The particle of mass 1 kg is projected with velocity `20sqrt(2)`m/s at `45^(@)` with ground . When , the particle is at highest point `(g=10 m//s^(2))`,

A particle is projected from ground with velocity 20(sqrt2) m//s at 45^@ . At what time particle is at height 15 m from ground? (g = 10 m//s^2)

A particle is projected from ground with velocity 40sqrt(2)m//s at 45^(@) . At time t=2s

A ball is thrown from the top of a 60m high tower with velocity 20sqrt(2)m//s at 45^(@) elevation.Find the radius of curvature of path at highest point. ( g=10m//s^(2) )

A particle is projected from ground with velocity 40(sqrt2) m//s at 45^@ . Find (a) velocity and (b) displacement of the particle after 2 s. (g = 10 m//s^2)

A particle of mass m is projected with velocity making an angle of 45^(@) with the horizontal When the particle lands on the level ground the magnitude of the change in its momentum will be .

A particle of mass m=1kg is projected with speed u=20sqrt(2)m//s at angle theta=45^(@) with horizontal find the torque of the weight of the particle about the point of projection when the particle is at the highest point.

A particle is projected with velocity 20sqrt(2)m//s at 45^(@) with horizontal. After 1s , find tangential and normal acceleration of the particle. Also, find radius of curvature of the trajectory at that point. (Take g=10m//s^(2))

A particle is projected from a tower of height 25 m with velocity 20sqrt(2)m//s at 45^@ . (a) Find the time when particle strikes with ground. (b) The horizontal distance from the foot of tower where it strikes. (c) Also find the velocity at the time of collision.

An electric field is acting vertically upwards . A particle of mass 1 mg and charge -1 mu C is projected with a velocity 20m//s at an angle 45^(@) with the horizontal . Its horizontal range is 10 m, then the intensity of electric field is (g= 10 m//s^(2))

A projectile of mass 3m is projected from ground with velocity 20sqrt2 m//s at 45^@ . At highest point it explodes into two pieces. One of mass 2m and the other of mass m. Both the pieces fly off horizontally in opposite directions. Mass 2m falls at a distance of 100m from point of projection. Find the distance of second mass from point of projection where it strikes the ground. (g=10m//s^2)