A body projected upwards from the top of a builing is an example of ______

A body projected vertically upward from the top of a tower reaches the ground in itme t_(1). If it is projected vertically downwards from the same position with the same velocity , it reaches the ground in time t_(2) . If a body is released from rest and from the same position then what will be the time (t) required by body to reach the ground?

A body projected vertically upwards from A, the top of a tower, reaches the ground in t_1 seconds.If it is projected vertically downwards from A with the same velocity, it reaches the ground in t_2 seconds.If it falls freely from rest at A, in what time does it reach the ground ?

A body is projected vertically upwards from the surface of a planet of radius R with a velocity equal to hall the escape velocity for that planet. The maximum height attained by the body is

A body projected vertically upwords from the top of a tower reaches the ground in t_(1) second . If it projected vertically downwards from the some top with same velocity ,it reaches the ground in t_(2) seconds . If it is just dropped from the top it reaches the ground in t second .prove that t=sqrt(t_(1)t_(2))

A ball is thrown upwards from the top of an incline with angle of projection theta with the vertical as shown. Take theta = 60^(@) and g=10 m//s^(2) . The ball lands exactly at the foot of the incline. The angle of inclination of incline alpha is:

A ball is thrown upwards from the top of an incline with angle of projection theta with the vertical as shown. Take theta = 60^(@) and g=10 m//s^(2) . The ball lands exactly at the foot of the incline. The time of flight of the ball is:

Two particles are simultaneously projected upwards from the top and bottom of a cliff of height = 20 m. If the speed of one is double that of the other and they meet after a time to 2 second, find their speed of projection.