A block of mass 2 kg is kept at rest on a big box moving with velocity `2hat(i)` and having acceleration `-3hat(i)+4hat(j)m//s^(2)`. Find the value of ‘Pseudo force’ acting on block with respect to box

A block of mass m kg is placed on a plank. The plank is moving with an acceleration 6 hat(i) + 6 hat(j) (in m//s^(2) ). The frictional force acting on the block is (mu = 0.5, g = 10 m//s^(2)) :

A particle has initial velocity of (3hat(i)+4hat(j)) m//s and a acceleration of (4hat(i)-3hat(j)) m//s^(2) . Its speed after one second will be equal to :-

A particle has initial velocity of (3hat(i)+4hat(j)) m//s and a acceleration of (4hat(i)-3hat(j)) m//s^(2) . Its speed after one second will be equal to :-

A particle has initial velocity of (3hat(i)+4hat(j)) m//s and a acceleration of (4hat(i)-3hat(j)) m//s^(2) . Its speed after one second will be equal to :-

Find the kinetic energy of a particle of mass 200 g moving with velocity 3hat(i)-5hat(j)+4hat(k) m//s .

Find the kinetic energy of a particle of mass 200 g moving with velocity 3hat(i)-5hat(j)+4hat(k) m//s .

Find the kinetic energy of a particle of mass 200 g moving with velocity 3hat(i)-5hat(j)+4hat(k) m//s .

Two blocks A and B of masses 1kg and 2kg have acceleration (2hat(i))m//s^(2) and (-4hat(j))m//s^(2) . Find (a) Pseudo force on block A as applied with respect to the block B . (b) Pseudo force on block B as applied with respect to the block A

Two blocks A and B of masses 1kg and 2kg have acceleration (2hat(i))m//s^(2) and (-4hat(j))m//s^(2) . Find (a) Psseudo force on block A as applied with respect to the block B . (a) Pseudo force on block B as applied with respect to the block A

A block A is just placed inside a smooth box B as shown in figure. Now the box is given an acceleration a = (2 hat(i) - 2 hat(j)) m//s ^(-2) . Under the acceleration block A cannot remain in the position shown. Block will require ma force for moving with acceleration a .