For motion of an object along `x`-axis, the velocity `v` depends on the position `x` as `v`=`(2x^2-x)`m/s , where `x` is in `m`. The accleration of the object at `x`= 1m will be

For motion of an object along the x -axis,the velocity v depends on the displacement x as v=3x^(2)-2x ,then the acceleration of the object (in m/s^2 ) at x=2m is.....

For motion of an object along the x-axis the velocity v depends on the displacement x as v=3x^(2)-2x , then what is the acceleratiobn at x=2m .

For motion of an object along the x-axis the velocity v dipends on the displacement x an v=3x^(2) , then what is the acceleration at x=2 m .

For motion of an object along x-axis, the velocity V depends on the displacement x as V = 3x^(2) -2x . Accelertion at x= 2m is 10n where n is an integer. The value of n is "____________" .

Velocity (v) versus position (x) graph of a particle is shown.The acceleration of the particle at x=1m is ?

A particle of unit mass is moving along x-axis. The velocity of particle varies with position x as v(x). =alphax^-beta (where alpha and beta are positive constants and x>0 ). The acceleration of the particle as a function of x is given as

The position of an object moving along x-axis is given by a+bt^(2) , where a=8.5 m and b= 2.5m//s^(2) and t is measured in seconds. The average velocity (in m/s) of the object between t=2s and t=4s is

Velocity of particle moving along x-axis is given as v = ( x^(3) - x^(2) + 2) m // sec. Find the acceleration of particle at x=2 meter.

A body starts from origin and moves along x - axis so that its position at any instant is x=4t^(2)-12t where t is in second and v in m/s. What is the acceleration of particle?

A particle is in motion on the x-axis. The variation ofits velocity with position is as shown. The graph is circle and its equation is x^(2)+v^(2)=1 , where x is in m and v in m/s. The correct statement(s) is/are:-