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Acceleration of a falling object is directly proportional tothe force of gravity in the object's location.
If you are asking the rate of acceleration on a surface, than the larger the force of gravity is, the more it will affect the rate of acceleration. The amount of friction depends one many variables, one of which is gravity. The larger your force of gravity is, the larger the force of friction is. Because of this, the more the force of gravity is, than the slower the rate of acceleration is because of the larger force of friction, which would be acting against the rate of acceleration. Therefore, the force of gravity does affect the rate of acceleration.
The force of gravity will affect the rate of falling in air. As will the aerodynamic shape of the object. And assuming that the air is not moving with or against the direction of fall.
Gravity and resistance (friction). Friction will only come into play on a fall from a long distance. This will be in the form of air resistance. If you are falling a short distance, gravity is the only force. The fastest you will be able to fall is at a rate of 9.81 ft/s^2.
The force between them increases on an exponential curve as they get closer together, and the rate of acceleration also increases in proportion to the force.example:if your objects distance from earths centre is halved, the force between them, and the rate of acceleration, is quadrupled.
If you are asking the rate of acceleration on a surface, than the larger the force of gravity is, the more it will affect the rate of acceleration. The amount of friction depends one many variables, one of which is gravity. The larger your force of gravity is, the larger the force of friction is. Because of this, the more the force of gravity is, than the slower the rate of acceleration is because of the larger force of friction, which would be acting against the rate of acceleration. Therefore, the force of gravity does affect the rate of acceleration.
Acceleration of a falling object is directly proportional tothe force of gravity in the object's location.
If you are asking the rate of acceleration on a surface, than the larger the force of gravity is, the more it will affect the rate of acceleration. The amount of friction depends one many variables, one of which is gravity. The larger your force of gravity is, the larger the force of friction is. Because of this, the more the force of gravity is, than the slower the rate of acceleration is because of the larger force of friction, which would be acting against the rate of acceleration. Therefore, the force of gravity does affect the rate of acceleration.
The force of gravity will affect the rate of falling in air. As will the aerodynamic shape of the object. And assuming that the air is not moving with or against the direction of fall.
Gravity slows its rate of ascent.
Acceleration does not effect gravity. It is rather the other way round. Gravity can affect the rate of acceleration.
Gravity and resistance (friction). Friction will only come into play on a fall from a long distance. This will be in the form of air resistance. If you are falling a short distance, gravity is the only force. The fastest you will be able to fall is at a rate of 9.81 ft/s^2.
The force between them increases on an exponential curve as they get closer together, and the rate of acceleration also increases in proportion to the force.example:if your objects distance from earths centre is halved, the force between them, and the rate of acceleration, is quadrupled.
Gravity is a force, which means that it has a corresponding acceleration (rate of rate of change). Because calculus is the study of rates of change, accelerations are studied in calculus.
Gravity is NOT a pulling Force. Gravity is a "Pushing" Force of Mass Expansion. Earth Mass is Expanding at the Gravitational Acceleration rate of 9.808175174 m/s^2
All bodies with mass are affected by gravity. Gravity pulls at a rate of 9.8m/s/s
The force of acceleration (gravity) the drag (resistance which is a complex factor including shape, density, surface structure, viscosity of the medium through which the object is falling, etc. )