A particle attached to a vertical string of length 1m is projected horizontally with a velocity `5 sqrt2 m//s` .What is maximum height reached by the particle from the lower most point of its trajectory.

A particle attached to a vertical string of length 1m is projected horizontally with a velocity 5 sqrt2 m//s (a) What is maximum height reached by the particle from the lower most point of its trajectory. (b) If the string breaks when it makes an angle of 60^(@) with downward vertical, find maximum height reached by the particle from the lower most point of its trajectory

A heavy particle hangs from a point O, by a string of length a. It is projected horizontally with a velocity u = sqrt((2 + sqrt(3))ag) . The angle with the downward vertical, string makes where string becomes slack is :

A particle of mass m is projected with a velocity mu at an angle of theta with horizontal.The angular momentum of the particle about the highest point of its trajectory is equal to :

A stone hanging from a massless string of length 15m is projected horizontally with speed sqrt(147) ms^(-1) Then the Speed of the particle, at the point where tension in string equals the weight of particle, is

A heavy particle hanging from a fixed point by a light inextensible string of length l is projected horizontally with speed (gl) . Then the speed of the particle and the inclination of the string to the vertical at the instant of the motion when the tension in the string equal the weight of the particle-

A particle is projected vertically upwards from an elevated point. Magnitude of the velocity at height h above the starting point is found to be half of the magnitude of velocity at h height below the starting point. If maximum height reached by the particle above its initial point is mh/n then find (m-n).

A particle is projected under gravity at an angle of projection 45^(@) with horizontal. Its horizontal range is 36m . Find maximum Height attained by particle.

A particle of mass 'm' is projected from ground with velocity u making angle theta with the vertical. The de-Broglie wave length of the particle at the highest point is:

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.