If the equation of motion of an object is `v^(2)` = 2as, the initial velocity is ….

Write an equation of motion to find the distance travelled when initial velocity, time, and acceleration are given.

A particle moves along a straight line according to the equation s = 8 cos 2t + 4sint. The initial velocity is

Two objects are located at height 10 m above the ground. At some point of time, the objects are thrown with initial velocity 2sqrt(2) m/s at an angle 45^(@) and 135^(@) with the positive X-axis, respectively. Assuming g = 10 m/s^(2) , the velocity vectors will be perpendicular to each other at time is equal to

A body is projected horizontally from the top of a tower. When the body strikes the ground its velocity is V and the direction of motion makes 30° with the horizontal. The velocity of projection is

A small object is thrown at an angle 45^@ to the horizontal with an initial velocity v_0 The velocity is averaged for first sqrt2 s and the magnitude of average velocity comes out to be same as that of initial velocity, i.e. |v_0| . The magnitude |v_0| will be take, g = 10 m//s^2 )

A particle moving with constant acceleration of 2m//s^(2) due west has an initial velocity of 9m/s due east. Find the distance covered in the fifth second of its motion.