0
What else can I help you with?
Which encounters the greater force of air resistance a falling elephant or a falling feather?
A falling elephant encounters a greater force of air resistance than a falling feather does. The force of air resistance can't be greater than the weight of the falling object. When the force of air resistance is equal to the weight of the falling object, the object stops accelerating, its falling speed becomes constant, and the force of air resistance doesn't get any bigger. So the force of air resistance against a falling feather can't be greater than the weight of the feather. But the force of air resistance against a falling elephant can be, and undoubtedly is, greater than the weight of a feather.
What directions Do the forces of air resistance and weight act on a falling object?
The weight of a falling object acts downwards, while air resistance acts in the opposite direction of the object's motion. Weight is the force of gravity pulling the object toward the ground, while air resistance is the frictional force that opposes the object's motion through the air.
Does the weight of an object affect the falling speed?
Yes, the weight of an object does affect its falling speed. Heavier objects will typically fall faster than lighter objects due to gravity exerting a stronger force on them. However, in the absence of air resistance, all objects will fall at the same rate regardless of weight, as demonstrated by Galileo's experiment at the Leaning Tower of Pisa.
What force or forces would be acting upon a falling airplane?
The main forces acting on a falling airplane are gravity, which pulls it downward towards the ground, and air resistance, which opposes its motion and can slow it down. Depending on the situation, other forces such as wind or turbulence may also affect the airplane's fall.
When air resistance balances the weight of an object that is falling the object has reached?
When air resistance balances the weight of an object that is falling, the object has reached terminal velocity. At this point, the object falls at a constant speed without accelerating further due to the opposing forces being balanced.
Which encounters the greater force of air resistance a falling elephant or a falling feather?
A falling elephant encounters a greater force of air resistance than a falling feather does. The force of air resistance can't be greater than the weight of the falling object. When the force of air resistance is equal to the weight of the falling object, the object stops accelerating, its falling speed becomes constant, and the force of air resistance doesn't get any bigger. So the force of air resistance against a falling feather can't be greater than the weight of the feather. But the force of air resistance against a falling elephant can be, and undoubtedly is, greater than the weight of a feather.
In free fall when the air resistance is equal to the weight of the falling object we say that the object has reached velocity?
In free fall, when the air resistance is equal to the weight of the falling object, we say that the object has reached ________ velocity.
When air resistance balances the weight of an object that is falling the velocity remains blank?
Constant
What directions Do the forces of air resistance and weight act on a falling object?
The weight of a falling object acts downwards, while air resistance acts in the opposite direction of the object's motion. Weight is the force of gravity pulling the object toward the ground, while air resistance is the frictional force that opposes the object's motion through the air.
Does the weight of an object affect the falling speed?
Yes, the weight of an object does affect its falling speed. Heavier objects will typically fall faster than lighter objects due to gravity exerting a stronger force on them. However, in the absence of air resistance, all objects will fall at the same rate regardless of weight, as demonstrated by Galileo's experiment at the Leaning Tower of Pisa.
How does weight affect an object when falling?
All Objects fall at the same rate in a vaacume, no matter the weight.
What force or forces would be acting upon a falling airplane?
The main forces acting on a falling airplane are gravity, which pulls it downward towards the ground, and air resistance, which opposes its motion and can slow it down. Depending on the situation, other forces such as wind or turbulence may also affect the airplane's fall.
When air resistance balances the weight of an object that is falling the object has reached?
When air resistance balances the weight of an object that is falling, the object has reached terminal velocity. At this point, the object falls at a constant speed without accelerating further due to the opposing forces being balanced.
What is the net force acting on a 12-N falling object when it encounters 12-N of air resistance?
The net force would be zero, which means the falling object would no longer be accelerating, and would be falling at terminal velocity, which is a constant velocity. Weight is a downward (negative) force and air resistance is an upward (positive) force. Fnet = weight + air resistance = -12N + 12N = 0N
How does the weight of a falling body compare with the air resistance it encounters before it reaches terminal velocity?
The weight exceeds the force of air resistance, but as the speed increases the air resistance increases, so the net force (weight - air resistance) falls. When the difference becomes zero the acceleration ceases and you have terminal velocity.
What happens to a falling object when the of air resistance the force of gravity?
Falling objects increase their speed as they fall, because their weight (the force of gravity) pulls them to Earth. ... Objects fall faster until they reach their terminal speed, which is reached when the upward (air resistance) and downward (weight)forcesare equal.
Why does weight of the object change its falling speed?
it dosent, because if you drop 2 objects at the same mass and weight from really high up then they will land at the same time. This is because the weight of the object doesnt matter, only the force of gravity.
