You measure the acceleration. One G-Force is 9.82 m s-2. Simply scale from there.
Nothing will happen to the object's motion, it will continue along its path.
You calculate the charge in velocity, not in distance.
Such an object is traveling at a constant speed in a straight line. Nothing will happen to it until the forces acting on it become unbalanced, or it runs into something.
No. An object traveling at a constant velocity is not accelerating.
Acceleration = Final velocity - Initial velocity / time
time
It means that the velocity doesn't change over time. It's speed is always the same, and it moves in a straight line.
Velocity is a vector that represents an object's speed and direction, so the speed of the object increases because an unbalanced force is making the object go faster.
Inertia is the "force" that causes an object in a curved path to pull away from the center. Inertia is actually the tendency of anything with mass to resist a change in motion. In other words, an object at rest will not move because of inertia, unless it is acted on by an unbalanced force, and an object in motion will continue to travel at a constant speed in a straight line unless acted on by an unbalanced force. An object traveling in a circular path pulls away from the center because inertia tries to keep the object traveling in a straight line.
Object will get there first.
orbit
BENT