also doubled as long as mass is not changed:
F = m a
force and acceleration are directly proportional, with mass being what is called the proportionality constant. If mass is not changed, as you can see from Newton's second law to preserve the equality if force increases, the acceleration must increase.
If you doubled the force on a moving object you would double its acceleration.
Doubled.
F=ma, if "a" doubles and "m" is the same, the resultant "F" will double. Acceleration is doubled if force is doubled, a1=f/m; a2= 2f/m= 2a1.
Assuming by "the force acting on an object" you mean the cause of its acceleration, its acceleration will be doubled. If there is more than one force acting on it, the vector of the force will have to be analyzed by its effect on each of the other forces.
How the acceleration of a body related to its mass and the resultant force acting on it?
If you doubled the force on a moving object you would double its acceleration.
Doubled.
force = mass * acceleration if force is doubled, mass needs to be doubled to keep the same acceleration example: force = 6 mass = 2 acceleration = 3 6 = 2 * 3 12 = m * 3 12/3 = m 4 = mass
F=ma, if "a" doubles and "m" is the same, the resultant "F" will double. Acceleration is doubled if force is doubled, a1=f/m; a2= 2f/m= 2a1.
The acceleration of an object is proportional to the net force acting on it. So if the force is reduced by half, the acceleration will also be halved. Of course, it will still be accelerating in the same direction as before, but not as quickly.
By doubling its mass at the same time. (That would probably be a lot harder than doubling the force on it.)
The force equal mass times acceleration, if force remains the same, and mass is doubled, then acceleration must be cut in half.
Assuming by "the force acting on an object" you mean the cause of its acceleration, its acceleration will be doubled. If there is more than one force acting on it, the vector of the force will have to be analyzed by its effect on each of the other forces.
How the acceleration of a body related to its mass and the resultant force acting on it?
It is the force acting on the body. More precisely, it is the component of the force acting in the direction of the acceleration.
The larger the force acting upon an object, the greater the acceleration of the object.
By halving the mass. F = M A if F is doubled and A stays the same, in order for both sides to remain equal.. 2F = xM A x = .5