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At high altitude, a body at rest, explodes into two equal fragments with one fragment receiving horizontal velocity of 10 m/s. Time taken by the two radius vectors connecting point of explosion of fragments to make `90^(@)` is

At high altitude , a body explodes at rest into two equal fragments with one fragment receiving horizontal velocity of 10 m//s . Time taken by the two radius vectors connecting of explosion to fragments to make 90^(@) is

At a certain height a body at rest explodes into two equal fragments with one fragment receiving a horizontal velocity of 10ms^(-1) The time interval after the explosion for which the velocity vectors of the two fragments become perpendicular to each other is (g=10ms^(-2))

At a certain height a shell at rest explodes into two equal fragments one of the fragments receives a horizontal velocity u .The time interval after which the velocity vectors will be inclined at 120^(@) to each other is

A bomb explodes in air in two equal fragments. If one of the fragments is moving vertically upwards with velocity v_(0) , then the other fragment is moving-

A shell of mass 20 kg at rest explodes into two fragments whose masses are in the ratio 2 : 3 . The smaller fragment moves with a velocity of 6 m//s . The kinetic energy of the larger fragment is

A shell is fixed 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 into two equal fragments. One of the fragments moves along the negative x-direction with a speed of 50 m//s . What is the speed of the other fragment at the time of explosion.

A bomb at rest explodes into three fragments of equal massses Two fragments fly off at right angles to each other with velocities of 9m//s and 12//s Calculate the speed of the third fragment .

A bomb is rest at the summit of a cliff breaks into two equal fragments.One of the fragments attains a horizontal velocity of 20sqrt3 ms^(-1) .The horizontal distance between the two fragments, when their displacement vectors is inclined at 60^(@) relative to each other is (g=10ms^(-2))

A bomb of mass 6kg initially at rest explodes in to three identical fragments On of the fragments moves with a velocity of 10sqrt3 hatim//s another frament moves with a velocity of 10 hatj m//s then the thired fragment moves with velocity of magnitude .