What is the definition of "free fall"?

In summary, the definition of "free fall" is when an object is only being acted upon by gravity. Whether gravity is singular or plural does not matter, as long as it is the only force being exerted. The force of gravity can be calculated based on the mass and distance between the falling object and other bodies, but the main influence comes from the Earth. Even if other bodies are exerting insignificant forces, they still originate from gravity and therefore contribute to the free fall.
  • #1
Viktor Haugland
3
0
1.
"An object is in "free fall" when the only force acting upon it is gravity".

2.
Is gravity in this case singular or plural?
Is the acting gravity the resultant force of all bodies in the universe?


3.
In theory, my own bodys gravitational force is acting on the object and thus it's not acually a free fall.
My teacher just says "no, read the definition of "free fall" in the textbook".
But it's in swedish and gravity is written like "the gravity", like it's a single force.
 
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  • #2
You're chasing your tail here. The force due to gravity is inversely proportional to the distance between the body falling and any other bodies nearby.

F = Gm1m2 / r2

Now, as an exercise, you can calculate the force of gravity between a falling mass of say, 1 kg, and you, and the earth, and the moon, and the sun, and whatever else you can think of. If you rank all of these various forces by magnitude, I think you'll see that the Earth exerts the major influence on this falling body, and the forces exerted by all of these other bodies are insignificant.
 
  • #3
It would seem that that definition of freefall does indeed imply that gravity is the attractive force between all bodies, not just a body and the earth.
 
  • #4
Look at it this way: gravity is singular. If the only force acting is gravity, that's free fall. Now the cause of that gravity force can be one single body or a whole lot of them, but that doesn't matter.

Example: some point between Earth and moon. Closer to the moon: free fall towards the moon. Closer to earth: free fall towards the earth. And there is a point where you're not accelerating wrt either of them. All three can be considered free fall (in the last case it'll just take a very, very long time before the fall ends :smile:.

Likewise, in SK's case, all the little forces may be insignificant, but that is not the point: they all originate from gravity, so it's free fall.
 
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Likes AlephNumbers
  • #5
BvU said:
Likewise, in SK's case, all the little forces may be insignificant, but that is not the point: they all originate from gravity, so it's free fall.
This was exactly the kind of answer i was looking for. Thank you!
 

Related to What is the definition of "free fall"?

1. What is the definition of "free fall"?

"Free fall" is a term used in physics to describe the motion of an object falling freely under the influence of gravity. This means that the only force acting on the object is gravity, and there is no resistance from air or other factors.

2. How is free fall different from normal falling?

In free fall, the object is not experiencing any resistance or acceleration from outside forces. In normal falling, there may be other forces at play, such as air resistance or friction, that affect the object's motion.

3. Does an object have to be falling straight down to be considered in free fall?

No, an object can be in free fall even if it is not falling straight down. As long as the only force acting on the object is gravity, it is considered to be in free fall.

4. What is the acceleration of an object in free fall?

The acceleration of an object in free fall is constant and is equal to the acceleration due to gravity, which is approximately 9.8 meters per second squared (m/s²) on Earth.

5. Can an object be in free fall if it is not falling at a constant speed?

Yes, an object can be in free fall even if it is not falling at a constant speed. As long as the object is only experiencing the force of gravity, it is considered to be in free fall, regardless of its speed or velocity.

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