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Acceleration increases as force increases.
Velocity can only change if the object experiences an acceleration. Acceleration can only change if either the Force on the object increases, or the Mass of the object decreases.
Acceleration is a net force that is inversely dependent on mass, therefore if an object mass increases ,acceleration decreases
Acceleration increases when force increases and decreases when force decreases.
When mass increases, the force increases (f=ma) and the acceleration decreases (a=F/m).
Changing the magnitude or direction of forces exerted on an object changes the net force (sum of all forces) exerted on the object. The net force exerted on an object is defined as mass times acceleration (F = ma), where mass, m, is constant. This means that when the net force exerted on the object changes in magnitude (or direction), its acceleration will also change in magnitude (or direction). In addition, acceleration is defined as the change in velocity, so when the magnitude (or direction) of acceleration changes, the magnitude (or direction) of velocity will also change.
Acceleration increases as force increases.
Velocity can only change if the object experiences an acceleration. Acceleration can only change if either the Force on the object increases, or the Mass of the object decreases.
The acceleration increases.
Acceleration is a net force that is inversely dependent on mass, therefore if an object mass increases ,acceleration decreases
its acceleration will be increased
its acceleration will be increased
Acceleration is a net force that is inversely dependent on mass, therefore if an object mass increases ,acceleration decreases
F=ma, or force equals the product of mass and acceleration. Assuming that the mass of the object does not change, then acceleration increases as force increases.
If you increase the force on an object acceleration increases . As F = m*a, where F = Force , m = mass of the object & a = acceleration
The Acceleration Increases.
Acceleration increases when force increases and decreases when force decreases.