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` :-

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:-

If v is the velocity of a body moving along x-axis, then acceleration of body is

For the acceleration - time (a - t) graph shown in figure, the change in velocity of particle from t = 0 to t = 6 s is

The displacement of a particel moving with uniform acceleration after r's given by s = 10 t + 4.9 t ^2 ? What is the magnitude the final velocity at t = 3 s and the uniform acceleration .

A particle is moving with constant speed v in xy plane as shown in figure. The magnitude of its angular velocity about point O is

Can an object accelerate If its velocity is constant?

A particle moves in the x-y plane with the velocity bar(v)=ahati-bthatj . At the instant t=asqrt3//b the magnitude of tangential, normal and total acceleration are _&_.

A disc of radius R rolls on a horizontal ground with linear acceleration a and angular acceleration α as shown in figure. The magnitude of acceleration of point P at an instant when its linear velocity is v and angular velocity is ω will be:

The coordinates of a particle moving in x-y plane at any time t are (2 t, t^2). Find (a) the trajectory of the particle, (b) velocity of particle at time t and (c) acceleration of particle at any time t.

Figure is a graph of the coordinate of a spider crawling along the x-axis. (a) Fraph tis velocity and acceleration as functionsof time. (b) In a motion diagram, show the position, velocity, and acceleration of the spider at the five times: t=2.5 s , t=10 s, t=20 s, t=30 s , .