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38 votes
38 votes
A skydiver falls toward the ground at a constant velocity. Which statement best applies Newton’s laws of motion to explain the skydiver’s motion?

An upward force balances the downward force of gravity on the skydiver.
The skydiver’s inertia is zero, which no longer allows for acceleration.
An unbalanced force pulls the skydiver toward the ground.
The mass of the skydiver is so great that there is no acceleration.

User Michael Lehenbauer
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2 Answers

25 votes
25 votes

Answer: A

Explanation: yes

User Ivan Fork
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2.2k points
27 votes
27 votes

Answer:

Newton's First Law

Step-by-step explanation:

As you had already mentioned the explanation about the querry you have,

I accept the reasons you have mentioned.

Definitely an upward force will balances the downward force on the skydiver, And the unbalanced force pulls the skydiver towards ground was the Gravitational force. As there is no any other acceleration, the velocity of the skydiver towards the ground is 9.8.

The skydiver's motion can vary in different views like,

1. A person in the plane view is a parabolic path.

2. A person from the ground view is straight line path.

So, the skydiver's motion varies according to the observer view.

date: 09-10-2022

User Adam Goode
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3.2k points