Two particles are thrown simultaneously from points A and B with velocities `u_1 = 2ms^(-1) and u_2 - 14 ms^(-1)`, respectively, as shown in figure.

Minimum separation between A and B is

Two particles are thrown simultaneously from points A and B with velocities u_1 = 2ms^(-1) and u_2 - 14 ms^(-1) , respectively, as shown in figure. The relative velocity of B as seen from A in

Two particles are thrown simultaneously from points A and B with velocities u_1 = 2ms^(-1) and u_2 = 14 ms^(-1) , respectively, as shown in figure. The direction (angle) with horizontal at which B will appear to move as seen from A is

Two particles are located on a horizontal plane at a distance 60 m . At t = 0 both the particles are simultaneously projected at angle 45^@ with velocities 2 ms^-1 and 14 m s^-1 , respectively. Find (a) Minimum separation between them during motion. (b) At what time is the separation between them minimum ? .

Two particles are simultaneously thrown from the top of two towards as shown. Their velocities are 2ms^(-1) and 14ms^(-1) . Horizontal and vertical separations between these particles are 22 m and 9 m respectively. Then the minimum separation between the particles in the process of their motion in meters is (g=10ms^(-2))

Two particles are thrown horizontally in opposite directions from the same point from a height h with velocities 4 ms^(-1) and 3 ms^(-1) . What is the separation between them when their velocities are perpendicular to each other?

Two particles start moving simultaneously from points (0, 0) and (1, 0) respectively in the OXY plane with uniform velocities v_(1) and v_(2) as shown in the figure. It is found that they collide. Then

The coefficient of friction between the two blocks shown in the figure is mu = 0.4 and between the lower block and the ground is zero. The blocks are given velocities of 2 ms^(-1) and 8 ms^(-1) respectively in the direction shown in the figure. In how much time (in seconds) the slipping between the blocks will stops ?

Two trains are moving with velocities v_1 = 10 ms^-1 and v_2 = 20 ms^-1 on the same track in opposite directions. After the application of brakes if their retarding rates are a_1 = 2 ms^-2 and a_2 = 1 ms^-2 respectively, then the minimum distance of separation between the trains to avoid collision is

Two particles are projected simultaneously from two points O and O' such that 10 m is the horizontal and 5 m is the vertical distance between them as shown in the figure. They are projected at the same inclination 60^@ to the horizontal with the same velocit 10 ms^(-1) . The time after which their separation becomes minimum is

A particle is projected from an inclined plane OP_1 from A with velocity v_1 = 8ms^(-1) at an angle 60^@ with horizontal. An another particle is projected at the same instant from B with velocity v_2 = 16 ms^(-1) and perpendicular to the plane OP_2 as shown in figure. After time 10(sqrt3) s there separation was minimum and found to be 70m. Then find distance AB.