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Gravity
All attractive forces, gravitational, coulombic, and magnetic vary as the square of the distance between two objects. Thus, as the distance increases, the force between them becomes much weaker and weaker.
The answer is gravitational attraction. It is the attractive force between all objects that have mass. It's between you and me, you and your PC, and between everything.
The force of gravitational attraction between two objects is equal to the universal gravitational constant times by the mass of one object times by the mass of the other, all divided by the distance between them squared, or: force = (universal gravitational constant x mass 1 x mass 2)/distance2 or: F = (GMm)/r2
gravity
Gravity
All attractive forces, gravitational, coulombic, and magnetic vary as the square of the distance between two objects. Thus, as the distance increases, the force between them becomes much weaker and weaker.
Gravity
The answer is gravitational attraction. It is the attractive force between all objects that have mass. It's between you and me, you and your PC, and between everything.
gravitational force
Two pencils won't stick together because all of the attractive forces between them are either very weak, or don't participate between objects that are as far apart (atomically) as they are.
Gravity keeps your feet on the ground. Gravity keeps all orbiting objects in orbit around the object they are orbiting. The force of gravity decreases as a square of the distance between two objects. Gravity is the weakest of the fundamental forces. Gravity is an attractive force between any two objects that have mass.
Gravity is an attractive force that occurs between all objects with mass. The gravity of any planet will pull objects in.
Van der waals forces (ie induced dipole-dipole interactions) is a weak intermolecular attraction that exist but one molecule and another whether polar or non-polar.
The force of gravitational attraction between two objects is equal to the universal gravitational constant times by the mass of one object times by the mass of the other, all divided by the distance between them squared, or: force = (universal gravitational constant x mass 1 x mass 2)/distance2 or: F = (GMm)/r2
gravity
gravity