Scientific Revolution
Learning Objective
Students will be able to define the
Scientific Revolution, and identify the
historical roots* of modern science.
(*a historical root is the start of
something.)
Between 1500 and 1700,
modern science emerged as a
new way of gaining knowledge
about the world. Before this
time, Europeans relied on two
main sources for their
understanding of nature. One
was the Bible and religious
teachings. The other was the
work of classical thinkers,
especially the philosopher
Aristotle.
The Scientific Revolution
Pair / Share Question
What two ways did Europeans rely on for their understanding of
nature?
1. Europeans relied on the Bible.
2. The works of Classical thinkers, particularly Aristotle.
Roots of the Scientific Revolution
During the Renaissance, many thinkers began to question the
conclusions of earlier thinkers. For example, Renaissance
scholars rediscovered the cultures of ancient Greece and Rome.
Arab, Christian, and Jewish scholars in the Muslim world
translated many classical works. They also made advances of
their own in such fields as medicine, astronomy, and
mathematics.
Many European philosophers were influenced by Greek
rationalism. This was the belief that reason, or logical thought,
could be used to discover basic truths about the world.
Renaissance thinkers also observed nature directly. The
Renaissance physician Vesalius dissected corpses to test ancient
ideas about the body. Trust in reason and observation became a
key part of modern science.
Pair / Share Question
Which three groups in the Muslim world translated ancient
texts?
1. Muslim
2. Christian
3. Jewish
Pair / Share
What two things became a key part of modern science during this time?
1. Reason
2. Observation
During the Scientific Revolution, scientists challenged traditional
teachings about nature. They asked fresh questions, and they
answered them in new ways.
A good example is Aristotle’s description of falling objects.
Aristotle had said that heavier objects fall to the ground faster
than lighter ones. This idea seemed logical, but the Italian
scientist Galileo questioned it.
Galileo performed a demonstration in the city of Pisa, where he
was teaching. He dropped two balls of different weights from
the city’s Leaning Tower. The results shocked the crowd of
students and professors. They expected the heavier ball to land
first. Instead, the two balls landed at the same time. Galileo’s
demonstration is an application of the scientific method. He
disproved Aristotle’s old theory through observation.
End section
Learning Objective
part 2
Students will be able to describe the
contributions of Copernicus, Kepler,
Galileo, and Newton to the Scientific
Revolution
(Geocentric Theory. Geo=Earth, centric= centered.)
For nearly two thousand years, most people believed that
Earth was the center of the universe. Aristotle had taught
this theory. The Bible seemed to support it, as well.
Unfortunately, this belief made it hard to explain the
observed movements of planets, such as Mars and Jupiter.
(Heliocentric Theory. Helio=sun, centric= centered.)
In the early 1500s, Copernicus tackled these problems using
observations and mathematics, he proposed a very different
idea. According to his heliocentric theory, Earth and the other
planets travel in orbits around the sun. The sun is at the
center of this solar system. Earth also turns on its own axis
every 24 hours. This turning explains why heavenly objects
seem to move around Earth.
Then, in the early 1600s, German scientist Johannes Kepler
expanded on Copernicus’s theory. After studying detailed
observations, Kepler figured out that the orbits of the planets
were ovals, not circles. With this insight, he wrote precise
mathematical laws describing the planets’ movements around
the sun.
Kepler’s laws agreed beautifully with actual observations.
This agreement was evidence that the Copernican theory was
correct. Once the theory took hold, people would never again
hold the same view of Earth’s place in the universe.
Pair / Share Question
1. Why do people often think of Copernicus and Kepler
together?
A. Both men put forth a geocentric theory.
B. Both men discovered the law of gravity.
C. Kepler's work built on Copernicus's.
D. Copernicus's work contradicted Kepler's.
C. Kepler’s work built on Copernicus’s.
Galileo Galilei lived at the same time as Johannes Kepler.
He disproved Aristotle’s theory that heavy objects fall faster
than lighter ones. He made other discoveries about motion,
as well.
Galileo’s biggest discoveries came in 1609 when he decided to
build his own telescope. He figured out how telescopes
worked. He learned how to grind glass for lenses. Soon he
was building more and more powerful telescopes.
Galileo’s discoveries contradicted the traditional view of the
universe. For example, Aristotle had taught that the moon
was perfectly smooth. Galileo saw that it wasn’t. Aristotle
had said that Earth was the only center of motion in the
universe. Galileo saw moons moving around Jupiter.
Pair / Share Question
What did Galileo invent / develop?
Ans: He developed the telescope
How did this invention affect the Copernican Theory?
Ans: His observations supported Copernicus's heliocentric
theory
Galileo's discoveries supported the Copernican heliocentric
theory and led him into a bitter conflict with the Catholic
Church. Church officials feared that attacks on the
geocentric theory could lead people to doubt the Church’s
teachings. In 1616, the Catholic Church warned Galileo not
to teach the Copernican theory.
Galileo refused to be silenced. In 1632, he published a book
called, Dialogue on the Two Chief World Systems.
Galileo’s Dialogue caused an uproar. In 1633, the pope
called Galileo to Rome to face the Catholic court, known as
the Inquisition.
At Galileo’s trial, Church leaders accused him of heresy.
They demanded that he confess his error. At first Galileo
resisted. In the end, the court forced him to swear that the
geocentric theory was true. He was forbidden to write again
about the Copernican theory.
However, the Church’s opposition could not stop the
spread of Galileo’s ideas. Scientists across Europe read
his Dialogue.
Galileo’s studies of motion also advanced the Scientific
Revolution. Like Kepler, he used observation and
mathematics to solve scientific problems.
Pair / Share Question
In response to Galileo's discoveries, the church
A. Asked Galileo to explain his theories to the pope.
B. Asked Galileo to explain his theories more clearly.
C. Made Galileo a saint.
D. Made Galileo say he was wrong.
D. Made Galileo say he was wrong.
Isaac Newton and the Law of Gravity
Isaac Newton was born in England in 1642, the same year
Galileo died. Newton was a brilliant scientist and
mathematician. His greatest discovery was the law of gravity.
Gravity: the force of attraction between all masses in the universe.
Newton told a story about his discovery. He was trying to
figure out what kept the moon traveling in its orbit around
Earth. Since the moon was in motion, why didn’t it fly off into
space in a straight line? Then Newton saw an apple fall from a
tree and hit the ground. Newton realized that when objects
fall, they fall toward the center of Earth. He wondered if the
same force that pulled the apple to the ground was tugging on
the moon. The difference was that the moon was far away,
and Newton reasoned that the force was just strong enough to
bend the moon’s motion into an oval orbit around Earth.
What is Gravity?
Ans: The force of attraction between all masses in the
universe.
Pair / Share Question
Does gravity affect the movement of the moon and planets?
Ans: Newton reasoned that in fact it did.
The Scientific Method
A key outcome of the Scientific Revolution was the
development of the scientific method. Scientific method: a
step-by-step method of investigation involving observation and
theory to test scientific assumptions. Two philosophers who
influenced this development were Francis Bacon and Rene
Descartes (reh-NAY dey-KAHRT).
Francis Bacon was born in England in 1561. He outlined a
method of scientific investigation that depended on close
observation.
Rene Descartes was born in France in the year 1596. To
gain knowledge that was certain, he said, people should
doubt every statement until logic proved it to be true.
Descartes also saw the physical universe as obeying
universal mathematical laws.
These ideas helped create a new approach to science.
Over time, scientists developed this approach into the
scientific method.
The scientific method combines logic, mathematics, and
observation. It has five basic steps:
Pair / Share Question
What is the scientific method?
scientific method: a step-by-step method of investigation
involving observation and theory to test scientific
assumptions

8th grade scientific revolutio

  • 1.
    Scientific Revolution Learning Objective Studentswill be able to define the Scientific Revolution, and identify the historical roots* of modern science. (*a historical root is the start of something.)
  • 3.
    Between 1500 and1700, modern science emerged as a new way of gaining knowledge about the world. Before this time, Europeans relied on two main sources for their understanding of nature. One was the Bible and religious teachings. The other was the work of classical thinkers, especially the philosopher Aristotle.
  • 4.
  • 5.
    Pair / ShareQuestion What two ways did Europeans rely on for their understanding of nature? 1. Europeans relied on the Bible. 2. The works of Classical thinkers, particularly Aristotle.
  • 6.
    Roots of theScientific Revolution During the Renaissance, many thinkers began to question the conclusions of earlier thinkers. For example, Renaissance scholars rediscovered the cultures of ancient Greece and Rome. Arab, Christian, and Jewish scholars in the Muslim world translated many classical works. They also made advances of their own in such fields as medicine, astronomy, and mathematics. Many European philosophers were influenced by Greek rationalism. This was the belief that reason, or logical thought, could be used to discover basic truths about the world. Renaissance thinkers also observed nature directly. The Renaissance physician Vesalius dissected corpses to test ancient ideas about the body. Trust in reason and observation became a key part of modern science.
  • 7.
    Pair / ShareQuestion Which three groups in the Muslim world translated ancient texts? 1. Muslim 2. Christian 3. Jewish
  • 8.
    Pair / Share Whattwo things became a key part of modern science during this time? 1. Reason 2. Observation
  • 9.
    During the ScientificRevolution, scientists challenged traditional teachings about nature. They asked fresh questions, and they answered them in new ways. A good example is Aristotle’s description of falling objects. Aristotle had said that heavier objects fall to the ground faster than lighter ones. This idea seemed logical, but the Italian scientist Galileo questioned it. Galileo performed a demonstration in the city of Pisa, where he was teaching. He dropped two balls of different weights from the city’s Leaning Tower. The results shocked the crowd of students and professors. They expected the heavier ball to land first. Instead, the two balls landed at the same time. Galileo’s demonstration is an application of the scientific method. He disproved Aristotle’s old theory through observation.
  • 10.
  • 11.
    Learning Objective part 2 Studentswill be able to describe the contributions of Copernicus, Kepler, Galileo, and Newton to the Scientific Revolution
  • 12.
    (Geocentric Theory. Geo=Earth,centric= centered.) For nearly two thousand years, most people believed that Earth was the center of the universe. Aristotle had taught this theory. The Bible seemed to support it, as well. Unfortunately, this belief made it hard to explain the observed movements of planets, such as Mars and Jupiter. (Heliocentric Theory. Helio=sun, centric= centered.) In the early 1500s, Copernicus tackled these problems using observations and mathematics, he proposed a very different idea. According to his heliocentric theory, Earth and the other planets travel in orbits around the sun. The sun is at the center of this solar system. Earth also turns on its own axis every 24 hours. This turning explains why heavenly objects seem to move around Earth.
  • 13.
    Then, in theearly 1600s, German scientist Johannes Kepler expanded on Copernicus’s theory. After studying detailed observations, Kepler figured out that the orbits of the planets were ovals, not circles. With this insight, he wrote precise mathematical laws describing the planets’ movements around the sun. Kepler’s laws agreed beautifully with actual observations. This agreement was evidence that the Copernican theory was correct. Once the theory took hold, people would never again hold the same view of Earth’s place in the universe.
  • 14.
    Pair / ShareQuestion 1. Why do people often think of Copernicus and Kepler together? A. Both men put forth a geocentric theory. B. Both men discovered the law of gravity. C. Kepler's work built on Copernicus's. D. Copernicus's work contradicted Kepler's. C. Kepler’s work built on Copernicus’s.
  • 15.
    Galileo Galilei livedat the same time as Johannes Kepler. He disproved Aristotle’s theory that heavy objects fall faster than lighter ones. He made other discoveries about motion, as well. Galileo’s biggest discoveries came in 1609 when he decided to build his own telescope. He figured out how telescopes worked. He learned how to grind glass for lenses. Soon he was building more and more powerful telescopes. Galileo’s discoveries contradicted the traditional view of the universe. For example, Aristotle had taught that the moon was perfectly smooth. Galileo saw that it wasn’t. Aristotle had said that Earth was the only center of motion in the universe. Galileo saw moons moving around Jupiter.
  • 16.
    Pair / ShareQuestion What did Galileo invent / develop? Ans: He developed the telescope How did this invention affect the Copernican Theory? Ans: His observations supported Copernicus's heliocentric theory
  • 17.
    Galileo's discoveries supportedthe Copernican heliocentric theory and led him into a bitter conflict with the Catholic Church. Church officials feared that attacks on the geocentric theory could lead people to doubt the Church’s teachings. In 1616, the Catholic Church warned Galileo not to teach the Copernican theory. Galileo refused to be silenced. In 1632, he published a book called, Dialogue on the Two Chief World Systems. Galileo’s Dialogue caused an uproar. In 1633, the pope called Galileo to Rome to face the Catholic court, known as the Inquisition.
  • 18.
    At Galileo’s trial,Church leaders accused him of heresy. They demanded that he confess his error. At first Galileo resisted. In the end, the court forced him to swear that the geocentric theory was true. He was forbidden to write again about the Copernican theory. However, the Church’s opposition could not stop the spread of Galileo’s ideas. Scientists across Europe read his Dialogue. Galileo’s studies of motion also advanced the Scientific Revolution. Like Kepler, he used observation and mathematics to solve scientific problems.
  • 19.
    Pair / ShareQuestion In response to Galileo's discoveries, the church A. Asked Galileo to explain his theories to the pope. B. Asked Galileo to explain his theories more clearly. C. Made Galileo a saint. D. Made Galileo say he was wrong. D. Made Galileo say he was wrong.
  • 20.
    Isaac Newton andthe Law of Gravity Isaac Newton was born in England in 1642, the same year Galileo died. Newton was a brilliant scientist and mathematician. His greatest discovery was the law of gravity. Gravity: the force of attraction between all masses in the universe. Newton told a story about his discovery. He was trying to figure out what kept the moon traveling in its orbit around Earth. Since the moon was in motion, why didn’t it fly off into space in a straight line? Then Newton saw an apple fall from a tree and hit the ground. Newton realized that when objects fall, they fall toward the center of Earth. He wondered if the same force that pulled the apple to the ground was tugging on the moon. The difference was that the moon was far away, and Newton reasoned that the force was just strong enough to bend the moon’s motion into an oval orbit around Earth.
  • 21.
    What is Gravity? Ans:The force of attraction between all masses in the universe. Pair / Share Question Does gravity affect the movement of the moon and planets? Ans: Newton reasoned that in fact it did.
  • 23.
    The Scientific Method Akey outcome of the Scientific Revolution was the development of the scientific method. Scientific method: a step-by-step method of investigation involving observation and theory to test scientific assumptions. Two philosophers who influenced this development were Francis Bacon and Rene Descartes (reh-NAY dey-KAHRT). Francis Bacon was born in England in 1561. He outlined a method of scientific investigation that depended on close observation.
  • 24.
    Rene Descartes wasborn in France in the year 1596. To gain knowledge that was certain, he said, people should doubt every statement until logic proved it to be true. Descartes also saw the physical universe as obeying universal mathematical laws. These ideas helped create a new approach to science. Over time, scientists developed this approach into the scientific method. The scientific method combines logic, mathematics, and observation. It has five basic steps:
  • 26.
    Pair / ShareQuestion What is the scientific method? scientific method: a step-by-step method of investigation involving observation and theory to test scientific assumptions