Q.19 An object is dropped from rest at a height of 160 m and simultaneously another object is
dropped from rest at a height 100 m. What is the difference in their heights after 2 s if both
the objects drop with same accelerations? How does the difference in heights vary with
time?
pls ans if you u know don't give rubbish answers. Thanks
Answers
ANSWER:-
The acceleration due to gravity is -9.8m/s2.
Make use of the equations of motions:
SUVAT-- s-displacement, u-initial velocity, v-final velocity,a- acceleration, t-time v=u + at , v2 = u2 + 2as ,s=ut+1/2at2
The values for the first object:
t=2 seconds
a=9.8 m/s2
u= 0m/s
s=???
s= ut +1/2at2 ut=0x2=0 s= 1/2 x 9.8 x 2^2
s= 9.8x2= 19.6
Their height of first object after 2 seconds= 150-19.6 = 130.4m
Values for the second object:
a=9.8m/s2
t=2 secs
u=0m/s
s=???
s= ut + 1/2at^2
s=1/2 x 9.8 x 2^2 = 9.8 x 2= 19.6
therefore height of second object after 2 seconds= 100-19.6
=80.4m
a)Therefore difference in height after 2 seconds= 130.4- 80.4 = 50meters
b)How does height vary with time.
When you calculate the height after the next 2 seconds, the difference is still 50m.
Therefore the difference in height is 50 meters after every 2 seconds
=50m/2seconds 25m/s
That means a difference in height at the rate of 25 meters per second.
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