If you increase the force on an object acceleration increases . As F = m*a, where F = Force , m = mass of the object & a = acceleration
F=m.a , a=F/m; acceleration is directly proportional with force. acceleration increase while force increase.
If the mass of an object increases, what happens to the acceleration?
Increase the force on the object. The force must be in the same direction as the acceleration.
Acceleration is a net force that is inversely dependent on mass, therefore if an object's mass decreases, acceleration increases.
You increase the object's acceleration.
its acceleration will be increased
If you increase the force on an object acceleration increases . As F = m*a, where F = Force , m = mass of the object & a = acceleration
F=m.a , a=F/m; acceleration is directly proportional with force. acceleration increase while force increase.
In that case, the acceleration will also increase.
Yes, increased force applied to an object results in an increase in acceleration.
its acceleration will be increased
In order to increase the acceleration of an object, you need to increase the net force applied to the object.
The Acceleration Increases.
A force will produce acceleration when the object moves. force in the line of motion will increase the acceleration and the force opposite to the line of motion will decrease the acceleration.
From Newton's Second Law of Motion, I know that Fnet=manet. anet is the net acceleration. From this equation, I know that Fnet is proportional to anet. THis means that if I decrease the net force, I decrease the net acceleration. If I increase the net force, I increase the net acceleration. If your Fnet equation is Fnet=Fapp-Ff, then increasing the applied force would also increase the net acceleration. Therefore, more applied fore, more acceleration.
If the mass of an object increases, what happens to the acceleration?
An object's acceleration is the result of a force being applied to it. When that happens, the magnitude of the resulting acceleration is equal to the force divided by the object's mass, and the direction of the acceleration is in the direction of the force.