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What is the Effect of increasing the object's mass of the acceleration due to gravity?
On earth, the mass of an object has no effect whatsoever on its acceleration due to the force of gravity. All objects fall with the same acceleration, regardless of their mass. Any observed difference is due entirely to air resistance.
How would the observed value of acceleration be affected if the falling body used were heavier?
Your question describes it as a "falling body", so I'm assuming that you're asking about a body with no force on it except for the gravitational force. This is an important assumption. If it's true, then the mass (weight) of the falling body has no effect at all on its acceleration. Except for the effect of air resistance, all bodies fall with the same acceleration.
What happens to the acceleration of an object as it falls through air?
-- If you really mean "falls through the air", then its acceleration steadily decreases. -- If you're actually thinking about an object that's "falling", with no air in the way and no other influence on it except gravity, then its acceleration is constant as it falls.
If air resistance can be neglected how does the acceleration of a ball that has been tossed straight upward compare with its acceleration if simply dropped?
The acceleration is the same, which is the acceleration due to gravity. About 10m/s^2
What is the acceleration of falling bodies?
Near Earth's surface, the acceleration is about 9.8 meters/second2, assuming air resistance can be neglected.
What is the effect of mass of freely falling body on the gravitational acceleration?
No effect whatsoever. Without air to interfere with the effects of gravity, a small feather and a large rock fall with the same acceleration.
What is the air pressure inside a papper bag?
The air pressure is the same, inside or outside the paper bag.
What is the Effect of increasing the object's mass of the acceleration due to gravity?
On earth, the mass of an object has no effect whatsoever on its acceleration due to the force of gravity. All objects fall with the same acceleration, regardless of their mass. Any observed difference is due entirely to air resistance.
How does science affect air pollution?
Science pollutes the air because papper is needed so it comes on a truck and the smoke affect the air
What occurs only when air resistance does not effect the motion of a falling object?
perfectly constant acceleration? Hypothetically, virtually infinite speed? A few things
How does air resistance affect the acceleration of a falling object-How does air resistance affect the acceleration of a falling object?
It reduces the acceleration of the falling object due to friction.
Does air resistance increase or decrease the acceleration of a falling obect?
Well, the more the air resistance, the lower the acceleration.
How would the observed value of acceleration be affected if the falling body used were heavier?
Your question describes it as a "falling body", so I'm assuming that you're asking about a body with no force on it except for the gravitational force. This is an important assumption. If it's true, then the mass (weight) of the falling body has no effect at all on its acceleration. Except for the effect of air resistance, all bodies fall with the same acceleration.
Weight equals mass X acceleration of free-fall?
No, because acceleration of free fall is gravitational acceleration minus air resistance. Weight does not involve air resistance.
Does air resistance increase or decrease the acceleration of a falling leaf from a tree?
Air resistance decreases acceleration of falling objects
What happens to the acceleration of an object as it falls through air?
-- If you really mean "falls through the air", then its acceleration steadily decreases. -- If you're actually thinking about an object that's "falling", with no air in the way and no other influence on it except gravity, then its acceleration is constant as it falls.
What has the author Howard C Harris written?
Howard C. Harris has written: 'Effects of age and low doses of alcohol on compensatory tracking during angular acceleration' -- subject(s): Acceleration (Mechanics), Air pilots, Alcohol, Alcohol use, Physiological aspects, Physiological aspects of Acceleration (Mechanics), Physiological effect, Testing
