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:-

At the uppermost point of a projectile its velocity and acceleration are at an angle of:

A particle has initial velocity (5hati+7hatj) and acceleration (0.7hati+0.5hatj) . The magnitude of velocity after 10 second will be

During uniform circular motion of object out of (i) magnitude of velocity (ii) magnitude of force (iii) acceleration (iv) momentum vector is not constant.

An object have zero velocity even then it has acceleration.

A particle moves in such a way that its position vector at any time t is vec(r)=that(i)+1/2 t^(2)hat(j)+that(k) . Find as a function of time: (i) The velocity ((dvec(r))/(dt)) (ii) The speed (|(dvec(r))/(dt)|) (iii) The acceleration ((dvec(v))/(dt)) (iv) The magnitude of the acceleration (v) The magnitude of the component of acceleration along velocity (called tangential acceleration) (v) The magnitude of the component of acceleration perpendicular to velocity (called normal acceleration).

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

The slope of graph y-t give the magnitude of .......... (displacement, speed, acceleration)

A particle is moving in a circle of radius r with speed v as shown in the figure. The magnitude of change in velocity in moving from P to Q is