An object is projected vertically upwards. It explodes at the topmost point of its trajectory into three identical fragments. One of the fragments comes straight down in time `t_(1)` while the other two lands at a time `t_(2)` after explosion. Height at which the explosion occured is equal to

A rocket is projected vertically upwords. It explodes at the/ topmost point of its trajectory into three identical fragments . One of the fragments comes straight down in time t 1 while the1 other two land at a time t_(2) after explosion. Find the height at which the explosion ocurred in terms of t_(1) and t_(2) ?

A particle is projected vertically upwards. Prove that it will be at three-fourth of its greatest height at times which are in the ratio 1: 3 .

A particles is projected with speed u at an angle theta with horizontal particle explodes at highest point of its path into two equal fragments one of fragment moving up straighht with a speed u . The difference in time in which the particles fall on ground. (Assume it explodes at height H )

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

Assertion: A rocket launched vertically upward explodes at the highest point it reaches. the explosions produces three fragments with non-zero initial velocity. Then, the initial velocity vectors of all the three fragments are in one plane. Reason For sum of momentum of three particles, all the three momentum vectors must be coplanar.

A projectile of mass 3m explodes at highest point of its path. It breaks into three equalparts. One part retraces its path, the second one comes to rest. The range of the projectile was 100 m if no explosion would have taken place. The distance of the third part from the point of projection when it finally lands on the ground is -

A shell is fired from a cannon with a speed of 100 m//s at an angle 30^(@) with the vertical ( y -direction). At the highest point of its trajectory, the shell explodes into two fragments of masses in the ratio 1:2 . The lighter fragment moves vertically upwards with an initial speed of 200 m//s . What is the speed of the heavier fragment at the time of explosion?

A body is projected vertically upwatds at time t=0 and is it seen at a height H at time t_1 and t_2 second during its flight. The maximum height attainet is (g is acceleration due to garavity).

A particle is projected with velocity 'u' makes an angle theta w.r.t. horizontal. Now it breaks in two identical parts at highest point of trajectory. If one part is retrace its path, then velocity of other part is -

There are two identical particles A and B. One is projected vertically upward with speed sqrt(2gh) from ground and other is dropped from height h along the same vertical line. Collision between them is perfectly inelastic. Find time taken by them to reach the ground after collision in terms of sqrt(h/g) .