Gravitational fields

Newton's law of universal gravitation
and its first consequences

The law under the image on the left shows the force of attraction (F) between two astronomical objects of masses M and m, which are separated by the distance r.

The gravitational constant G was measured years later by Henry Cavendish. Click on to see how it was done.

An interesting point to remember is that, as the force of attraction between the two is mutual, both bodies move around their common centre of mass. However, when one of the astronomical objects is much greater than the other, the distance between the centre of mass and the centre of the large object is small.

Click on and change the masses of the star and planet to check this statement.

	Freely falling bodies
	Two theories of the universe
	Kepler's laws
	Conclusions

	Newton's law
	The superposition of forces
	Angular momentum and central force
	Conclusions

	Explanation of the tides
	The movement of artificial satellites
	Coherence of galaxies
	Conclusions

	The concept of field intensity
	Variations according to position
	Conclusions

	Gravitational potential energy
	Equipotential surfaces and lines of force
	Conclusions