Want this question answered?
The larger the force acting upon an object, the greater the acceleration of the object.
Gravity must be the only force acting on the object, to produce downwards vertical acceleration. There is no force acting in the horizontal direction because there is no acceleration.
Yes, the acceleration of an object is directly proportional to the net force acting on it. this means that, as the net force acting on the object increases, the acceleration of the object increases; thus, the function forms a linear pattern.
That means that the acceleration of an object is caused by the force of gravity acting on the object.
If you doubled the force on a moving object you would double its acceleration.
The larger the force acting upon an object, the greater the acceleration of the object.
Gravity must be the only force acting on the object, to produce downwards vertical acceleration. There is no force acting in the horizontal direction because there is no acceleration.
-- the magnitude and direction of the force acting on an object -- the mass of the object being forcefully acted upon
You get the force acting on the object. F = ma.
The object's acceleration does.
It is the force acting on the body. More precisely, it is the component of the force acting in the direction of the acceleration.
Yes, the acceleration of an object is directly proportional to the net force acting on it. this means that, as the net force acting on the object increases, the acceleration of the object increases; thus, the function forms a linear pattern.
In that case, the acceleration will also increase.
F=m.a , a=F/m; acceleration is directly proportional with force. acceleration increase while force increase.
That means that the acceleration of an object is caused by the force of gravity acting on the object.
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
If you doubled the force on a moving object you would double its acceleration.