This is described by Newton's Second Law, which is often written as:F = ma
Solving for acceleration:
a = F/m
So, the acceleration is equal to the force, divided by the mass.
Note that you need to sum (that is, do a vector sum of) ALL the forces acting on the object.
This is described by Newton's Second Law, which is often written as:F = ma
Solving for acceleration:
a = F/m
So, the acceleration is equal to the force, divided by the mass.
Note that you need to sum (that is, do a vector sum of) ALL the forces acting on the object.
Acceleration is proportional to the resultant force acting on a body fo constant mass. (Newton's second law)
Force is directly proportional to acceleration, so the greater the force, the greater the acceleration.
force and acceleration
Force and mass. Acceleration is force per unit of mass (a=f/m).
Acceleration of a falling object is directly proportional tothe force of gravity in the object's location.
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
ANY net force will cause an acceleration. If the force is reduced, there will be less acceleration, though.
Force is directly proportional to acceleration, so the greater the force, the greater the acceleration.
force and acceleration
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.
force and acceleration
force and acceleration
Force and mass. Acceleration is force per unit of mass (a=f/m).
Acceleration of a falling object is directly proportional tothe force of gravity in the object's location.
According to Newton's second law, force equals mass times acceleration.
An unbalanced force will cause acceleration in the direction of the force.
this equation might help force = mass * acceleration the more massive an object is the more force is required to accelerate it
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.