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When air resistance equals the pull of gravity, terminal velocity is reached. This is experienced by all falling objects if given enough time, and this is classically explained in Physics using skydivers.
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How do gravity and air resistance affect a falling body?
Well gravity would pull the body to the ground. The greater the surface area of the body the more air resistance there would be.
What happens to free-fall velocity when air resistance equals weight?
If air resistance equals the force of gravity, the object will cease to accelerate, so its velocity will remain constant.
What is all the forces added together?
Air Resistance, Gravity, Push, Pull, Drag, Friction and Up thrust
What part air resistance plays in gravity?
i think air resistance slows down the object that gravity is pulling towards it
Do the velocity of falling objects does not change?
If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.
What is the net force acting on a falling oject when it reaches it terminal velocity?
Air resistance equals the pull of gravity, so essentially zero.
When air resistance matches the pull of gravity an object hits?
Terminal Velocity
How will the upward force of air resistance compare to the downwward pull of gravity?
Assuming that you're referring to an object that is accelerating towards a massive body by means of gravitational attraction... When the force of frictional air resistance equals the opposing force of gravity, the net force on the object equals zero, and acceleration will cease. It is called terminal velocity, and the object will remain at this velocity until some new event happens.
How do gravity and air resistance affect a falling body?
Well gravity would pull the body to the ground. The greater the surface area of the body the more air resistance there would be.
What happens to free-fall velocity when air resistance equals weight?
If air resistance equals the force of gravity, the object will cease to accelerate, so its velocity will remain constant.
What acceleration does the object reach when air resistance equals the force of gravity on a falling object?
the acceleration of gravity is 9.8 m/s
What is all the forces added together?
Air Resistance, Gravity, Push, Pull, Drag, Friction and Up thrust
How is that force either a push or pull?
It is a 'pull' when you are falling, the gravity 'pulls' you down. But the Air resistance will 'push' you back up, making a force either a push or a pull
How is force either a push or a pull?
It is a 'pull' when you are falling, the gravity 'pulls' you down. But the Air resistance will 'push' you back up, making a force either a push or a pull
What happens to a falling object when the forces of air resistance equals the force of gravity?
the object will floatit shows increasing acceleration
What part air resistance plays in gravity?
i think air resistance slows down the object that gravity is pulling towards it
Do the velocity of falling objects does not change?
If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.If there is no air resistance, they will fall faster and faster.If there is air resistance, they will eventually approach a "terminal velocity", a maximum speed, at which the downward pull of Earth is counteracted by the backward pull of air resistance.
