A bomb is projected with speed 10 m/s at an angle 30 with the horizontal. In the mid-air bomb explodes in different fragments and they all move in different directions. At the time when all fragments reach at ground, the displacement of the center of mass of bomb from initial point will be `(g = 10 m/s^2)`

If a bomb is thrown at a certain angle with the horizontal and after exploding on the way the different fragments move in different directions then the centre of mass

An object is project with a speed 10ms^(-1) at an angle of 30^@ with the horizontal. It breaks into n equal fragments during its motion . One fragment strikes the ground at a distance of sqrt(3)m from the point of projection. The centre of mass of the remaining fragments strikes the ground at a distance of 7sqrt(3)m from the point of projection . If all fragments strike the ground at the same time , Find the value of n.

A particle is projected with velocity of 10m/s at an angle of 15° with horizontal.The horizontal range will be (g = 10m/s^2)

A bomb of mass m is projected from the ground with speed v at angle theta with the horizontal. At the maximum height from the ground it explodes into two fragments of equal mass. If one fragment comes to rest immediately after explosion, then the horizontal range of centre of mass is

An object is projected from ground with speed 20 m/s at angle 30^(@) with horizontal. Its centripetal acceleration one second after the projection is [ Take g = 10 m/ s^(2) ]

A particle is projected with a velocity of 10sqrt2 m//s at an angle of 45^(@) with the horizontal. Find the interval between the moments when speed is sqrt125 m//s(g=10m//s^(2))

A particle is projected at an angle 60^(@) with the horizontal with a speed 10m//s . Then, latus rectum is (Take g=10m//s^(2) )

A shell is fired from a cannon with a speed of 100 m//s at an angle 60^(@) with the horizontal (positive x -direction). At the highest point of its trajectory, the shell explodes in to two equal fragments. One of the fragments moves is the speed of the other fragment at the time of explosion.

A particle is projected from the ground with an initial speed of 5 m s^(-1) at an angle of projection 60° with horizontal. The average velocity of the particle between its time of projection and the time it reaches highest point of trajectory