The Scientific Revolution (1500-1780) in G3

Summary

This presentation explores the Scientific Revolution, a period of significant advancements in science from 1500 to 1780. It details how the revolution evolved from the Renaissance, featuring influential figures like Nicholas Copernicus, Johannes Kepler, Galileo Galilei, and Isaac Newton. The presentation also covers the development of the scientific method.

Full Transcript

The Scientific
Revolution (1500–
1780)

BATOBATO, DAVE B.
CABUNCAG, CLINT AIVAN M
WHO CAME FIRST
The Scientific Revolution of the
sixteenth and eighteenth
centuries changed the way
educated people looked at the
world. It evolved from the
Renaissance’s stress on the
importance of individuals to
understand the world around
them, and was the key factor that
The Scientific Revolution was
the single most important
event that fostered the creation
of a new intellectual movement
in the late seventeenth and
early eighteenth centuries
called the Enlightenment, or,
sometimes, the Age of Reason
Nicholas Copernicus (1473–15
In his book On the Revolutions of the
Heavenly Spheres (not published until
after his death in 1543 because he
feared the ridicule of fellow
astronomers), , Copernicus suggested
that the sun was the center of the
universe and that the earth and planets
revolved in circular orbits. This
Heliocentric Theory that the sun—and
not the earth—was the center of the
universe contradicted contemporary
scientific thought and challenged the
Johannes Kepler (1571–1630)
A German astronomer and
assistant to Brahe, used his data
to support Brahe’s data and
Copernicus’ idea that the planets
move around the sun in elliptical,
not circular, orbits. Kepler’s three
laws of planetary motion were
based on mathematical
relationships and accurately
predicted the movements of
planets in a sun-centered
 Galileo Galilei (1564–
1642),
a Italian astronomer continued
the attack on traditional views of
science. Using observation
rather than speculation to help
him formulate ideas—such as his
laws on the motion of falling
bodies—Galileo established
experimentation, the
cornerstone of modern science.
He applied experimental
methods to astronomy by using
Dialogue Concerning the
Two Chief World Systems
(1632)
 Isaac Newton
(1642–1727)
an Englishman. In his book
Principia Mathematica
(1687), he integrated the
ideas of Copernicus, Kepler,
and Galileo into one system
of mathematical laws to
explain the orderly manner in
which the planets revolved
around the sun. The key
feature of his thesis was the
 Scientific
Method
The Scientific Method was first used
during the Scientific Revolution (1500-
1780). The method combined
theoretical knowledge such as
mathematics with practical
experimentation using scientific
instruments, results analysis and
comparisons, and finally peer reviews,
all to better determine how the world
1. Question
2. Research
3. Hypothesis
4. Test
5. Analyze
6. Conclusion
Francis Bacon (1561–1626
Francis Bacon was an
English politician and
writer, who advocated that
new knowledge had to be
acquired through an
inductive, or experimental,
reasoning process (using
specific examples to prove
or draw a conclusion from a
René Descartes (1596–1650)
René Descartes was a French
mathematician and
philosopher. Like Bacon, he
scorned the traditional
science and broke with the
past by writing the Discourse
on the Method (1637) in
French rather than Latin,
which had been the
intellectual language of the
Middle Ages. Unlike Bacon,