Western Civilization.p

29 4Chapter 16

in mathematical formulae that were intended to be pre-

dictive. His vision, however, was mechanistic, not mys-

tical or organic.

Galileo’s exploration of the planets was inspired by

the invention of the telescope. The basic principles of

optics had been discovered by the Aristotelians, and

eyeglasses were introduced early in the sixteenth cen-

tury. By 1608 Dutch and Flemish lens grinders were

combining two lenses at fixed distances from one an-

other to create the first telescopes. Using a perfected

version of the telescope that he had built himself,

Galileo turned it upon the heavens (see illustration

16.2). The results created a sensation. His discovery of

the moons of Jupiter and the phases of Venus seemed

to support the Copernican theory, while his study of

sunspots raised the unsettling possibility that the Sun

rotated on its axis like the planets.

Perhaps because he was not interested in astrology,

Galileo ignored the problems of planetary motion that

obsessed Kepler. Instead he concentrated on the me-

chanics of motion. Kepler had established the position

of the planets with his Rudolphine Tablesof 1627 but had

been unable to explain either the causes of their motion

or what kept them in their orbits. The issue had per-

plexed the ancients because they believed that rest was

the normal state of any object. The Aristotelians had

argued that an object remains at rest unless a force is

applied against it and that the velocity of that object is

proportionate to the force exerted in moving it. As a re-

sult, finding an explanation for why a projectile contin-

ued to move after the impetus behind it had ceased was

difficult. Galileo turned the problem on its head by

proving that a body in motion will move forever unless

it is slowed or deflected by an external force and that

the application of uniform force results in acceleration

instead of motion at a constant rate. Movement is

therefore as natural a state as rest. Once it had been set

in motion by its Creator, the universe could in theory

go on forever without further intervention.

It was a profoundly disturbing vision. To Galileo,

God was the Great Craftsman who created the world as

a self-sustaining and predictable machine. To those

who saw the universe as an organic entity upon which

God still imposed His will, such a view was not only

frightening but also blasphemous. It brought Galileo

before the Papal Inquisition. He was tried because he

defended the Copernican system and because his ideas

undermined a worldview that had prevailed for nearly

two thousand years. Yet the importance of this cele-

brated trial should not be exaggerated. Galileo’s con-

demnation forced him to retire to his country villa; it

did not prevent him or any other Italian from proceed-

ing with research along the lines he had suggested.

Galileo was arrogant and bad-tempered with patrons

and opponents alike. He was also a brilliant writer and

publicist (see document 16.1). Had his ability to attract

enemies not equaled his genius, the episode might

never have occurred.

The mechanistic view of the universe was destined

to triumph over its predecessor, and the church would

not again mount a frontal attack against it. René

Descartes (1596–1650), the most influential philoso-

pher of his day, developed a mechanistic vision that at-

tempted to integrate philosophy, mathematics, and the

sciences into a coherent, unified theory. He failed, but

his efforts inspired others such as Pierre Gassendi

(1592–1655), who attempted to revive the atomic the-

Illustration 16.2
Galileo’s Telescopes (c. 1610)With instruments like these
Galileo discovered the moons of Jupiter and launched a new era
in observational astronomy. He also gained support for his work
by donating them to wealthy patrons.