A particle has a velocity u towards east at `t = 0`. Its acceleration is towards west and is constant. Let `x_(A)` and `x_(B)` be the magnitude of displacement in the first 10 seconds and the next 10 seconds:

A particle has a velocity u towards east at t=0 . Its acceleration is towards west and is constant. Let x_A and x_B be the magnitude of displacements in the first 10 seconds and the next 10 seconds

A particle has a velocity u towards east at t=0 . Its acceleration is towards west and is constant. Let x_A and x_B be the magnitude of displacements in the first 10 seconds and the next 10 seconds

A particle has a velocity u towards east at t=0 . Its acceleration is towards west and is constant. Let x_A and x_B be the magnitude of displacements in the first 10 seconds and the next 10 seconds

A body is given an initial velocity towards the north and constant acceleration is applied on it towards the south. It s_(1) and s_(2) are the magnitude of displacements in first 5s and the next 5s respectively then

A particle moved 5 m towards east and then moved 8 m towards west. What is the total distance travelled and the magnitude of displacement?

A particle moved 5 m towards east then moved 8 m towards west. What is the total distance travelled and the magnitude of displacement?

A particle has a displacement of 12 m towards east and 5m towards the north and then 6m vertically upward. Find the magnitude of the sum of these displacements.

A particle has initial velocity of 17 ms^(-1) towards east and constant acceleration of 2 ms^(-2) due west. The distance covered by it in 9th second of motion is :

A particle has a displacement of 12 m towards east and 6 m towards north and then 8 m vertically upwards. The magnitude of the sum of these displacements is