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What else can I help you with?
What is the terminal velocity for iron?
The terminal velocity for iron depends on its shape, size, and the medium it is falling through. For a small iron object falling through air, the terminal velocity is typically around 20-40 meters per second. However, in a vacuum, the terminal velocity would be much higher and dependent on the specific conditions.
How can you demonstrate terminal velocity?
You can demonstrate terminal velocity by dropping an object in a vacuum chamber. As the object falls, it will eventually reach a speed where the air resistance pushing upward equals the force of gravity pulling downward, resulting in a constant terminal velocity. This can be visually observed as the object maintains a steady speed while falling.
Why can a object falling in a vacuum never reach terminal velocity?
Terminal velocity is the velocity where the force of gravity balances the drag of the air stream flow past the object. At terminal velocity, the object's acceleration due to gravity becomes zero, and the object begins to fall at a constant velocity. In a vacuum, however, there is no air - and thus no drag- so the object continues to accelerate.
What is terminal velocity from a 16 foot fall?
The terminal velocity from a 16 foot fall would depend on various factors such as air resistance and the mass of the falling object. In a vacuum, the object would accelerate at 9.8 m/s^2 until it hits the ground. However, in reality, terminal velocity is typically reached before the fall distance, usually around 120 mph for a human-sized object.
What is the hypothesis of how does air resistance affect the velocity of falling objects?
The object opposes the air and while falling of the object the initial velocity will become zero , and the final velocity will have some value's this is how air will resist the velocity of falling object ...........
Why can't a object falling in a vacuum ever reach terminal velocity?
There is no drag in a vacuum to act against the acceleration.
The greatest velocity a falling object reaches?
The greatest velocity that a falling object can achieve is termed, terminal velocity. The equation for terminal velocity is equal to the square root of (2mg / (air density * projected area * drag coefficient))
What is the terminal velocity for iron?
The terminal velocity for iron depends on its shape, size, and the medium it is falling through. For a small iron object falling through air, the terminal velocity is typically around 20-40 meters per second. However, in a vacuum, the terminal velocity would be much higher and dependent on the specific conditions.
How can you demonstrate terminal velocity?
You can demonstrate terminal velocity by dropping an object in a vacuum chamber. As the object falls, it will eventually reach a speed where the air resistance pushing upward equals the force of gravity pulling downward, resulting in a constant terminal velocity. This can be visually observed as the object maintains a steady speed while falling.
Why can a object falling in a vacuum never reach terminal velocity?
Terminal velocity is the velocity where the force of gravity balances the drag of the air stream flow past the object. At terminal velocity, the object's acceleration due to gravity becomes zero, and the object begins to fall at a constant velocity. In a vacuum, however, there is no air - and thus no drag- so the object continues to accelerate.
What is terminal velocity from a 16 foot fall?
The terminal velocity from a 16 foot fall would depend on various factors such as air resistance and the mass of the falling object. In a vacuum, the object would accelerate at 9.8 m/s^2 until it hits the ground. However, in reality, terminal velocity is typically reached before the fall distance, usually around 120 mph for a human-sized object.
Does the velocity of an object increase when its falling freely in a vacuum?
It accelerates at a higher rate
What is the hypothesis of how does air resistance affect the velocity of falling objects?
The object opposes the air and while falling of the object the initial velocity will become zero , and the final velocity will have some value's this is how air will resist the velocity of falling object ...........
What are two ways of increasing the terminal velocity of a falling object?
I'm reluctant to answer because the wording of the question suggests the person asking is looking for answers that meet undefined constraints. One way to increase the terminal velocity of a falling object is to drop it in a vacuum. Another is to drop it in a atmosphere of hydrogen. . 1. increase the mass, without increasing the drag coefficient. 2. Decrease the drag coefficient, without decreasing the mass.
How fast is terminal velocity for a penny if it is in a vacuum?
If the penny is in a vaccum, the penny has no terminal velocity because verminal velocity is when the resistance against the falling penny is equal to the force of gravity. So if it is in a vaccum, it has no forces resisting the fall, and it has no terminal velocity.
Will an object dropped on the moon reach a terminal velocity?
That varies, depending on the object. A massive object may take a long time to reach terminal velocity; a less massive object will reach terminal velocity faster. It basically depends on the object's mass, size, and shape.
As an object falls freely in a vacuum its?
velocity increases as it falls due to the force of gravity acting on it. Since there is no air resistance in a vacuum, the object will continue to accelerate until it reaches its terminal velocity or hits the ground.
