The displacement of a body is given by `r=sqrt(a^(2)-t^(2))+t cost^(2)` , where `t` is the time and a is constant. Its velosity is `:`

The displacement of a body is given by 2 s= g t^(2) where g is a constant. The velocity of the body at any time t is :

The displacement of a body is given by s=(1)/(2)g t^(2) where g is acceleration due to gravity. The velocity of the body at any time t is

The angular displacement of a particle is given by theta = t^4 +t^3 +t^2 +1 where ‘t’ is time in seconds. Its angular velocity after 2 sec is

The angular displacement of a particle is given by theta = t^3 + 2t +1 , where t is time in seconds. Its angular acceleration at t=2s is

A particle moves rectilinearly. Its displacement x at time t is given by x^(2) = at^(2) + b where a and b are constants. Its acceleration at time t is proportional to

The equations of motion of a particle P(x,y) on a plane are given by x=4+r. cos t, y=6+r. sin t , where t is time and r is constant . Its velocity at time t is

The displacement of a particle is given by x=a_(0)+(a_(1)t)/(3)-(a_(2)t^(2))/(2) where a_(0),a_(1) and a_(2) are constants. What is its acceleration ?

The displacement of a body from a reference point is given by sqrt(x)=2t-3 , where 'x' is in metres and it is non negative number, t in seconds. This shows that the body :