An object is moving in `x-y` plane its velocity and acceleration at `t=0` are represented in figure.

After how much time object crosses the `y-`axis:-

An object is moving in x-y plane its velocity and acceleration at t=0 are represented in figure. The ratio of magnitude of velocity to magnitude of component of acceleration along velocity at t=0 :-

Give velocity and acceleration at any point for an moving object whose x to t graph is straight line.

A point mass is moving in the x-y plane. Its acceleration is a constant vector perpendicular to the x-axis. Which of the following do/does not charge with time ?

An object of mass, m is moving with a constant velocity v. How much work should be done on the object in order to bring the object to rest?

A particle is moving on X- axis. Its velocity time graph is given in the figure. Find distance travelled by the particle in 5 sec .

A Body intially at rest, starts moving along x- axis in such a way so that its acceleration vs displacement plot is as shown in figure. The maximum velocity of particle is :-

The potential energy of an object of mass m moving in xy plane in a conservative field is given by U = ax + by , where x and y are position coordinates of the object. Find magnitude of its acceleration :-

A particle starts from the origin at t=0 s with a velocity of 10.0hatjm//s and moves in the x-y plane with a constant acceleration of (8.0hati+2.0hatj) " m s"^(-2) (a) At what time is the x - coordinate of the speed of the particle at the time ?

Find out the position of particle as a function of time which is moving in a straight line with an acceleration a=5 x , where x is position. (i) At t=0 the particle is at x=0 (ii) Mass of the object is 5 kg