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the mass (m) of an object times its acceleration (a) is the force (f) exerted on the object. f=ma
inertial mass
When its speed is increasing
The effect of increasing the height of the track on the acceleration of the object is that more work is required to accelerate. It increases the gravity.
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
an object's mass
That's the object's acceleration.
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.
the mass (m) of an object times its acceleration (a) is the force (f) exerted on the object. f=ma
inertial mass
When its speed is increasing
Acceleration. Force is equal to mass times the acceleration, so in this case, acceleration is how fast an object increases its velocity.
It reduces the acceleration of the falling object due to friction.
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
The effect of increasing the height of the track on the acceleration of the object is that more work is required to accelerate. It increases the gravity.
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
True!. Sierra Ambrosio"))