(a) A particle moving with constant acce...

(a) A particle moving with constant acceleration from `A` to `B` in a straight line `AB` has velocities `u` and `v` at `A` and `B` respectively. Find the velocity of the particle at the midpoint of `AB`.
(b) If the time taken by the particle to go from `A` to the midpoint of `AB` is two times that from the midpoint of `AB` to `B` then find the value of `v//u`.

Similar Questions

Explore conceptually related problems

A point moving with constant acceleration from A to B in the straight line AB has velocities u and v at A and B respectively. Find its velocity at C, the mid point of AB. Also show that if the time from A to C is twice that from C to B, then v =7 u .

A point moving with constant acceleration from A to B in the straight line AB has velocities u and v at and B respectively. Find its velocity at C, the mid point of AB. Also show that if the time from A to C is twice that from C to B, then v =7 u .

A body is moving with constant acceleration, a= 5 m/s^2 from A to B in straight line AB. The velocity of particle at A and B are 5 m/s and 15 m/s respectively. The velocity at mid-point of AB is

A particle is moving with a uniform acceleration along a straight line AB. Its velocity at A and B are 2 m/s and 14 m/s respectively. Then

A particle moving with uniform acceleration from A to B along a straight line has velcities v_(1) and v_(2) at A and B respectively. If C is the mid-point between A and B then determine the velocity of the particle at C . .

A particle is moving with uniform acceleration along a straight line ABC. Its velocity at A and B are 6 m/s and 9 m/s respectively if AB:BC=5:16 then its velocity at C is

Time taken by the particle to reach from A to B is t . Then the distance AB is equal to

Similar Questions

Recommended Questions