True. Assuming you can ignore air resistance, the acceleration for any object is approximately 9.8 meters per second squared.
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.
No: this is a common misconception Friction= Normal force* Coefficient of friction where Normal force= Mass* Acceleration due to gravity* Cos(angle of surface) and the coefficient of friction is an intrinsic property of the surface Therefore, only the mass of the object and the surface composition affect friction
Gravity exerts a force on objects; such a force (if not counteracted by some other force) will cause an acceleration, according to Newton's Second Law. The amount of the acceleration can be calculated as a = F/m.
The acceleration due to gravity (9.8 meters/sec.^2) * mass of object.
Mass is the measure of the amount of matter in an object, weight is the product of the mass and the acceleration due to gravity, measured in Newtons.
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 acceleration of gravity on or near the Earth's surface is 9.8 meters (32.1 feet) per second per second.
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.
No: this is a common misconception Friction= Normal force* Coefficient of friction where Normal force= Mass* Acceleration due to gravity* Cos(angle of surface) and the coefficient of friction is an intrinsic property of the surface Therefore, only the mass of the object and the surface composition affect friction
It makes things weigh more or less, depending on the surface gravity.
Gravity exerts a force on objects; such a force (if not counteracted by some other force) will cause an acceleration, according to Newton's Second Law. The amount of the acceleration can be calculated as a = F/m.
There are couple reasons for that at least. First one is the Earth is rotating which cause some acceleration present , and from Physics we know that the acceleration has the maximum value at equator. As result the gravitational acceleration is a little bit lower over there them at any of poles. Also voids of large sizes cause lower gravity (gravity is proportional to amount of mass).
The greater the mass, the stronger the gravity, but the distance does not affect the amount of gravity.
That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).
On both it has the same amount of gravity but it has a different amount of force. The elephant might weighmore than the cat but they both have the exact same amount of gravity, or as others say it, acceleration. So the answer would be that it pull down on both of them with an equal amount of force.
gravity and how rough the surface is
The acceleration due to gravity (9.8 meters/sec.^2) * mass of object.