The force of gravity pulls down on all objects here on earth. If objects are allowed to fall, they accelerate downwards.
Acceleration due to gravity means the force due to weight of an object which increases due to the gravitational pull of the earth.
I suppose you are asking about what forces change when acceleration due to gravity changes. In this case, the formula for forces concerning acceleration due to gravity is as such: fg=mg. When acceleration due to gravity(g) changes, it affects the force of gravity which is also known as the weight of the object. This is shown as fg.
Force or weight Force= mass X acceleration gravity is an acceleration (9.8m/s2) Weight = mass X acceleration due to gravity
During a fee fall, when there is no normal force to resist the force of gravity, the body's acceleration is the same as the force of gravity 9.8m/s-2
That means that the acceleration of an object is caused by the force of gravity acting on the object.
Weight
The product of (mass) x (force) has no physical significance.The product of (mass) x (acceleration due to gravity) is the force due to gravity,which we usually call "weight".
it depends on acceleration due to gravity as f=mg, when acceleration due to gravity increases the force acting also increases.when force acting increases it cancels the upward thrust(buoyant force)so the body sinks in the liquid.
Weight of an object depends on the objects mass and the acceleration due to gravity... Weight=mxg where m = mass g=acceleration due to gravity on earth, acceleration due to gravity = approx 9.81m/s2
The force of weight is the force of gravity on a celestial body. To find the force of weight you can multiply mass x acceleration. The acceleration due to gravity is 9.81 m/s^2
It is at terminal velocity, the force of acceleration due to gravity is exactly equal to the force of retardation due to drag. The net force is therefore zero and so the acceleration becomes zero.
IF gravity doubled, THEN your weight would double. And acceleration and the force of gravity are indistinguishable from each other.