a stone is thrown vertically upwards with an initial velocity of 40m/s. find the max height reached by the stone. What are the net displacement and the total distance covered by the stone
Answers
Answered by
8
net displacement=0 meter
maximum height=u²/2g
=40²/2*10. let g=10m/s²
=80meter
distance=160 meter
{upward going+download falling}
hope helps u.
maximum height=u²/2g
=40²/2*10. let g=10m/s²
=80meter
distance=160 meter
{upward going+download falling}
hope helps u.
Answered by
7
_/\_Hello mate__here is your answer--
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u = 40 m/s
v = 0 m/s
s = Height of the stone
g = −10 ms^−2 ( upward direction)
Let h be the maximum height attained by the stone.
Using equation of motion under gravity
v^2 − u^2 = 2gs
⇒0^2 − 40^2 = 2(−10)ℎ
⇒ ℎ =40×40/ 20 = 80 m
Therefore, total distance covered by the stone during its upward and downward journey
= 80 + 80 = 160 m
Net displacement during its upward and downward journey
= 80 + (−80) = 0
I hope, this will help you.☺
Thank you______❤
_______________________❤
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