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A car starts from rest and moves down in a high hill with a constant acceleration. It travels a distance of 300 m in 10s. Find its acceleration. Find the force acting on it if its mass is 1500 kg
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A car starts from rest and moves down in a high hill with a constant acceleration. It travels a distance

of 300 m in 10s. Find its acceleration. Find the force acting on it if its mass is 1500 kg

User Dhawalk
by
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2 Answers

4 votes
9Kn is the answer because 1500 is kg
User Acupofjose
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4.1k points
2 votes

The car starts at rest and accelerates uniformly with magnitude
a, so the distance
x it travels in time
t is


x = \frac12 at^2

Solve for
a.


300\,\mathrm m = \frac12 a (10\,\mathrm s)^2 \implies a = (600\,\rm m)/(100\,\mathrm s^2) = \boxed{6(\rm m)/(\mathrm s^2)}

By Newton's second law, the magnitude of force
F acting on the object, if its mass
m is 1500 kg, is


F = ma = (1500\,\mathrm{kg})\left(6(\rm m)/(\mathrm s^2)\right) = \boxed{9000\,\mathrm N} = 9\,\mathrm{kN}

User Sreekanth P
by
5.0k points
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