No. If there's any difference in the acceleration of different falling objects, it's
the result of air resistance. If you could drop them through a space with no air,
the lightest feather and the heaviest rock would have the same acceleration.
It's called the acceleration of gravity, and it's 9.8 meters (32.1 feet) per second2
on earth. Regardless of the mass of the falling object.
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
-- the object's mass -- the net force acting on it
Force and mass. Acceleration is force per unit of mass (a=f/m).
this equation might help force = mass * acceleration the more massive an object is the more force is required to accelerate it
Acceleration is a net force that is inversely dependent on mass, therefore if an object's mass decreases, acceleration increases.
Object's mass and acceleration remain constant.Object's speed increases linearly.Object's distance fallen increases exponentially.
Velocity, mass, forces, acceleration, slope, etc.
As mass increases acceleration decreases.
If the mass of an object increases, what happens to the acceleration?
Force accelerates stationary masses as acceleration a=f/m; theacceleration is inverse to the mass. The smaller the mass the larger the acceleration and the larger the mass the smaller the acceleration.
Yes. The force =mass x acceleration, f=ma. The larger the mass the larger the force.