[" In the figure shown,blocks A and B move with velocities "v_(1)" and "v_(2)" along "],[" horizontal direction.Find the ratio of "(v_(1))/(v_(2))" ."]

In fig., blocks A and B move with velocities v_(1) and v_(2) along horizontal direction. Find the ratio of v_(1)//v_(2)

In fig., blocks A and B move with velocities v_(1) and v_(2) along horizontal direction. Find the ratio of v_(1)//v_(2)

In the arrangement shown, blocks A and B connected with an inextensible string move with velocities v_(1) and v_(2) along horizontal direction. The ratio of v_(2)/v_(1) is:

Two particles move in a uniform gravitational field with an acceleration g. At the intial moment the particles were located at one point and moved with velocity v_(1)=1" "ms^(-1)" and "v_(2)=4" "ms^(-1) horizontally in opposite directions. Find the time interval after their velocity vectors become mutually perpendicular

Two particles move in a uniform gravitational field with an acceleration g. At the intial moment the particles were located at one point and moved with velocity v_(1)=1" "ms^(-1)" and "v_(2)=4" "ms^(-1) horizontally in opposite directions. Find the time interval after their velocity vectors become mutually perpendicular

Two particles move in a uniform gravitational field with an acceleration g. At the intial moment the particles were located at one point and moved with velocity v_(1)=1" "ms^(-1)" and "v_(2)=4" "ms^(-1) horizontally in opposite directions. Find the time interval after their velocity vectors become mutually perpendicular

Three block 1, 2 and 3 are arranged as shown in the figure. The velocities of the blockes v_(1) , v_(2) and v_(3) are shown in the figure. What is the relationship between v_(1) , v_(2) and v_(3) ?

In the figure block moves downwards with velocity v_(1) , the wedge rightwards with velocity v_(2) . The correct relation between v_(1) and v_(2) is

In the figure block moves downwards with velocity v_(1) , the wedge rightwards with velocity v_(2) . The correct relation between v_(1) and v_(2) is

Two masses m_(A) and m_(B) moving with velocities v_(A) and v_(B) in opposite direction collide elastically after that the masses m_(A) and m_(B) move with velocity v_(B) and v_(A) respectively. The ratio (m_(A)//m_(B)) is