The relation between the acceleration and time for an object is given below. Calculate the velocity with which the object is moving at t = 1 s.
`a=3t-4t^(2)`

The position-time (x-t) graph of an object in uniform motion is shown below. Calculate the velocity with which the object is moving.

The position-time (x-t) graph of an object in uniform motion is shown below. Calculate the velocity with which the object is moving.

If the relation between acceleration and time for an object is given by a=2t+4t^(2) Calculate the position of object from the origin at t = 4 s. Assume the object to be at rest at t=0 .

If the relation between acceleration and time for an object is given by a=2t+4t^(2) Calculate the position of object from the origin at t = 4 s. Assume the object to be at rest at t=0 .

The velocity-time graph of an object is given below. Calculate the average acceleration of the object in the time interval of 4 s to 6 s.

The velocity-time graph of an object is given below. Calculate the average acceleration of the object in the time interval of 4 s to 6 s.

The displacement x of an object is given as a function of time x=2t+3t^(2) Calculate the instantaneous velocity of the object at t = 2 s

The displacement x of an object is given as a function of time x=2t+3t^(2) Calculate the instantaneous velocity of the object at t = 2 s

The velocity of an object is changing with time and relation is given by the following equation. v=2t+3t^(2) Calculate the position of the object from the origin at t = 2 s. Assume particle to be at origin at t = 0

The velocity of an object is changing with time and relation is given by the following equation. v=2t+3t^(2) Calculate the position of the object from the origin at t = 2 s. Assume particle to be at origin at t = 0