Two cyclists start from the junction of two perpendicular roads, their velocities being 3u m/min and 4u m/min, respectively. Find the rate at which the two cyclists separate.

Two cyclists start from the junction of two perpendicular roads, there velocities being 3um//m in and 4um//m in , respectively. Find the rate at which the two cyclists separate.

Two cyclists start from the junction of two perpendicular roads, there velocities being 3um//m in and 4um//m in , respectively. Find the rate at which the two cyclists separate.

Two men Pa n dQ start with velocity u at the same time from the junction of two roads inclined at 45^0 to each other. If they travel by different roads, find the rate at which they are being separated.

Two men Pa n dQ start with velocity u at the same time from the junction of two roads inclined at 45^0 to each other. If they travel by different roads, find the rate at which they are being separated.

Two men Pa n dQ start with velocity u at the same time from the junction of two roads inclined at 45^0 to each other. If they travel by different roads, find the rate at which they are being separated.

Two men A and B start with velocities v at the same time from the junction of two roads inclined at 45^@ to each other.If they travel by different roads,find the rate at which they are being separated.

A body of mass M at rest explodes into three pieces, two of which of mass M//4 each are thrown off in perpendicular directions eith velocities of 3m//s and 4m//s respectively. The third piece will be thrown off with a velocity of

The distance of the two planets from the Sun are 10^(13)m and 10^(12) m , respectively. Find the ratio of time periods of the two planets.

A situation is shown in which two objects A and B start their motion from same point in same direction. The graph of their velocities against time is drawn. u_A and u_B are the initial velocities of A and B respectively. T is the time at which their velocities become equal after start of motion. You cannot use the data of one question while solving another question of the same set. So all the questions are independent of each other. 7. After 10 s of the start of motion of both objects A and B, find the value of velocity of A if u_A = 6 ms^-1 , u_B = 12 ms^-1 and at T velocity of A is 8 ms^-1 and T = 4s

A situation is shown in which two objects A and B start their motion from same point in same direction. The graph of their velocities against time is drawn. u_A and u_B are the initial velocities of A and B respectively. T is the time at which their velocities become equal after start of motion. You cannot use the data of one question while solving another question of the same set. So all the questions are independent of each other. 6. Let v_A and v_B be the velocities of the particles A and B respectively at the moment A and B meet after start of the motion. If u_A = 5 ms^-1 and u_B = 15 ms^-1, then the magnitude of the difference of velocities v_A and v_B is