A particle moves in the x-y plane with the velocity `vec v = ahat i - bt hat j`. At the instant `t =asqrt(3)//b` the magnitude of tangential, normal and total acceleration are ….. &…….

A particle is moving in a circular path whose portion vector is given by barr = (acost)hat i +(asin t)hat j then, the tangential component of acceleration at t= (pi)/(2) sec is

The projection of a vector vec(r ) = 3 hat(i) + hat(j ) + 2 hat(k) on the x-y plane has magnitude

A particle moves with deceleration along the circle of radius R so that at any moment of time its tangential and normal acceleration are equal in moduli. At the initial moment t=0 the speed of the particle equals V_(0) then The total acceleration of the particle as function of velocity and distance covered

A particle is moving in a circle of radius R in such a way that at any instant the normal and tangential components of the acceleration are equal. If its speed at t=0 is u_(0) the time taken to complete the first revolution is :

A particle is moving along a line according to the law s=t^3-3t^2+5 . The acceleration of the particle at the instant where the velocity is zero is