Physics, asked by GovindaMalhi, 1 year ago

When a horse pulls a cart, the action is on the: (a)cart (b)earth(c)horse (d)earth and cart

Answers

Answered by tanvi29lm
2

Answer:

When the horse pulls a cart, the action is done on the earth, that is an option (b),

Explanation:

the above question can be solved by Newton's third law of motion.

According to Newton's s third law of motion, every action has an equal and opposite reaction.

In the question given above, the horse applies a force on the earth, which is backward action.

As a result of this backward force, the earth exerts an equal and opposite force on the horse because of which the horse moves forward.

Walking and recoil of the gun are some of the other examples of Newton's third law of motion.

Answered by aryansuts01
0

Answer:

Concept:

The cornerstone of classical physics is Newton's laws of motion, which are three claims that define the relationship here between forces acting on the body and its motion. They were first stated by Isaac Newton, an English physicist and mathematician. Third law of motion states that when one body exerts a force on another, the first users obtain a force of equal magnitude in the opposite direction.

Given:

The action is on the: When a horse pulls the cart, the action is always on the:

(a)cart

(b)earth

(c)horse

(d)earth and cart

Find:

Find the correct answer for the given question

Answer:

The correct answer is option (b)earth

When a horse pulls a cart, the action is on the Earth because the cart pushes the earth's surface backwards. As a result, the action is on the

Earth and the horse's reaction is on the horse.

The ground is pushed backwards by the horse. A response force is imposed on the horse in the forward direction, according to Newton's third law of motion. When the horse walks forward (with the cart attached to it), it produces a force on the Earth in the backward direction. The Earth applies an equal force in the opposite direction (ahead direction) to the horse. The horse and cart are propelled ahead by this force. As a result, the cart advances.

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