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The terminal velocity will depend on the mass (greater mass = more terminal velocity) and on the air resistance, which depends greatly on the surface are (more surface area = less terminal velocity).
2nd Answer:
I believe that objects of differing mass fall at the same rate if you exclude air resistance. I remember the penny and the feather in an evacuated cylinder hitting the cylinder bottom at exactly the same time.
What else can I help you with?
How do all objects fall?
All objects fall towards the center of the Earth due to gravity. The rate at which objects fall is determined by their mass and the gravitational force acting upon them. In the absence of air resistance, all objects would fall at the same rate regardless of their mass.
What things fall through?
Contracts, both social and legalDeal NegotiationsPlansLoan ApplicationsMore literally, objects may fall through other objects.Other comparisons include:People fall through cracks (in society's safety net)water (or other liquids) falling through a sievewords fall through people
What is the type of friction that occurs when objects fall through the air?
The type of friction that occurs when objects fall through the air is called air resistance or drag. This force opposes the motion of the object as it moves through the air, slowing it down.
Why then do some objects fall thorough the air at a different rate than others?
Objects fall through the air at different rates due to differences in their mass, surface area, and shape. The rate at which an object falls is determined by the balance between the force of gravity pulling it downward and the air resistance pushing against it. Objects with greater mass or surface area experience more air resistance and may fall more slowly than objects with less mass or surface area.
Why do some objects fall at a different rate than others?
Objects fall through air at a different rate due to the amount of air resistance. Feathers or dandelion "parachutes" fall at a much slower pace than coins. However there is an experiment called "The coin and the feather". A glass tube about 6cm in diameter has a penny and a penny placed inside before the air is evacuated using a vacuum pump. The tube is then sealed. If the tube is held vertically the coin and feather are both at the bottom. If the tube is then swiftly inverted, so that what was bottom becomes top, the coin and feather are seen to fall at the same rate. Unbelievable unless you actually see it.
Why then do some objects fall through the air at different rate than others?
Some may be may be heavier and have more mass than others.
Do some objects fall through the air at different rate than the others?
of course ! Yes, due to the effects of air resistance. All falling objects experience the same acceleration from gravity, however.
How do all objects fall?
All objects fall towards the center of the Earth due to gravity. The rate at which objects fall is determined by their mass and the gravitational force acting upon them. In the absence of air resistance, all objects would fall at the same rate regardless of their mass.
What things fall through?
Contracts, both social and legalDeal NegotiationsPlansLoan ApplicationsMore literally, objects may fall through other objects.Other comparisons include:People fall through cracks (in society's safety net)water (or other liquids) falling through a sievewords fall through people
Do some objects fall through the air at a different rate than others?
Yes, due to air resistance a rubber ball would fall faster that a sheet of paper. In a vacuum, all things would fall at the same rate.
Do men enjoy fall and women like spring?
no diffrent people like diffrent seasons
What is the type of friction that occurs when objects fall through the air?
The type of friction that occurs when objects fall through the air is called air resistance or drag. This force opposes the motion of the object as it moves through the air, slowing it down.
Why then do some objects fall thorough the air at a different rate than others?
Objects fall through the air at different rates due to differences in their mass, surface area, and shape. The rate at which an object falls is determined by the balance between the force of gravity pulling it downward and the air resistance pushing against it. Objects with greater mass or surface area experience more air resistance and may fall more slowly than objects with less mass or surface area.
Why do some objects fall at a different rate than others?
Objects fall through air at a different rate due to the amount of air resistance. Feathers or dandelion "parachutes" fall at a much slower pace than coins. However there is an experiment called "The coin and the feather". A glass tube about 6cm in diameter has a penny and a penny placed inside before the air is evacuated using a vacuum pump. The tube is then sealed. If the tube is held vertically the coin and feather are both at the bottom. If the tube is then swiftly inverted, so that what was bottom becomes top, the coin and feather are seen to fall at the same rate. Unbelievable unless you actually see it.
The acceleration due to gracity of all objescts in free fall is the same Why then do some objects fall through the air at a different rate than others?
Objects fall at different rates through air due to differences in their air resistance. While the acceleration due to gravity is the same for all objects, air resistance can vary based on the shape, size, and surface area of the object. Objects with greater air resistance will fall more slowly than objects with less air resistance, even though they experience the same acceleration due to gravity.
How fast do objects fall through air?
The speed at which objects fall through air depends on factors such as the object's weight, shape, and surface area. In a vacuum, all objects fall at the same rate regardless of size or weight. However, in air resistance affects the falling speed, making smaller and more aerodynamic objects fall slower than larger or less aerodynamic objects.
How do objects fall?
Objects fall as a result of the downward force of gravity.
