Galileo Galilei

Galileo Galilei, a pioneer of modern physics and telescopic astronomy, was born near Pisa, Italy, on Feb. 15, 1564. In 1581 he entered the University of Pisa as a medical student, but he soon became interested in mathematics and left without a degree in 1585.

After teaching privately at Florence, Galileo was made professor of mathematics at Pisa in 1589. There he is said to have demonstrated from the Leaning Tower that Aristotelian physics was wrong in assuming that speed of fall was proportional to weight; he also wrote a treatise on motion, emphasizing mathematical arguments. In 1592, Galileo became professor of mathematics at the University of Padua, where he remained until 1610. He devised a mechanical calculating device now called the sector, worked out a mechanical explanation of the tides based on the Copernican motions of the Earth, and wrote a treatise on mechanics showing that machines do not create power but merely transform it. In 1602, Galileo resumed his investigations of motion along inclined planes and began to study the motion of pendulums. By 1604 he had formulated the basic law of falling bodies, which he verified by careful measurements. Late in 1604 a supernova appeared, and Galileo became involved in a dispute with philosophers who held (with Aristotle) that change could not occur in the heavens. Applying the mathematics of parallax, Galileo found the star to be very distant, in the supposedly unchangeable regions of the cosmos, and he attacked Aristotelian qualitative principles in science. Returning to his studies of motion, he established quantitatively a restricted inertial principle and determined that projectiles moved in parabolic paths. In 1609 he was writing a mathematical treatise on motion when news arrived of the newly invented Dutch telescope. He was so excited by its possible scientific applications that he put other work aside and began to construct his own telescopes.

By the end of 1609, Galileo had a 20-power telescope that enabled him to see the lunar mountains, the starry nature of the Milky Way, and previously unnoted "planets" revolving around Jupiter. He published these discoveries in The Starry Messenger (1610), which aroused great controversy until other scientists made telescopes capable of confirming his observations. The Grand Duke of Tuscany made him court mathematician at Florence, freeing him from teaching to pursue research. By the end of 1610, he had observed the phases of Venus and had become a firm believer in the Copernican heliocentric world system. He was vigorously opposed in this belief, because the Bible was seen as supporting the opposite view of a stationary Earth. Galileo argued for freedom of inquiry in his Letter to the Grand Duchess Christina (1615), but despite his argument that sensory evidence and mathematical proofs should not be subjected to doubtful scriptural interpretations, the Holy Office at Rome issued an edict against Copernicanism in 1616.

In 1623, Maffeo Barberini, long friendly to Galileo, became pope as Urban VIII, and Galileo obtained his permission to write a book impartially discussing the Ptolemaic and Copernican systems. This became Galileo's famous Dialogue Concerning the Two Chief World Systems (1632), for which he was called to Rome for trial by the Inquisition on the grounds that in 1616 he had been personally ordered never to defend or to teach Copernicanism. In June 1633, Galileo was condemned to life imprisonment for "vehement suspicion of heresy." His Dialogue was banned, and printers were forbidden to publish anything further by him or even to reprint his previous works. Outside Italy, however, his Dialogue was translated into Latin and was read by scholars throughout Europe.

Galileo's sentence was swiftly commuted to house arrest, at first under custody of the friendly archbishop of Siena and then at his own villa in Arcetri, near Florence. There Galileo resumed and completed his Paduan studies on motion and on the strength of materials, published at Leiden as Discourses and Mathematical Demonstrations Concerning Two New Sciences (1638). He rightly regarded this as containing the elements of a new physics that would be carried further by his successors. Galileo died at Arcetri on Jan. 8, 1642.

Among Galileo's students was Benedetto Castelli, founder of the science of hydraulics and teacher of Bonaventura Cavalieri and Evangelista Torricelli. Cavalieri formulated principles that were important to the development of the calculus, and Torricelli devised the barometer and explained phenomena of atmospheric pressure. Outside Italy, Galileo's influence was not great, except in making scientists conscious of the need for freedom of inquiry. As he had seen, not only religious but philosophical tradition had to yield to observation and measurement if science were to prosper. In 1992, Pope John Paul II acknowledged the church's error in condemning Galileo's work.

Stillman Drake

Bibliography: Biagioli, Mario, Galileo, Courtier (1993); Butts, R. E., and Pitt, J. C., eds., New Perspectives on Galileo (1978); Drake, Stillman, Discoveries and Opinions of Galileo (1957), Galileo Studies (1970), and Galileo at Work--His Scientific Biography (1978); Gingerich, Owen, "How Galileo Changed the Rules of Science," Sky and Telescope, March 1993; Redondi, Pietro, Galileo: Heretic (1987); Reston, James, Jr., Galileo: A Life (1994); Santillana, Giorgio de, The Crime of Galileo (1955); Wallace, W. A., Galileo and His Sources (1984) and Galileo's Logical Treatises (1992).

Last modified on: Thursday, October 30, 1997. ��