextensible...
Text Solution
|
A charged particle X moves directly towards another charged particle Y...
Text Solution
|
In a one-dimensional collision between two particles, their relative v...
Text Solution
|
In a one dimensional collision between two identical particles A and B...
Text Solution
|
A block of mass m is connected to another .block of mass M by a massle...
Text Solution
|