Home
Class 11
PHYSICS
Two particles are thrown simultaneously ...

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

Promotional Banner

Similar Questions

Explore conceptually related problems

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 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 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 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 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))