The more massive an object is, the more gravity it has. The farther you get from an object, the less you are effected by the gravity. Nothing effects gravity. Gravaty pulls you down. To stay a float go to space. Gravity does just pull you to earth, but I hear that it has something to do with magnetism as humans and animals all have microscopic magnetic substances that might have some connection with the magnetic forces of the earth and other planets. About the space thing, you don't have to knock on NASA's door to go to space, either, as there are space camps and place like that that allow you to go zero grav for a small fee. The strength of gravity is affected by the mass of the object in question and the distance from it.
Mass & Distance ;)
The more massive an object is, the more gravity it has. The farther you get from an object, the less you are effected by the gravity. Nothing effects gravity. Gravaty pulls you down. To stay a float go to space. Gravity does just pull you to earth, but I hear that it has something to do with magnetism as humans and animals all have microscopic magnetic substances that might have some connection with the magnetic forces of the earth and other planets. About the space thing, you don't have to knock on NASA's door to go to space, either, as there are space camps and place like that that allow you to go zero grav for a small fee. The strength of gravity is affected by the mass of the object in question and the distance from it.
Only the mass of the two objects and the distance between them. That's all. Gravitational attraction in newtons F = G m‰âÅm‰ââ/rå_ G = 6.67e-11 må_/kgså_ m‰âÅ and m‰ââ are the masses of the two objects in kg r is the distance in meters between their centers (center of mass)
The forces of gravity pulling two objects together depend on
-- the masses of the two objects, and
-- the distance between the centers of the two objects.
NOTHING ELSE has any effect on the forces of gravity between those two objects.
-- the masses of both bodies that are gravitationally attracted to each other
-- the distance between them
The gravitational force between two masses depends on the
product of their masses and the distance between them.
gravity affects everything.
distance and mass
It doesn't work like that. Gravity affects MASSES.
well gravity keeps us to the ground
gravity
Gravity affects us in our daily lives because it keeps us from floating away and off the Earth.
Gravity affects weight, it does not affect mass.
Yes. Gravity affects EVERYTHING.
Gravity is a force
Gravity affects inertia. The lower the gravity, the more inertia.
It doesn't work like that. Gravity affects MASSES.
Gravity affects everything that has mass.
well gravity keeps us to the ground
gravity affects everything with mass
Gravity is affected and effected by mass.
gravity affects everything with mass
Any object with mass affects gravity
Gravity
gravity