Questions in Motion in A Straight Line

Select	Question
	A body is released from the top of a tower of height \[h\]. It takes \[v = \frac{1}{2}b{t^2} + {v_0}\] sec to reach the ground. Where will be the ball after time \[t/2\] sec
	A mass \[m\] slips along the wall of a semispherical surface of radius \[R\]. The velocity at the bottom of the surface is
	A frictionless wire AB is fixed on a sphere of radius R. A very small spherical ball slips on this wire. The time taken by this ball to slip from A to B is
	A body is slipping from an inclined plane of height \[h\] and length \[l\]. If the angle of inclination is \[\theta \], the time taken by the body to come from the top to the bottom of this inclined plane is
	A particle is projected up with an initial velocity of \[80ft/\sec \]. The ball will be at a height of .. from the ground after
	A body falls from rest, its velocity at the end of first second is \[(g = 32ft/\sec )\]
	A stone thrown upward with a speed \[u\] from the top of the tower reaches the ground with a velocity \[3u\]. The height of the tower is
	Two stones of different masses are dropped simultaneously from the top of a building
	A body thrown with an initial speed of \[96\,ft/\sec \] reaches the ground after \[(g = 32ft/{\sec ^2})\]
	A stone is dropped from a certain height which can reach the ground in 5 second. If the stone is stopped after 3 second of its fall and then allowed to fall again, then the time taken by the stone to reach the ground for the remaining distance is