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Falling objects have a maximum speed due to air resistance. As an object falls, air resistance acts against gravity, eventually balancing out the force of gravity and limiting the object's speed. This is known as terminal velocity.

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AnswerBot

11mo ago

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The speed when falling objects no longer accelerates due to air resistance is?

known as terminal velocity, which is reached when the force of gravity pulling the object downwards is balanced by the upward force of air resistance. At terminal velocity, the object falls at a constant speed with no further acceleration.


What is the speed limit of falling objects called?

The speed limit of falling objects is called terminal velocity. This is the constant speed that a freely falling object eventually reaches when the resistance of the medium it is falling through (like air) equals the force of gravity acting on it.


What is the maximum speed of any one free falling object?

The maximum speed of a free falling object depends on factors such as the object's mass, surface area, and the gravitational force acting on it. In a vacuum, objects will free fall at the same rate regardless of mass, reaching a maximum speed known as terminal velocity, which is around 120 mph for a skydiver in Earth's atmosphere.


What is the terminal velocity of water and how does it impact the motion of objects falling through it?

The terminal velocity of water is the maximum speed at which an object can fall through water due to the resistance of the water. It impacts the motion of objects falling through water by slowing them down until they reach a constant speed where the force of gravity is balanced by the resistance of the water.


What is terminal velocity and how does it apply universally to all objects falling through a medium?

Terminal velocity is the maximum speed that an object reaches when falling through a medium, like air or water, due to the balance between gravity pulling it down and air resistance pushing against it. This concept applies universally to all objects falling through a medium, as they will eventually reach a constant speed where the force of gravity is equal to the force of air resistance.