We will be glad to critique your thinking, but don't have time to do all your work for you. The average speed (25 m/s in this case) tells you that the final velocity 50 m/s. Divide that by the elapsed time for the aceleration.
I am sure you know the formula for the time to fall Y vertically.
Y = (1/2)g t^2
Use it. You may have to convert meters to cm.
a ball is released from rest and rolls down in an inclined plane, requiring 4 sec. to cover a certain distance of 100m. a) what is the acceleration?
b) how many cm would it have fallen vertically in the same time?
4 answers
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a) a=2(distance)/time^2
= 2(100cm)/16s^2
=12.5 cm/s^2
b) s= (gt^2)/2
since g = 9.8 m/s^2
= (9.8 x 16)/2
=78.4 m
or 7840 cm
= 2(100cm)/16s^2
=12.5 cm/s^2
b) s= (gt^2)/2
since g = 9.8 m/s^2
= (9.8 x 16)/2
=78.4 m
or 7840 cm
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