In the above problem, the time taken by the displacement vectors of the two fragments to become perpendicular to each other is

From a tower of height 40 m , two bodies are simultaneously projected horizontally in opposite direction, with velocities 2 m s^-1 and 8 ms^-1 . respectively. The time taken for the displacement vectors of two bodies to be come perpendicular to each other is.

In the above problem, the maximum positive displacement x is

At a certain height a body at rest explodes into two equal fragments with one fragment receiving a horizontal velocity of 10ms^(-1) . The time interval after the explosion for which the velocity vectors of the two fragments become perpendicular to each other is (g=10ms^(-2))

At a certain height a body at rest explodes into two equal fragments with one fragment receiving a horizontal velocity of 10ms^−1. The time interval after the explosion for which the velocity vectors of the two fragments become perpendicular to each other is

In the above problem the displacement after 2 s is:

From a tower of height 40 m , two bodies are simultaneously projected horizontally in opposite direction, with velocities 2 m s^-1 and 8 ms^-1 . respectively. The time taken for the velocity vectors of two bodies to become perpendicular to each other is :

In the above problem, this horizontal distance between the two fragments when their position vectors are perpendicular to each other is

Two vectors vecP and vecQ that are perpendicular to each other if :

Show that the diagonals of a rhombus are perpendicular to each other

Show that the diagonals of a rhombus are perpendicular to each other