An object initially at rest explodes into three equal fragments `A, B` and `C`.The momentum of `A` is `phati` and that of `B` is `sqrt(3)phatj`
where `p` is `a +ve` number. The momentum of `C` will be

A bomb initially at rest explodes by it self into three equal mass fragments. The velocities of two fragments are ( 3 hati + 2 hatj ) m/s and (–hati – 4 hatj ) m/s. The velocity of the third fragment is (in m/s)-

A bomb at rest explodes into three parts of the same mass the momenta of the two parts are - 2 p hati and p hat j The momentum of the third part will have a magnitude of :

A bomb, initially at rest, explodes into several pieces. (a) Is linear momentum of the system conserved? (b) Is kinetic energy of the system conserved? Explain.

For any three unequal numbers a,b and c (a-b)/(b-c) equals to

A body of mass 1 kg initially at rest, explodes and breaks into three fragments of masses in the ratio 1 : 1 : 3 . The two pieces of equal mass fly off perpendicular to each other with a speed of 15 m s^(-1) each. What is the velocity of the heavier fragment?

If three positive unequal numbers a, b, c are in H.P., then

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.

Three particles A, B and C are moving as shown in figure. Calculate the angular momentum of the third particle C so that the angular momentum of system about point O becomes zero

A+B rarr C+D Initially moles of A and B are equal. At equilibrium, moles of C are three times of A. The equilibrium constant of the reaction will be

A pulse of light of duration 100ns is absorbed completely by a small object initially at rest power of the pulse is 30 mW and the speed of light is 3 xx 10^(8) ms^(-1) The final momentum of the object is