A particle of rest mass `m_0` moves along the x axis of the frame K in accordance with the law `x=sqrt(a^2+c^2t^2)`, where `a` is a constant, c is the velocity of light, and t is time. Find the force acting on the particle in this reference frame.

A body of mass m moves along X-axis such that its position coordinate at any instant t is x = at^(4) - bt^(3) + 2 ct^(2) - (3d)t where a,b,c,d are constants What is the force acting on the particle at instant ?

A particle constrained to move along the x-axis in a potential V=k"x"^(2) is subjected to an external time dependent force vec(f)(t) here k is a constant, x the distance from the origin, and t the time. At some time T, when the particle has zero velocity at x = 0, the external force is removed. Choose the incorrect options – (1) Particle executes SHM (2) Particle moves along +x direction (3) Particle moves along – x direction (4) Particle remains at rest

A particle of mass m initially at rest. A variabl force acts on the particle f=kx^(2) where k is a constant and x is the displacment. Find the work done by the force f when the speed of particles is v.

A particle moves along the x-axis such that its co-ordinate (x) varies with time (t), according to the expression x=2 -5t +6t^(2), where x is in metres and t is in seconds. The initial velocity of the particle is :–

Kinetic energy of a particle moving in a straight line varies with time t as K = 4t^(2) . The force acting on the particle