I image you are talking about a charge sensible force acting on a charged particle.
Let us image that a charged particle like an electron travels through an electromagnetic field sufficiently strong to remain almost unchanged by the presence of the charge itself.
The electromagnetic field is characterized by two vectors: the electrical field E and the magnetic induction field B. If the charge of our particle is q and its speed is v, the force F acting on the particle is
F = q E + q v X B
where X represent vector product. The first addendum is called electrical force, the second magnetic o Lorentz force (from the name of the scientist that discovered it).
The electrical force is associated to a change of the energy of the particle due to the electromagnetic field, if the charge is doubled the electrical force is also doubled, but it does not change its direction: the charged particle is still pushed in the direction of the electrical field.
The Lorentz force also double its intensity doubling the charge. Since the Lorentz force is always perpendicular to the velocity (due to the properties of the vector product) it does not change the particle energy (since the velocity intensity does not change), but induces a curvature in the particle trajectory. This curvature is greater and greater (the curvature radius gets smaller and smaller) while the charge increases.
The force of gravity between two masses is F= G m1 m2 / r2
So if the distance r is doubled we get (2r)^2 = 4 r^2
on the bottom, and on top we double the masses
2m1 x 2m2 = 4 m1 m2
then substituting in to the equation we see that the 4's cancel out on top and bottom so
F stays the same
Force does not change at all.
Force equals mass times acceleration, or F=MA. Do the math and the force is doubled.
it depends f=m*acceleration so there isn't a definite answer
As force of gravity is directly proportional to the mass as mass is doubled then force on it also gets doubled.
The gravitational force is doubled.
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.
The force too gets doubled as force is proportional to the mass of each object.
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.
As force of gravity is directly proportional to the mass as mass is doubled then force on it also gets doubled.
The gravitation pull will increase relative to the amount of increased mass. The Mass of the Objects The more mass two objects have, the greater the force of gravity the masses exert on each other. If one of the masses is doubled, the force of gravity between the objects is doubled.
The gravitational force is doubled.
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.
The force too gets doubled as force is proportional to the mass of each object.
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 the mass is doubled then the force needed is also doubled,according to the equation F=MV2/R
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
The Gravity would Double.
The force equal mass times acceleration, if force remains the same, and mass is doubled, then acceleration must be cut in half.
The force is proportional to each of the masses. For example, if one of the masses is doubled, the gravitational force will also double.
More mass --> more gravity.