A Force F = `(2 hati + hatj + 3 hatk)` N acts on a particle of mass 1 kg for 2 s . If initial velocity of particle is u = `(2 hati + hatj)` m/s . Speed of particle at the end of 2 s will be

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

A force ( 5hati + 2hatj - 5hatk) newtons acts on a particle on a particle having postions vectors ( hati - 2hatj + hatk) .find the torque of the force about the origin .

A particle has an initial velocity of 4 hati +3 hatj and an acceleration of 0.4 hati + 0.3 hatj . Its speed after 10s is

A force (hati-2hatj+3hatk) acts on a particle of position vector (3hati+2hatj+hatk) . Calculate the torque acting on the particle.

A uniform force of (3hati+hatj) N acts on a particle of mass 2kg. Hence, the particle is displaced from position (2hati+hatk) m to position (4hati+3hatj-hatk) m. The work done by the force on the particle is

A uniform force of (5hati +5hatj)N acts on particle of mass 1 kg. The particle moves from r_1 = (3hati + 4hatj)m to r_2 = (5hati + 8hatj) m under this force. The work done by this force is

Velocity of a particle at time t=0 is 2 hati m/s. A constant acceleration of 2 m/s^2 acts on the particle for 2 s at an angle of 60^@ with its initial velocity. Find the magnitude of velocity and displacement of particle at the end of t=2s.

A particle of mass 1 kg has a velocity of 2m//s . A constant force of 2N acts on the particle for 1s in a direction perpendicular to its initial velocity. Find the velocity and displacement of the particle at the end of 1 s.

Find the torque of a force (7 hati + 3hatj - 5hatk) about the origin. The force acts on a particle whose position vector is (hati - hatj + hatk) .