A force `vecF = ( 3hati + 4hatj)` N is acting on a particle. Work done by the force is zero, when particle is moving on the line `2y + Px = 2`, the value of P is

Force acting on a particale is (2hat(i)+3hat(j))N . Work done by this force is zero, when the particle is moved on the line 3y+kx=5 . Here value of k is ( Work done W=vec(F).vec(d))

Force acting on a particale is (2hat(i)+3hat(j))N . Work done by this force is zero, when the particle is moved on the line 3y+kx=5 . Here value of k is ( Work done W=vec(F).vec(d))

A force vecF=(3xy-5z)hatj+4zhatk is applied on a particle. The work done by the force when the particle moves from point (0, 0, 0) to point (2, 4, 0) as shown in figure.

Force acting on a pasrticle is vecF = (alpha y hati +beta xy hatj) . Find the work done by this force, when pasrticle is moved alolng the line 2x = 3y from origin to the point (3,2) {take quantities in SI units and alpha = 1, beta = 1 }

A force of vecF=2xhati+2hatj+3z^2hatk N is acting on a particle. Find the work done by this force in displacing the body from (1, 2, 3)m to (3, 6, 1)m .

A force F=(2hati-hatj+4hatk)N displaces a particle upto d=(3hati+2hatj+hat k)m. Work done by the force is

A force (hati-2hatj+3hatk) acts on a particle lying at origin. What is the torque acting on the particle about origin?

A force (hati-2hatj+3hatk) acts on a particle lying at origin. What is the torque acting on the particle about the origin.

A force vecF=(4hati+5hatj)N acts on a particle moving in XY plane. Starting from origin, the particle first goes along x-axis to the point (5.0) m and then parallel to the Y-axis to the point (5,4 m. The total work done by the force on the particle is

A force vecF=6t^(2)hati+4thatj is acting on a particle of mass 3 kg then what will be velocity of particle at t=3 second and if at t=0, particle is at rest:-