A particle is moving such that the velocity is given by `v=sqrt(2gammas)`, where `gamma` is constant and s is diplacement. Find the acceleration.

If velocity of a particle is v=bs^(2) ,where b is constant and s is displacement. The acceleration of the particle as function of s is?

A particle is moving in a circle of radius R and its speed is given by v=lambdat^(2) , where lambda is a constant. Find (a) radial acceleration, (b) tangential acceleration, ( c) resultant acceleration and (d) angle between acceleration and velocity.

A particle in moving in a straight line such that its velocity is given by v=12t-3t^(2) , where v is in m//s and t is in seconds. If at =0, the particle is at the origin, find the velocity at t=3 s .

A particle moves in a straight line so that its velocity at any point is given by v^(2)=a+bx , where a,b ne 0 are constants. The acceleration is

A particle of mass m moves in a circle of radius R in such a way that its speed (v) varies with distance (s) as v = a sqrt(s) where a is a constant. Calcualte the acceleration and force on the particle.

The velocity of a particle moving on the x-axis is given by v=x^(2)+x , where x is in m and v in m/s. What is its position (in m) when its acceleration is 30m//s^(2) .

The velocity of a particle moving on the x-axis is given by v=x^(2)+x , where x is in m and v in m/s. What is its position (in m) when its acceleration is 30m//s^(2) .

A particle moves in a circular path such that its speed v varies with distance as v=alphasqrts where alpha is a positive constant. Find the acceleration of particle after traversing a distance S?

A particle moves in a circle of radius 20 cm. Its linear speed is given by v = (3t^(2) +5t) where t is in second and v is in m/s. Find the resultant acceleration at t = 1s.