Gravity tend to decrease as an object's acceleration

In summary, the force of gravity does not decrease as an object's acceleration increases on a plane. The force of gravity is only affected by the masses of the objects and the distance between them. The mass of an object may increase with velocity, but this effect is negligible at slower speeds. Other forces, such as lift and drag, may arise depending on velocity and atmospheric conditions, but these do not affect the force of gravity. If the surface is spherical, orbital constraints must be taken into account.
  • #1
pitchharmonics
29
0
Does the force of gravity tend to decrease as an object's acceleration increases on a plane?
 
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  • #2
I don't understand the question.
 
  • #3
a box is sitting on the ground, and the ground does not increase nor decrease in elevation, nor does the surface go from rocky to muddy. it's just a regular surface that can be used to push boxes.

if you increase the acceleration of the box moving across the surface, does the force of gravity decrease? or is there a threshold that acceleration must surpass for the force of gravity to decrease and cause flight?
 
  • #4
Gravity won't be changing simply by accelerating an object. To get the box to take off requires some other force to act on it.
 
  • #5
Nothing will happen. The force of gravity will be constant until you start getting into relativisitic velocities. I'm assuming a universe with nothing in it but an infinite massive plane and your box. The force of gravity will just be constant. You can push the box as fast as you want up to light speed of course, and its mass will increase along with this speed. This will increase the gravitational force between the box and the plane. There is no upward force. Maybe you're thinking about aerodynamic lift?
 
  • #6
If you accelerate the box beyond the velocity required for circular orbit at the Earth's surface, than it will rise. And as it rises, gravity will decrease.

But can you push a box that hard?
 
  • #7
To sum up:
- The force of gravity does not depend on acceleration.
- The force of gravity does depend (only) on the objects' masses and the distance between them.
- The mass of an object depends on its velocity according to relativity (higher velocity => higher mass => more gravity). This effect is negligible at velocities much smaller than the speed of light.
- Given an atmosphere, additional forces such as lift and drag may araise, as a function of velocity, due to aerodynamics. Of these, lift counteracts the gravitational pull.
- If your "plane" is the surface of a planet (e.g. earth), it is not really a plane, but is spherical. In that case you need to take orbital constraints into account.
 

Related to Gravity tend to decrease as an object's acceleration

What is gravity?

Gravity is a natural phenomenon by which all objects with mass are brought towards one another. It is the force that governs the motion of objects in the universe.

How does gravity tend to decrease?

Gravity tends to decrease as an object's acceleration because of the inverse relationship between the two. As an object's acceleration increases, the force of gravity acting on it decreases.

Why does an object's acceleration affect gravity?

An object's acceleration affects gravity because the greater the acceleration, the greater the distance between the objects and the weaker the gravitational pull between them.

What is the relationship between gravity and acceleration?

The relationship between gravity and acceleration is inverse. This means that as one increases, the other decreases. This is known as the inverse square law of gravity.

How does the mass of an object affect the gravity-acceleration relationship?

The mass of an object does not directly affect the relationship between gravity and acceleration. However, the mass of an object does affect the strength of its gravitational pull on other objects, which can indirectly impact the acceleration of those objects.

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