A body is thrown with initial velocity 10 m/sec. at an angle `37^(@)` fro horizontal. Find
(i) time of flight
(ii) Maximum geight.
(iii) Range (iv) Position vector after `t=1` sec.

a ball is thrown with 25 m//s at an angle 53^(@) above the horizontal. Find its time to fight, maximum height and range.

A body is thrown with a velocity of 9.8 m//s making an angle of 30^(@) with the horizontal. It will hit the ground after a time

A particle is projected with a speed of 10 m/s at an angle 37^(@) with the vertical. Find (i) time of flight (ii) maximum height above ground (iii) horizontal range.

A particle is projected with a velocity 10 m/s at an angle 37^(@) to the horizontal. Find the location at which the particle is at a height 1 m from point of projection.

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 body is projected from ground with velocity u making an angle theta with horizontal. Horizontal range of body is four time to maximum height attained by body. Find out (i) angle of projection (ii) Range and maximum height in terms of u (iii) ratio of kinetic energy to potential energy of body at maximum height

An object is thrown upwards with an initial velocity of 17 m/sec from a building with 12 m height. It is at a height of S = 12 + 17t – 5t^(2) from the ground after a flight of ‘t’ seconds. Find the time taken by the object to touch the ground.

A body is projected at an angle of 45^(@) with horizontal with velocity of 40sqrt(2)m//s . Find out (i) Maximum height attained by body (ii) Time of flight (iii) Horizontal range (iv) Velocity at maximum height (v) The ratio of Kinetic energy to potential energy at highest point (vi) The part equation of projectile, assuming point of projection as origin and consider x and y are horizontal and vertical distance in meter (vii) The horizontal distance covered by body in 2 second (viii) The vertical distance covered by body in 2 second

A man can throw a stone with initial speed of 10 m//s . Find the maximum horizontal distance to which he can throw the stone in a room of height h for: (i) h = 2 m and (ii) h = 4 m .

A bullet of mass M is fired with a velocity 50m//s at an angle with the horizontal. At the highest point of its trajectory, it collides head-on with a bob of mass 3M suspended by a massless string of length 10//3 metres and gets embeded in the bob. After the collision, the string moves through an angle of 120^@ . Find (i) the angle theta , (ii) the vertical and horizontal coordinates of the initial position of the bob with respect to the point of firing of the bullet. Take g=10 m//s^2