A particle of mass `m = 2kg` executes `SHM` in `xy`- plane between point A and B under action of force `vecF = F_(x)hati+F_(y)hatj`. Minimum time taken by particle to move from A to B is 1 sec. At `t = 0` the particle is at `x = 2` and `y = 2`. Then `F_(x)` as function of time t is

A particle of mass 2 kg moves in the xy plane under the action of a constant force vec(F) where vec(F)=hat(i)-hat(j) . Initially the velocity of the particle is 2hat(j) . The velocity of the particle at time t is

Particle moves from point A to point B along the line shown in figure under the action of force. evc F = - x hati + y hatj . Determine the work done on the particle by vec F in moving the particle from point A to point B.

A particle of mass 2 kg starts motion at time t = 0 under the action of variable force F = 4t (where F is in N and t is in s). The work done by this force in first two

A particle of mass m moves from A to C under the action of force vecF = 2xyhati + y^2 hatj , along different paths as shown in figure.

(i) A particle of mass m executes SHM in xy- plane along a straight line AB. The points A (a, a) and B (- a, - a) are the two extreme positions of the particle. The particle takes time T to move from one extreme A to the other extreme B. Find the x component of the force acting on the particle as a function of time if at t = 0 the particle is at A. (ii) Two particle A and B are performing SHM along X-axis and Y-axis respectively with equal amplitude and frequency of 2 cm and 1 Hz respectively. Equilibrium positions for the particles A and B are at the coordinate (3, 0) and (0, 4) respectively. At t = 0, B is at its equilibrium position and moving toward the origin, while A is nearest to the origin. Find the maximum and minimum distances between A and B during their course of motion

A particle of mass m is subjected to a force vecF=F_(0)[cos (t)hati+sin(1)hatj] . If initially (t=0) the particle was at rest, the kinetic energy of the particle as a function of time is given by:

A particle is moving in X-Y plane that x=2t and y=5sin(2t). Then maximum speed of particle is:

A body of mass 5 kg under the action of constant force vec(F)=F_(x)hati+F_(y)hatj has velocity at t=0 s as vecv=(6hati-2hatj) m/s and at t=10s as vecv=+6hatj m/s. The force vecF is:

A particle moves in the x-y plane under the action of a force vec F such that its linear momentum vec P at any time t is vec P=2cost hati+2sint hatj . The angle between vec F and vec P at a given time t will be