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Suppose a 62-kg boy and a 46-kg girl use a massless rope in a tug-of-war on an icy, resistance-free surface. If the acceleration of the girl toward the boy is 3.0 m/s2, find the magnitude of the acceleration
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Suppose a 62-kg boy and a 46-kg girl use a massless rope in a tug-of-war on an icy, resistance-free surface. If the acceleration of the girl toward the boy is 3.0 m/s2, find the magnitude of the acceleration of the boy toward the girl.

User Aisin
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1 Answer

1 vote

Answer:


a=2.22\ m/s^2

Step-by-step explanation:

Mass of the boy, m = 62 kg

Mass of the girl, m' = 46 kg

The acceleration of the girl toward the boy is,
a'=3\ m/s^2

The force acting on the girl is given by :


F'=m'* a'


F=46\ kg* 3\ m/s^2

F' = 138 N

Let a is the magnitude of the acceleration of the boy toward the girl. Again using the second law of motion to find it as :


a=(F')/(m)


a=(138\ N)/(62\ kg)


a=2.22\ m/s^2

So, the the acceleration of the boy toward the girl is
2.22\ m/s^2.

User Alberto Bacchelli
by
5.7k points
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