A shell fired from a cannon. 1 sec after the firing it moves at an angle `45^(@)` with horizonatal it initial speed of shell is 50 m/s. The shell again lands on the same horizontal level.
Time of flight of the shell.

Just after firing, a bullet is found to move at an angle of 37^(@) to the horizontal. Its acceleration is 10 m//s^(2) downwards. Find the component of its acceleration in the direction of its velocity.

A particle is projected from ground towards a vertical wall 80 m away at an angle of 37^(@) with horizontal with initial velocity of 50 m/s. after its collision with wall & then once with ground find at what distance in meter from wall will it strike the ground. The component of velocity normal to the surface becomes half after collision with each surface.

A cannon of mass 5m (including a shell of mass m) is at rest on a smooth horizontal ground, fires the shell with its barrel at an angle theta with the horizontal at a velocity u relative to cannon. Find the horizontal distance of the point where shell strikes the ground from the initial position of the cannon :-

A shell is fired from a cannon with a velocity v (m//sec.) at an angle theta with the horizontal direction. At the highest point in its path it explodes into two pieces of equal mass. One of the pieces retraces its path to the cannon and the speed (in m//sec. ) of the other piece immediately after the explosion is

A projectile si thrown with velocity of 50m//s towards an inclined plane from ground such that is strikes the inclined plane perpendiclularly. The angle of projection of the projectile is 53^(@) with the horizontal and the inclined plane is inclined at an angle of 45^(@) to the horizontal. (a) Find the time of flight. (b) Find the distance between the point of projection and the foot of inclined plane.

A car P is moving with a uniform speed 5sqrt3 m//s towards a carriage of mass 9 kg at rest kept on the rails at a point B as shown in figure. The height AC is 120 m. Cannon balls of 1 kg are fired from the car with an initial velocity 100m//s at an angle 30^@ with the horizontal. The first cannon hall hits the stationary carriage after a time t_0 and sticks to it. Determine t_0 . At t_0 , the second cannon ball is fired. Assume that the resistive force between the rails and the carriage is constant and ignore the vertical motion of the carriage throughout. If the second ball also hits and sticks to the carriage, what will be the horizontal velocity of the carriage just after the second impact?

A ball is thown at angle theta and another ball is thrown at angle (90^(@)- theta) with the horizontal direction from the same point each with speeds of 40 m/s. The second ball reaches 50 m higher than the first ball. Find the individual heights. g= 10 m//s^(2)

A shell is fired from a point O at an angle of 60^(@) with a speed of 40 m//s & strikes a horizontal plane throught O, at a point A. The gun is fired a second time with the same angle of elevation but a different speed v. If it hits the target which starts to rise vertically from A with a constant speed 9sqrt(3) m//s at the same instant as the shell is fired, find v.

A commander fires a shell at certain angle of projection from A which clears the building of dimensions 20xx15xx12.5m in it's diagonal plane. Shell just clears the roof diagonally at points P and Q and falls on the other side of the building at B and makes angle 45^(@) with the horizontal at P and Q as shown in the figure. If the range AB of the shell is a^(2)xxsqrt(b) then find b? (a and b lowest possible integers)

A canon shell moving along a straight line bursts into two parts. Just after the burst one part moves with momentum 20 N s making an angle 30^(@) with the original line of motion. The minimum momentum of the other part of shell just after the burst is