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A stone thrown vertically upwards with initial velocity' u' reaches a height h before coming down . Show that the time taken to go up is same as the time taken to come back
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A stone thrown vertically upwards with initial velocity' u' reaches a ...
Let us consider an object which is projected vertically upwards with initial velocity  u which reaches a maximum height h.
Acceleration due to gravity=-g
Equation of Motion for a body projected thrown upwards :
V=u-gt----------(1)
h=ut-1/2gt^2 -----------(2)
v^2-u^2=-2gh --------(3)

Equations of motion for freely falling body :
for free fall : 
Initial velocity=u=0
g=g
V=gt----------(4)
h=1/2gt^2-------(5)
v^2=2gh------(6)
Time of Ascent is the time taken by body thrown up to reach maximum height h 
At maximum height , V=0

Equation (1) turns to u=gt1
t1=u/g  ----------(7)
Maximm height h=u^2/2g ----------(8)

Time of descent : After reaching maximum height , the body begins to travel downward like free fall
so equation (5) h=1/2gt₂^2
t₂^2=2h/g
t₂=√2h/g
but from equation (9)
t₂=√2xu^2/2g^2
t₂=u/g -------equation (10)
∴t₁=t₂
The time ascent is equal to time of descent in case of bodies moving under gravity.

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A stone thrown vertically upwards with initial velocity' u' reaches a height h before coming down . Show that the time taken to go up is same as the time taken to come back
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