Post on 12-Jan-2016
The Scientific RevolutionChapter 17
Section 1
The Scientific Revolution
• The Scientific Revolution marked the beginning of a dramatic shift in how people viewed the world. The medieval and early modern European outlook had been dominated by religion. As a result of this revolution, many came to see the world predominantly in secular and scientific ways. In the short term, the Scientific Revolution set the stage for the Enlightenment; its long-term repercussions can still be felt today.
THE SCIENTIFIC REVOLUTION
Questioning old knowledge & assumptions
Rejection of religious authority and demystification of the universe
Gradual rise of science & reason
Scientists of this era differed from predecessors in combining mathematics and experiments
Models of the Universe:
Geocentric vs. Heliocentric Geocentric: the Earth is at
the center of the universe; all heavenly bodies move around the Earth
Heliocentric: the Sun is at the center of the universe; all heavenly bodies move around the Sun—including the Earth
Old Geocentric Theory
Sun rises Sun sets
Earth seems still
Official view of the Catholic Church
Geocentric: Earth-centered
Proof:
Earth seems stationary
Sun seems to move across the sky
Bible quotes
Blind acceptance of Greek teachings
Man views himself as focus of the universe
Geocentric Theory
Teachings of Aristotle – 300 BCE
World is made up of 5 elements:
Earth, air, water, fire and Quintessence
Earth does not rotate.
Teachings of Aristotle
Clear, round, domes hold planets and stars.
Laws of Motion:
Things move by weight or violent force
Ptolemy 150 CE (Greek)
Agrees with Aristotle
Used math and Geometry to “prove” the Geocentric Theory
Problems:
•Planets must travel in loop orbits
•Does not fit calendar
•Math is forced
NEW HELIOCENTRIC THEORY
The theory is introduced by Copernicus (1473 – 1543) a Polish astronomer and mathematician
Goal: Fix the problems of Ptolemy (Calendar and math)
Make the sun the center and the math works!
HELIOCENTRIC THEORY
Sun is the center of the universe.
The earth revolves around the sun and it rotates
Problem: It goes against the teachings Aristotle and “common sense”
On the Revolutions of the Celestial Spheres, the book written by Copernicus is not published until after his death
Johannes Kepler (1571 – 1630) German
The Proof: Used Brahe’s measurements –made one adjustment, and the math worked perfectly!
Laws:
Planets travel in an Ellipse
Planets travel slow then fast
Figure distance from sun by how long it takes to revolve around sun. T² = ka³
Explain the difference between the
Geocentric and the Heliocentric theory’s.
Arabic NumeralsDuring the Middle Ages, Europeans switched from Roman to Arabic numerals. This is very important for the Scientific Revolution. (Leonardo de Pisa)
Without this system, Copernicus could not have made his mathematical calculations,
Arabic numerals use a place number system consisting of ten numerals – when these are used up, a new number is added. Allows for fast calculations.
Try to multiply: MDMCXLVII BY CCCLXXII without converting to Arabic Numerals
Tycho Brahe (Danish mathematician)
Really supported Aristotle- wanted to prove Copernicus wrong
Provides the mathematical evidence that Copernicus is correct.
Takes measurements for over 20 years
Leaves his work to assistant Johannes Kepler
NEW DIRECTIONS IN ASTRONOMY & PHYSICS
NICOLAUS COPERNICUS (1473-1543)Polish monkObserved patterns of star and planet movementCalled into question the literal truth of the ScripturesCopernicus waited until he was near death to publish his findings
JOHANNES KEPLER, (1571-1630):
Proved mathematically many of Copernicus’ theories
Developed idea of elliptical planetary movement
NEW DIRECTIONS IN ASTRONOMY & PHYSICS
Galileo Galilei (1564–1642) Italian mathematician,
astronomer “Father of Science” Telescopes and
astronomical discoveries Theory of falling objects;
disproved Aristotle
Galileo’s telescopic drawing of the moon
GALILEO GALILEI (1564-1642) Italian scientist
Improved the telescope
Made observations that proved the Copernican theory of the universe
Described motion of bodies on earth
1633 -- Church forced Galileo to recant; placed under house arrest.
Galileo vs. the Catholic Church
The church condemned heliocentric conceptions of the universe
The Roman Inquisition
Galileo’s trial Galileo
recants, put under house arrest
19th-century depiction of Galileo before the Inquisition tribunal
Why did the church put Galileo Galilei on trial?
ISAAC NEWTON (1642-1727)
mathematician and physicist, one of the foremost scientific intellects of all time.
Universal Gravitation: combined laws of planetary & earth motion
new developments in optics and chemistry
developed calculus
work had numerous practical applications
THE SCIENTIFIC REVOLUTION
DISCOVERIES IN OTHER SCIENCES
Botany: new medical applications
Anatomy: better understand of how human body worked
Microscope invented
Medicine Before the Scientific Revolution
Based on tradition The Church Before the Scientific Revolution, many practitioners of
medicine relied on theories that were centuries old and rarely based on anatomical research or observation.
Medical treatments were at best ineffective and at worst lethal.
The Church banned dissection, a practice critical in understanding the human body and how illnesses affect it.
In general, the Church viewed sickness not so much as a physical disorder but as a spiritual punishment for sin.
Human intervention was seen as challenging the will of God.
William Harvey (1578–1657)
English physician On the Movement of
the Heart and Blood in Animals
Described the functioning of the heart and circulatory system
Disproved Galen’s theories
New Invention: The Telescope Invented in the Netherlands Galileo - Made
improvements to it in the early 1600s, it had not really been widely used as a practical tool for scientific observation
Newton - Made further refinements in the early 1700s when he invented the reflector telescope, which uses a curved mirror to magnify objects to a much greater degree than a simple glass lens is capable.
New Invention: The Microscope Hans Janssen
Anton Van Leeuwenhoek Robert Hooke
A Janssen microscope, c.1600Hooke’s drawing of a flea (from Micrographia)
The Microscope• 1590 - Hans Janssen began to construct compound microscopes, which
used several lenses and produced much greater magnification of objects.
• 1600’s - Anton Van Leeuwenhoek developed new methods for grinding and polishing tiny lenses of great curvature which gave magnifications up to 270 diameters, the finest known at that time. He used these lenses to build vastly improved microscopes and make several groundbreaking observations: he was the first to see bacteria, blood corpuscles, and the “life” found in a drop of water.
• 1660’s, - Robert Hooke of the Royal Society of London improved on Leeuwenhoek’s microscope and performed a series of weekly demonstrations to show the power of the instrument. In 1665, he wrote Micrographia, a finely illustrated compendium of microscopic observations that also used the word “cell” as a biological term for the first time; the book sparked increased public interest in microscopy.
New Invention: The Pendulum Clock
Invented by Christiaan Huygens, a 17th-century Dutch scientist
Allowed scientists to more accurately measure time
Huygens’s design for a pendulum clock
New Invention: Barometer Invented by 17th-
century Italian physicist Evangelista Torricelli
The barometer measures air pressure
Torricelli’s barometer experiment
New Invention: Thermometer
Invented in the 17th century by Santorio Santorio, an Italian scientist
Ferdinand II – First Sealed Thermometer – Used Alcohol
Gabriel Fahrenheit – Used Mercury and invented the first standard temperature scale
Anders Celsius – Second temperature scale
Illustration depicting Santorio’s thermometer
New Invention: Mechanical Calculator
Invented by Wilhelm Schickard, a 17th-century German inventor
Gottfried von Leibniz’s “Step Reckoner”, Square Roots
Forerunner to modern day Computers
Wilhelm Schickard A 1624 sketch Schickard made of his
calculator
Chemistry: Robert Boyle worked on the properties of
gases; Boyle’s Law: the volume of a gas varies with the pressure exerted on it
Antoine Lavoisier: invented system of naming chemical elements
– regarded as founder of modern chemistry.
What inventions were created or improved during the scientific
revolution?
Women and the Origins of Modern Science:
Margaret Cavendish: wrote Observations Upon Experimental Philosophy; in the book she was critical of the growing belief that humans, through science, were masters of nature
Maria Winkelmann: discovered a comet; was refused a teaching position because of her sex
RENÉ DESCARTES (1596-1650)
Geometry: any algebraic formula could be plotted as curve in space
Deductive Reasoning: predicting particular results from general principles
Cogito ergo sum (“I think, therefore I am”)
Francis Bacon andthe Scientific Method
1561–1626 English philosopher and
empiricist Inductive reasoning Argued for experimental
methodology
The Scientific MethodScience as a multiple-step process:
3. Test the theory with experiments
2. Develop a theory that explains the object or phenomenon
1. Observe an object or phenomenon
What are the characteristics of
the scientific method?
Significance of the Scientific Revolution
Contributions of these scientists made the universe comprehensible for the first time
The individual became much more important; collective authority was not the source of wisdom…individual intellect was
Began long adversarial relationship between science and religion
The Revolution laid the foundation for the Enlightenment of the 18th century…
Identify examples of new ideas in the form of scientific discoveries or innovations that appeared during the
1500s and 1600s.
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