A car 2m long and 3m wide is moving at `10m//s` when a bullet hits it in a direction making an angle of `tan^(-1)(3//4)` with the car as seen from the ground. The bullet enters one edge of the car at the corner and passes out at diagonally opposite corner. Neglecting gravity, the time for the bullet to cross the car is

A railway compartments is 16 m long, 2.4 m wide and 3.2 m high. It is moving with a velocity v A particle moving horizontally with a speed u perpendicular to the direction of v enters through a hole at an upper corner A and strikes the diagonally opposite corner B .Assume g=10 m//s^(2) .

A car moves at a constant speed on a straigh but hilly road. One section has a crest and dip of the 250m radius. (a) As the car passes over the crest the normal force on the car is half the 16kN weight of the car. What will the noraml force on the car its passes through th ebottom of the dip? (b) What is the greatest speed at which the car can move without leaving the road at the top of the hill ? (c) Moving at a speed found in part (b) what will be the normal force on the car as it moves through the bottom of the dip? (Take, g=10m//s^(2))

Hailstones falling vertically with a speed of 10 m s^-1 , hit the wind screen (wind screen makes an angle 30^@ with the horizontal) of a moving car and rebound elastically. Find the velocity of the car if the driver finds the hailstones rebound vertically after striking. .

A car is moving with speed 20 ms ^(-1) on a circular path of radius 100 m. Its speed is increasing at a rate of 3 ms^(-2) . The magnitude of the acceleration of the car at that moment is

A car is moving with speed 20 ms ^(-1) on a circular path of radius 100 m. Its speed is increasing at a rate of 3 ms^(-2) . The magnitude of the acceleration of the car at that moment is

A car is moving with constant speed of 10m/s on a horizontal circular path of radius 10sqrt(3m) . A bob of mass m suspended through a light string from the roof of the car. What is the angle made by the string with the vertical if the bob is stationary with respect to the car? (g = 10 m/ s^(2) )

A car accelerating at the rate of 2 m//s^2 from rest from origin is carrying a man at the rear end who has a gun in his hand. The car is always moving along positive x-axis. At t=4 s, the man fires a bullet from the gun and the bullet hits a bird at t=8 s. The bird has a position vector 40hati + 80hatj + 40hatk . Find velocity of projection of the bullet. Take the y-axis in the horizontal plane. (g=10m//s^2) .

A car is moving with speed of 2ms^(-1) on a circular path of radius 1 m and its speed is increasing at the rate of 3ms(-1) The net acceleration of the car at this moment in m//s^2 is

A boy in the elevator shoots a bullet in a vertical upward direction from a height of 1.5 m above the floor of the elevator. There is no roof in the elevator. The floor of the elevator is at 50 m from ground at the instant when velocity of the elevator is 10 m/s in upward direction. The bullet strikes the floor of the elevator in 2 seconds. The initial speed of the bullet is 15 m/s relative to the elevator. Q. Find the displacement of the bullet relative to ground during its flight:

A boy in the elevator shoots a bullet in a vertical upward direction from a height of 1.5 m above the floor of the elevator. There is no roof in the elevator. The floor of the elevator is at 50 m from ground at the instant when velocity of the elevator is 10 m/s in upward direction. The bullet strikes the floor of the elevator in 2 seconds. The initial speed of the bullet is 15 m/s relative to the elevator. Q. Find the maximum height reached by the bullet relative to the ground :