Two particles A and B are projected simultaneously in the direction shown in the figure with velocities `V_(A)=20m//s` and `V_(B)=10m//s` respectively. If they collide in air after 1/2 sec. then

Two particles A and B are projected simultaneously in the directins shown in figure with velocities v_(A) = 20 m//s and v_(B) = 10 m//s respectively. They collide in air after 1/2 s. Find (a) the angle theta (b) the distance x. .

Two particles A and B are projected simultaneously in the directins shown in figure with velocities v_(A) = 20 m//s and v_(B) = 10 m//s respectively. They collide in air after 1/2 s. Find (a) the angle theta (b) the distance x. .

Two particles A and B are projected simultaneously in the directins shown in figure with velocities v_(A) = 20 m//s and v_(B) = 10 m//s respectively. They collide in air after 1/2 s. Find (a) the angle theta (b) the distance x.

Two particles A and B are projected simultaneously in horizontal direction with speed 50 m//s and 100m//s respectively . If t_(A) and t_(B) are the time taken by the projectiles to hit the ground by the particles A and B respectively, then

Two particles A and B of masses 1kg and 2kg respectively are projected in the directions shown in figure with speeds u_A=200m//s and u_B=50m//s . Initially they were 90m apart. They collide in mid air and stick with each other. Find the maximum height attained by the centre of mass of the particles. Assume acceleration due to gravity to be constant. (g=10m//s^2)

Two particles A and B of masses 1kg and 2kg respectively are projected in the directions shown in figure with speeds u_A=200m//s and u_B=50m//s . Initially they were 90m apart. They collide in mid air and stick with each other. Find the maximum height attained by the centre of mass of the particles. Assume acceleration due to gravity to be constant. (g=10m//s^2)

Two particles A and B start at O travel in opposite directions along the circular path at constant speed v_(A)=0.7 m//s and v_(B)=1.5 m//s respectively. Determine the time when they collide and the magnitude of the acceleration of B just before this happening. ("radius"=5m)

Two particles A and B start at O travel in opposite directions along the circular path at constant speed v_(A)=0.7 m//s and v_(B)=1.5 m//s respectively. Determine the time when they collide and the magnitude of the acceleration of B just before this happening. ("radius"=5m)

Two particles A and B start at O travel in opposite directions along the circular path at constant speed v_(A)=0.7 m//s and v_(B)=1.5 m//s respectively. Determine the time when they collide and the magnitude of the acceleration of B just before this happening. ("radius"=5m)