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Scientific Revolution and its Impact on Astronomy, Mechanics, Medicine, and Chemistry

This chapter explores the background of the Scientific Revolution, the revolutionary ideas in astronomy and mechanics by Copernicus, Brahe, Kepler, and Galileo, and the advances in medicine and chemistry by Paracelsus. Learn about the key figures and their contributions.

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Scientific Revolution and its Impact on Astronomy, Mechanics, Medicine, and Chemistry

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  1. Chapter 16 The Scientific Revolution

  2. Background of the Revolution • Middle Ages - not a period of scientific ignorance • drawback to scientific research in Middle Ages: • Reliance on a small # of ancient authorities (Aristotle, Claudius Galen) • preferred logical analysis (theorization) to systematic observation • Renaissance humanists’ mastery of Greek unlocked new knowledge of Galen, Ptolemy, Archimedes, & Plato • showed that these unquestioned authorities of the Middle Ages were contradicted in their own times • led to exploration in those opposing theories • Renaissance artists also had an impact on scientific study • Accurate renderings of nature & human anatomy established new standards for study of natural phenomena • Artists were usually practicing mathematicians as well • Mathematics was seen as the key to understanding nature (The Golden Mean)

  3. A Revolution in Astronomy & Mechanics • Cosmological view of late Middle Ages was a combination of Ptolemy, Aristotle & Christian theology • Result was Ptolemaic or geocentric cosmology (p.451) • This conception of the universe did not satisfy professional astronomers of the 16th century Nicholas Copernicus (1473-1543) • Accomplished mathematician and astronomer • 1506-30: worked on manuscript On the Revolution of the Heavenly Spheres, not published until 1543 • not great observational astronomer, but proved through data that Ptolemy’s system was incorrect • proposed a heliocentric universe, where the earth orbited the sun • Protestant reformers, including Martin Luther, denounced Copernicus & his theories

  4. Tycho Brahe (1546-1601) • Copernicus did not have a great impact immediately, but doubts about Ptolemy were growing • a Danish nobleman, Brahe spent 20 years compiling data from his private observatories in his castle • Found enough information to discredit the geocentric model, but not enough to accept the Copernican concept of a moving earth • While living in Prague as imperial mathematician, took on an assistant named Johannes Kepler Johannes Kepler (1571-1630) • pushed by parents to become a Lutheran minister • real interests in mathematics & astronomy • theorized that the universe was constructed on the basis of geometric figures • Brilliant mathematician & astronomer, after Brahe’s death, succeeded him as royal mathematician for Rudolf II in Prague

  5. developed three laws of planetary motion • orbits around the sun were elliptical w/ sun at focus not center • speed of a planet is greater near the sun & less farther away • planets w/ larger orbits revolve at slower velocity than those w/ smaller orbits • his laws disproved circular orbits, crystalline spheres, & the Ptolemaic system Galileo Galilei (1564-1642) • teacher of mathematics in Pisa • 1st European to observe the heavens by telescope (built himself) • showed that heavenly bodies were composed of matter similar to earth instead of ethereal, unchanging material • Publicly seen as a champion & hero of science, came under fire from the church • 1610 - The Starry Messenger, revealed him as a supporter of Copernicus’ heliocentric system, brought before the Inquisition • 1632 – Dialogue on the Two Chief Systems, brought before Inq.

  6. 1633 – forced to recant his statements about the Copernican system, placed on house arrest, • studied mechanics in at his estate & tackled problems of motion • if uniform force applied to an object, it moves at accelerated speed, not constant speed • introduced concept of inertia, object in motion stays in motion unless acted upon by another force Isaac Newton (1642-1727) • invented calculus, investigated composition of light, & tackled concept of gravity • Principia – considered “hinge point of modern scientific thought” • every object stays at rest or uniform motion in straight line until deflected by a force • rate of change of motion proportional to force acting upon it • for every action there is an equal and opposite reaction • Universal Law of Gravitation every object in the universe is attracted to every other object with a force (gravity) directly proportional to the product of their masses and inversely proportional to the square of the distances between them • His “world machine” was the basis for scientific thought in the West until Einstein’s work with relativity in the 20th century

  7. Advances in Medicine & Chemistry Paracelsus (1493-1541) • name means “greater than Celsus,” an ancient physician • seen by some as the father of modern medicine • vain, quick-tempered, not easy to get along with • hoped to replace the old system of Aristotle w/ new chemical philosophy • macrocosmic-microcosmic principle – the human being was a small replica of the larger world • argued disease was result of chemical imbalances localized in specific organs • believed in the ancient Germanic principle “like cures like” • seen as a “homicide physician” in his own time, looked at more favorably in later generations Andreas Vesalius (1514-1564) • 1543 - wrote On the Fabric of the Human Body • dissected cadavers in lecture to illustrate what he was discussing • disproved many of Claudius Galen’s errors, like the liver being origin of the blood vessels • still clung to the Galenic idea that two different types of blood flowed through veins & arteries

  8. William Harvey (1578-1657) • 1628 – published On the Motion of the Heart and Blood • Although questions had been raised about Galen’s theories, no breaks from his system had arisen • through observation, Harvey proved • heart was the origin of blood not the liver • same blood flows in arteries & veins • blood makes a complete circuit as it passes through the body • 1660s - achieved general recognition w/ discovery of capillaries explained how blood got from arteries to veins Chemistry • science of Chemistry arose in the 17th & 18th centuries • Robert Boyle (1627-91) one of first to conduct controlled experiments • work with gasses led to Boyles Law (volume of a gas inversely proportional to pressure exerted on it) • proposed that matter is composed of “little particles of all shapes & sizes” (later known as chemical elements) • Antoine Lavoisier (1743-1794) invented a system of naming the chemical elements, regarded as father of modern chemistry

  9. Women in the Origins of Modern Science Margaret Cavendish (1623-73) • aristocrat, participant in many crucial scientific debates • good example of French & English women involved in observational science, women often gravitated towards astronomy & entomology • between 1650 & 1710, 1 of 7 astronomers in Germany were women Maria Merian (1647-1717) • Worked in her father’s workshop, learned art of illustration (aided in observational sketches of plants & insects) • 1699 – traveled to Dutch colony of Surinam in S. America to study plant & insect life • led to her major scientific work, Metamorphosis of the Insects of Surinam Maria Winkelmann (1670-1720) • Most famous female German astronomer • Educated by her father & uncle, taught astronomy by her husband & became his assistant • After her husband died in 1710, applied for assistant astronomer at the Berlin Academy, but was rejected • because “mouths would gape” if a woman was hired

  10. Descartes, Rationalism, & New View of Humankind Rene Descartes (1596-1650) • called the “Father of Modern Philosophy”, developed rationalism • his prime concern was to establish a criteria for defining reality • published works The Discourse on the Method (1637) & his Meditations (1641) contain a step-by-step account of how he arrived at his conclusions • 1st essential in the search for truth: refuse to believe anything that could not be undoubtedly proved to be true • basis of certainty from which he could build was: that he existed • very act of doubt proved he was a thinking being; summed up in his second Meditation: Congito ergo sum (I think therefore, I am.) • from that point Descartes was guided by the principle: whatever can be clearly perceived must exist • knew that perceptions could be misleading as to exact nature • perceptions only validate the simple existence of objects in question • concluded that God existed because as imperfect beings, we could not have imagined a perfect being unless it was based on reality

  11. The Scientific Method Francis Bacon (1561-1626) • lawyer & lord chancellor of England • little scientific knowledge, rejected Copernicus, Kepler & misunderstood Galileo • developed a correct scientific method, built on inductive principles • urged scientists to proceed from particular to general • through organized experiments & systematic observation correct generalizations could be developed (empiricism) • Descartes believed that one could start with self-evident truths and deduce more complex conclusions • His emphasis on deduction and mathematical order complimented Bacon’s stress on induction and experimentation • Newton combined rationalist & empiricism to develop the scientific method • begins with systematic observations & experiments, used to arrive at general conclusions; • new deductions taken from general conclusions could then be tested and verified by experiments

  12. Science & Religion • Galileo’s struggle w/ the church came from the fact that he did not see why the church tried to determine the nature of physical reality from scripture • the Church supported the Ptolemaic cosmology because it fit w/ philosophical views of reality • this conflict & rejection of Darwin’s theories in 19th century forever created a division between the scientific & religious communities Benedict de Spinoza (1632-77) • raised in Amsterdam, excommunicated from Amsterdam synagogue for rejection of tenets of Judaism at 24 • ostracized in both Jewish and Christian communities for his beliefs • rejected Descartes’s ideas about an infinite God and a finite universe • God is in everything so how can an infinite being “be” a collection of finite objects? • wrote Ethics Demonstrated in the Geometric Manner (p.468) to explain his position, not published until after his death

  13. Blaise Pascal (1623-1662) • French scientist that sought to keep religion and science united • Accomplished scientist & brilliant mathematician • practical - built an adding machine • abstract – worked a great deal theorizing on probability & chance • wrote Pensees (Thoughts) but died before it was completed • Tried to convert rationalists to Christianity by appealing to their reason and emotion Man is but a reed, the weakest in nature; but he is a thinking reed. • Had answer for skeptics: God is a reasonable bet; it is worthwhile to assume God exists. If he does, then we win all; If he does not, we lose nothing.

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