Two bodies are projected with velocities `v_(1) and v_(2)` at a same instant of time as shown in the figure . For what value of `(v_(1))/(v_(2))` , the bodies will collide ?

If two bodies are in motion with velocity vec(v)_(1) and vec(v)_(2) :

Two projectiles are projected with velocity v_(A), v_(B) at angles theta_(A) (from horizontal) and theta_(B) (from vertical) as shown in the figure below, such that v_(A) gt v_(B) but having same horizontal component of velocity. Which of the following is correct ?

Two bodies A and B are projected from the same place in same vertical plane with velocities v_(1) and v_(2) .Form a long inclined plane as shown Find the ratio of their times of flight.

Two particles of equal mass 'm' are projected from the ground with speed v_(1) and v_(2) at angles theta_(1) and theta_(2) at the same times as shown in figure. The centre of mass of the two particles.

Two particles are projected at the same instant with speeds v_(1) and v_(2) making angles alpha and beta with the horizontal as shown in the figure. Nelecting air resistance, the trajectory of the mass center the two particles

Two particles of equal mass in are projected from the ground with speeds v_(1) and v_(2) at angles theta_(1) , and theta_(2) as shown in the figure. Given theta_(2)gttheta_(1) and v_(1)costheta_(1)=v_(2)costheta_(2) Which statement/s is/are correct?

A rigid ingot is pressed between two parallel guides moving in horizontal directions at opposite velocities v_(1) and v_(2) . At a certain instant of time, the points of contact between the ingot and the guides lie on a straight line perpendicular to the directions of velocities v_(1) and v_(2) (Fig). What points of teh ingot have velocities equal in magnitude to v_(1) and v_(2) at this instant ?

Two capacitors C_(1) and C_(2) are connected in a circuit as shown in figure. The potential difference (V_(A) - V_(B)) is

A ball A is falling vertically downwards with velocity v_(1) . It strikes elastically with a wedge moving horizontally with velocity v_(2) as shown in figure . What must be the ratio (v_(1))/(v_(2)) , so that the ball bounces back in vertically upward direction relative to the wedge