Galileo lived at a crucial crossroads in the history of science when different strands of thought met and clashed. These were:
- natural philosophy based on Aristotle’s incorrect ideas.
- the beliefs of the Catholic Church at the time.
- evidence-based scientific research.
In the end, the ideas of Galileo and other scientists triumphed, because they were able to prove them to be true.
Although his ideas triumphed, Galileo paid a high price for his science: he spent the last eight years of his life under house arrest, and the Catholic Church banned the publication of anything written by him.
Galileo’s Early Years and Education
Galileo Galilei was born in the Italian city of Pisa on February 15, 1564. He was the eldest son of Vincenzo Galilei and Giulia Ammannati.
His father was a well-known composer, who played the lute, a stringed instrument.
Galileo himself also became a skilled lute player.
As a young man, Galileo was torn between training to become a catholic priest or a doctor of medicine. His father encouraged him to study medicine, and Galileo took his father’s advice, starting a medical course at the University of Pisa when he was 17 years old. Soon, however, his father’s plans came unstuck.
Math, Music, Physics and Art
Aged 18, Galileo stumbled into a mathematics lecture, changing his life, and the course of scientific history. Mathematics seemed so much more interesting than medicine, he thought, and it also seemed to play a crucial role in understanding and explaining our world.
Galileo had recently become fascinated by the movement of pendulums, noting that if the length of the string was constant, it didn’t matter how hard you swung it, the pendulum always moved to-and-fro at the same rate.
The musician in him recognized a principle similar to his lute. It didn’t matter how hard you hit a lute string, it would always play the same note: but if you changed the length of the string you could you change the musical note. And likewise a pendulum would change the rate at which it swung to and fro only if you changed the length of the string.
As an accomplished musician, Galileo knew that the relationship between string length and the note it produced was mathematical – this had been proved almost 2000 years earlier by the Pythagoreans in Ancient Greece.
In fact, Galileo’s father had contributed to the field of the mathematics of music by discovering a new relationship, showing that in a stringed instrument, the pitch of a musical note depends on the square root of the string’s tension.
And so the die was cast. Galileo realized that he was much more interested in mathematics and physics than he was in medicine. He chose to follow the path which excited him most intellectually rather than that which would have rewarded him most financially.
Having strayed from medicine, he then decided that he might as well study art and drawing in addition to science.
Funnily enough, he never completed his university degree!
- Was, we now know from drawings in his notebook, the first person ever to see the planet Neptune. He observed that, unlike the other stars, it was moving. In Galileo’s time, the planets Mercury, Venus, Mars, Jupiter and Saturn had been known of for thousands of years and no others were contemplated. Galileo lost track of the moving star he had found. Neptune was not discovered until 1846.
- Established that, if there is no air resistance, everything falls to the ground at the same rate regardless of its weight. Gravity accelerates all objects equally, whatever their mass.
- Established that when gravity accelerates any object, the object accelerates at a constant rate so that the distance fallen is proportional to the time squared. For example, a ball falling for one second would travel a distance of one unit; a ball falling for two seconds would travel a distance of four units; a ball falling for three seconds would travel a distance of nine units, etc. It is probably a myth that he discovered this by dropping cannon balls from the Leaning Tower of Pisa. He used balls rolling down wooden ramps for most of his investigations of gravity and acceleration.
- Identified that anything thrown or fired on Earth, such as a rock or a cannonball, flies along a curved path and that the shape of the curve is a parabola.
Galileo’s Trouble with the Church
In Galileo’s time the Church reluctantly tried to accommodate science to some extent. Its attitude was that it was okay for people to do science, and it was even okay to find that the Church’s interpretation of the Bible was wrong, as long as you didn’t say it out loud.
For example, it was okay to pretend that the earth orbited the sun to help with astronomical calculations, but it was not okay to state that it was true that the earth orbited the sun.
Galileo’s troubles began in 1613 when he was 49 years old and published Letters on Sunspots. In this book, he established the imperfection of the heavens by describing dark patches on the sun’s surface – sunspots. He also said he preferred the idea that the earth orbited the sun: this was known as the Copernican view after Nicholas Copernicus published evidence for a heliocentric or sun-centered Solar System in 1543. Aristarchus, in Ancient Greece, had also proposed this 18 centuries previously. Copernicus’s work was well-known to scientists, but the Church had never approved the book for general reading.
In 1615 Galileo wrote that the words of the Bible had to be interpreted based on modern science and that the language of the Bible was the language of an earlier time.
In 1616 the Church went further than non-approval of Copernicus’s book, condemning it and banning it.
In 1620 the Church approved Copernicus’s book after editing it: any sentences in which Copernicus wrote about a heliocentric Solar System as a matter of fact were removed or changed. Despite the final approval, the book was still not actually published in any countries with a powerful Catholic Church.
In 1632 the Church in Florence, but not Rome, approved for publication Galileo’s new work, Dialogue Concerning the Two Chief World Systems. In the book he seemed to argue in favor of a heliocentric Solar System.
In 1633 Galileo answered a summons to Rome to answer charges that the Dialogue Concerning the Two Chief World Systems was heretical. He was interrogated by the Inquisition and threatened with torture.
He denied that his book was heretical and denied that it advocated a heliocentric Solar System. He was sentenced to life imprisonment on the basis that he was “vehemently suspected of heresy.” This was later lessened to house arrest, because he was a rather elderly man.
Dialogue Concerning the Two Chief World Systems and all other works by Galileo were prohibited.
However, in countries where the Catholic Church was not strong, such as England, Holland, Germany, Scotland, Switzerland, and all of Scandinavia, Galileo’s books were available for anyone to read.
House Arrest and Two New Sciences
Galileo was confined to his house near the city of Florence for eight years, during which time he was allowed to receive visitors. In 1638 he published his masterpiece: Discourses and Mathematical Demonstrations Concerning the Two New Sciences.
The two new sciences he described were the science of materials and the science of motion.
The book was published in Holland after it was smuggled out of Italy. It contained much of what Galileo had discovered and learned during his many years of experimentation and theorizing.