Why does mass have the force of gravity?

AI Thread Summary
Mass generates the force of gravity through its inherent properties, as described by the equation F = G(m1 x m2)/r^2, where G is the gravitational constant. The gravitational constant is derived empirically, primarily through experiments conducted by Cavendish using torsion springs. A key question in physics is why inertial mass, which resists motion, is equal to gravitational mass, which attracts other masses. This relationship is complex and not easily understood, raising deeper inquiries into the nature of these fundamental forces. Understanding this connection remains a significant challenge in physics.
dhayward
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Homework Statement


Where does mass get the force of gravity?


Homework Equations


F = G(m1 x m2)/r^2

F = force (N)
G = Gravitational constant (Nm^2/kg^2)
m = mass
r = distance between m1 and m2


The Attempt at a Solution

 
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What's the actual question here?
 
how is the gravitational constant derived?
 
empirically i think. In other words it is inferred from experiments/observational data and not the result of any derivation.

The holy grail in physics (and I have a completely incomplete understanding--physics is a hobby for me) is to capture all 4 fundamental forces including gravity in a superset of equations with a bare minimum of constants.
 
Are you asking why the inertial mass is equal to the gravitational mass?
 
dhayward said:
how is the gravitational constant derived?

The first who carried out experiments that led to an empirical determination of G was Cavendish. By means of torsion springs, I think.

Your question can, however, be formulated in a "deep" way:

Why should an object's inherent resistance to motion change (i.e, its inertia) be in any way related to the strength of the attractive force existing between objects (i.e, gravitation)?

This identity between inertial mass and gravitational "mass" is not at all a trivially understandable relationship.
 

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