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You and a friend are pulling on a rope in opposite directions as hard as you can? What is the “equal and opposite force” to the force of your hand pulling on the rope described by Newtons Third Law?
A. The force of your arm pulling back on your hand.
B. The force of the rope pulling your friend’s hand.
C. The force of your friend pulling on the rope in the opposite direction.
D. The force of the rope pulling on your hand in the opposite direction.
E. The force of friction between the ground and your shoes.

You and a friend are pulling on a rope in opposite directions as hard as you can What is the equal and opposite force to the force of your hand pulling on the r class=

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Answer:its D the force of the rope pulling on your hand in the opposite  direction

The “equal and opposite force” to the force of your hand pulling on the rope described by Newtons Third Law: The force of the rope pulling on your hand in the opposite  direction.

The correct option is D.

What is frame of reference?

An inertial frame of reference is a frame of reference in which the Newton's laws are valid. In this frame of reference, the objects do not accelerate without any external force. All frames of reference moving with constant velocity or at rest.

The Newton's third law of motion states that every action has an equal and opposite reaction.

You and a friend are pulling on a rope in opposite directions as hard as you can.

So, the force of the rope pulling on your hand in the opposite direction.

Thus, the correct option is D.

Learn more about frame of reference.

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