The pull of gravity on any given object is of course the objects weight. The acceleration an object undergoes while falling due to gravity's pull is approximately 9.8 m/s/s. (meters per second per second)
The pull of gravity is affected by the amount of mass, and by the distance.
gravity will pull them together. All objects with mass have an attraction to each other.
think of yourself dude, increase or decrease?
Gravity is the force all objects exert on all other objects. For example, the earth's mass exerts force on your mass and attracts you to earth while your mass attracts the earth (slightly) to you. Even though gravity is an interaction between mass, it doesn't actually affect mass. Your mass on the moon, which has less gravitational pull that the earth, is no different that your mass on Jupiter, which has more gravitational pull than the earth. What changes is your weight, which is equal to your mass multiplied by the gravitational pull you are experiencing.
i am pretty sure it is weight. Yup. Its definitely Weight. :D
Gravity is an attractive force that occurs between all objects with mass. The gravity of any planet will pull objects in.
Its weight
Objects have a gravitational pull proportional to their mass.
Anything that has mass has a gravitational pull. I do not know the formula that determines an objects gravitational pull based on mass, but there definetly is one.
All the objects have mass and
The pull of gravity is affected by the amount of mass, and by the distance.
Toward the center of mass of the object or objects attracting you. Gravity also pulls it/them toward the center of mass of you.
Objects have a gravitational pull proportional to their mass.
gravity will pull them together. All objects with mass have an attraction to each other.
There is less gravity on the moon to pull you towards its surface than here on earth. Your mass x gravity(acceleration) = your weight. There is less gravity because the moon has less mass than the earth. All objects with mass have some amount of gravity that pulls them toward other objects with mass. The more mass you have in one spot the greater the pull of gravity there.
The pull of gravity depends on the mass of the two objects attracted to one another, and the distance between them. The greater the distance between the two objects, the weaker the pull of gravity. For that reason gravity is strongest at low elevations (closer to the center of mass of the earth) and weakest at high ones (farther from the center of mass), although the difference is essentially impossible to notice.
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.