Title: Discoveries of 20th Century
1Discoveries of 20th Century
- 1900 Quantum nature of energy
- 1903 First motorized airplane flew
- Special theory of relativity published
- 1907Radiometric dating finds earth 2.2 billion
years old - Ehrlich finds cure for syphilis
- 1912 Leavitt discovers Cepheid's period and
luminosity - 1912 Wegener proposes continental drift
- 1913 Leavitt discovers
- 1913Bohr describes atomic structure
- 1915 General theory of relativity
- 1922 Banting and Best isolate insulin
- 1924 Hubble identifies new galaxy
- 1926 Television developed
- 1927 Big bang theory introduced
- 1927 Heisenberg state uncertainty principle
2Discoveries of 20th Century
- 1928 Fleming discovers penicillin
- 1929 Hubble finds universe expanding
- 1931 Lawrence invents cyclotron
- 1935 Nylon invented
- 1942 Fermi creates 1st controlled nuclear
reaction - 1945 ENIAC built
- 1945 Atomic bomb detonated
- 1947 Libby introduces C14 dating
- 1947 Transistor invented
- 1953 Salk polio vaccine
- 1953 Miller makes amino acids in laboratory
- 1953 Mid-Atlantic rift discovered
- 1953 Watson and Crick describe DNA
- 1954 First kidney transplant
- 1959 Leaky finds early hominid
3Discoveries of 20th Century
- 1960 Hess propose sea-floor spreading
- 1965 Penzias and Wilson observe cosmic background
microwave radiation - 1967 Pulsars discovered
- 1969 Apollo lands on moon
- 1971 First commercial microprocessor introduced
- 1974 Johanson finds 3.2 million year old Lucy
- 1975 Personal computer launched
- 1976 Cosmic string theory introduced
- 1977 found near deep ocean vents
- 1980 Alvarez finds evidence for dinosaur killing
asteroid - 1992 World wide Web
- 1992 The risk of carbon dioxide buildup and
global warming is recognised. - 1992 The first 'xenotransplant' from one type of
animal to another involving genetically
engineered tissue (liver) is carried out
successfully.
4Discoveries of 21st Century
- 1997 Dolly the sheep is born. She has been
produced by Ian Wilmut and his team at the Roslin
Institute near Edinburgh - 2000 World Wide Web estimated to cover 1 billion
pages. - As homework the student list other discoveries
during the past 4 years
5Brief History of Modern Science
- Discovery - A new method of acquiring knowledge
was invented by a series of European thinkers
from 1550 to 1700. Among these thinkers are
Galileo, Descartes, Kepler, and Newton - Definition of Science- A special method and
knowledge executed by practitioners of science
called scientists.
6Meaning of Science
- Science is practiced by specially trained people
with a specific world view. Scientists try to be
objective, non-sentimental, unemotional, honest,
and unbiased - Scientists work in laboratories where conditions
are carefully controlled. - Scientists report their findings in peer-reviewed
journals to other scientists - Scientists do not claim more than what they can
prove
7External World
- Science deals with things or objects in the
external world. External world is anything that
can be measured and described in mathematical
terms - The external world the scientist believes follows
rules of mathematics. - The external world contains solar systems,
galaxies, quanta, quarks, quasars, four forces,
six lepton, six lepton and six hadrons
8Science Language
- Scientists describe the results of controlled
experiments in a specialized language and/or in
mathematics. - Is the external world understandable because our
brains conform to the external world or because
the external world is essentially mathematical in
nature as is the human mind?
9Philosophical Foundations of Science Originated
in the 17th century
- Science removed animism as a physical
explanation. Greek philosophers thought movement
was a sign of life. Planets were moved by
angels. Newtons 1st law of motion changed this
attitude. - Science changed mans position from the center of
the universe to its periphery. Mans place in
the universe was seen as minor. - Scientific achievement revived human pride in
place of an obsession with sin.
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12Archimedes (287-212 BCE )
- Sicilian geometrician who calculated an accurate
value for p, demonstrated the relationship
between the volume of spheres and cylinders,
discovered methods for determining the center of
gravity of plane figures, and provided a
foundation for the science of hydrostatics.
Archimedes also invented many ingenious machines,
including a pump for raising water, effective
levers and compound pulleys, and a mechanical
planetarium. He died defending Syracuse against a
Roman siege during the second Punic war.
13Aristotelian Science
-
- Theory of Matter
- Matter stuff out of which things are made
- In sublunary world (below the moon) there
- are four elements or essences
- earth, water, air, and fire.
- These four elements never found pure always
mixed. - Heavy things made out of earth
- Light things made mix of water,air, and fire
14Aristotelian Science
- Above sun, planets are stars imbedded in the
crystalline sphere - The crystalline sphere made out of pure
quintessence ( 5th essence) - Different laws pertain the sublunary world than
to the world above the moon
15Aristotelian Science
- Motion
- Natural state of all sublunary things is rest
- All objects seek rest
- Earth, Air, and water seek down for rest
- Fire seek rest upward
- Bodies seek the grave, the souls seek heaven
16Aristotelian Science
- Motion
- Two kinds of motion -- violent and natural
- Things move because theyre pulled or pushed
- Sun, planets, and stars move in uniform,
circular motion - Circles are ideal and circular motion is an
aspect of quintessence. - Earth is at center of Universe
17Aristotelian Science
- Violent Motion
- A projectile exhibits violent motion
- Question why does an object keep moving after
leaving the bow or hand? - Answer air moves from the front of the object to
the back and pushes the object along.
18Aristotelian Science Violent Motion
19Ptolemy Epicycles
more accurate measurement required more epicycles
20Roger Bacon
- Bacon, Roger (1214-1292 )English philosopher who
translated many Aristotelian treatises from
Arabic into Latin. Although passionately
interested in alchemy and magic, Roger defended
reliance upon mathematics and experimental
methods for the improvement of human knowledge
generally and theological understanding in
particular in the Opus Maius (Greater Work )
(1267) at Amazon.com and On Experimental
Science (1268). His novel educational doctrines
were supposed to violate the condemnation of 1277
, and much of Roger's later work, including the
Compendium Studii Theologiae (1292) was
suppressed.
21Deductive and Inductive Reasoning
- A deductive argument is one in which it is
claimed that it is impossible for the premises to
be true but the conclusion false. Thus, the
conclusion follows necessarily from the premises
and inferences. In this way, it is supposed to be
a definitive proof of the truth of the claim
(conclusion). Here is an example - 1. All men are mortal. (premise)
- 2. Socrates was a man. (premise)
- 3. Socrates was mortal. (conclusion)
- As you can see, if the premises are true (and
they are), then it simply isn't possible for the
conclusion to be false. -
- An inductive argument is one in which the
premises are supposed to support the conclusion
in such a way that if the premises are true, it
is improbable that the conclusion would be false.
Thus, the conclusion follows probably from the
premises and inferences. Here is an example - 1. Socrates was Greek. (premise)
- 2. Most Greeks eat fish. (premise)
- 3. Socrates probably ate fish. (conclusion)
22Deductive and Inductive Reasoning
- inductive
- The meerkat is closely related to the suricat
- The suricat thrives on beetle larvae
- Therefore, probably the meerkat thrives on beetle
larvae
23Deductive and Inductive Reasoning
- deductive
- The meekat is a member of the mongoose family
- All members of the mongoose family are carnivores
- Therefore, it necessarily follows that the
meerkat is a carnivore
mongoose
cobra
24Inductive Mathematical Reasoning
- Find a General Rule for the Number series 0, 2,
8, 18, 32, 50, 72.. -
- Explain the Fibonacci Series 1, 2, 3, 5, 8, 13,
21, 34, - Stable Atomic Nuclei have the following number of
nucleons (proton and neutrons) - 2, 8, 20, 28, 50, 82, 126, What is the next
member in the series?
25Logical Fallacieshttp//www.intrepidsoftware.com/
fallacy/toc.php
- Novelty, Appeal to
- No True Scotsman
- Numbers, Appeal to
- Money, Appeal to
- Oversimplification and Exaggeration
- Pity, Appeal to (Argumentum ad Misercordiam)
- Poisoning the Well
- Poverty, Appeal to
- Presumption
- Quantifier Fallacy
- Quoting out of Context
- Reification / Hypostatization
- Fallacies of Relevance (index)
- Scope Fallacy
- Suppressed Evidence
- Tradition, Appeal to
- Tu Quoque (two wrongs don't make a right
- Genetic Fallacy
- Illicit Observation
- Abusive ad hominem
- Accent
- Ambiguity (index)
- Amphiboly
- Age, Appeal to
- Authority, Appeals to (4 types)
- Authority, Legitimate Appeal to
- Ad Hominem (5 types)
- Begging the Question
- Circumstantial ad hominem
- Complex Question
- Composition
- Correlation vs. Causation
- Division
- Emotion and Desire, Appeals to (5 types)
- Equivocation
- Unqualified Authority, Appeal to
- False Dilemma
- Flatter, Appeal to
26Logical Fallacies
- Straw Man
- Definition
- The author attacks an argument which is different
from, and - usually weaker than, the opposition's best
argument. - Examples
- (i) People who opposed the Charlottown Accord
probably just - wanted Quebec to separate. But we want Quebec to
stay in - Canada.
- (ii) We should have conscription. People don't
want to enter - the military because they find it an
inconvenience. But they - should realize that there are more important
things than - convenience.
- Proof
- Show that the opposition's argument has been
- misrepresented by showing that the opposition has
a stronger - argument. Describe the stronger argument.
27Logical Fallacies
- Definition
- The truth of the conclusion is assumed by the
premises. - Often, the conclusion is simply restated in the
premises in a - slightly different form. In more difficult cases,
the premise is - a consequence of the conclusion.
- Examples
- (i) Since I'm not lying, it follows that I'm
telling the truth. - (ii) We know that God exists, since the Bible
says God exists. - What the Bible says must be true, since God wrote
it and - God never lies. (Here, we must agree that God
exists in order - to believe that God wrote the Bible.)
- Proof
- Show that in order to believe that the premises
are true we - must already agree that the conclusion is true.
28Logical Fallacies
- Coincidental Correlation
- (post hoc ergo propter hoc )
- Definition
- The name in Latin means "after this therefore
because of this". - This describes the fallacy. An author commits the
fallacy when - it is assumed that because one thing follows
another that the - one thing was caused by the other.
- Examples
- (i) Immigration to Alberta from Ontario
increased. Soon - after, the welfare rolls increased. Therefore,
the increased - immigration caused the increased welfare rolls.
- (ii) I took EZ-No-Cold, and two days later, my
cold - disappeared.
- Proof
- Show that the correlation is coincidental by
showing that (i) - the effect would have occurred even if the cause
did not - occur, or (ii) that the effect was caused by
something other - than the suggested cause.
29Thomas Aquinas (1224-1274 )
- Although matters of such importance should be
accepted on the basis of divine revelation alone,
Aquinas held, it is at least possible (and
perhaps even desirable) in some circumstances to
achieve genuine knowledge of them by means of the
rigorous application of human reason. As embodied
souls - (hylomorphic composites), human beings naturally
rely on sensory information for their knowledge
of the world. Reading hint Although the rigidly
formal structure of the Summa articles can be
rather confusing to a modern reader, the central
portion beginning with the words, " I answer that
..." is always a direct statement of Aquinas's
own position.
30William of Ockham,
- William of Ockham
- (1285-1349 )English philosopher who defended the
logic, physics, and metaphysics of Aristotle in
Summa Logicae (The Whole of Logic ) (1328) vol. 1
at Amazon.com and vol. 2 at Amazon.com
and the Dialogus . An extreme nominalist , Ockham
held that general terms are signs that
indefinitely signify discrete (though similar)
particulars. Ockham is best known for his
statement of the law of parsimony as the
ontological principle often called Ockham's Razor
" Frustra fit per plura quod potest fieri per
pauciora " "It is pointless to do with more what
can be done with less". Thus, according to
Ockham, we ought never to postulate the reality
of any entity unless it is logically necessary to
do so.
31Paracelsus (Phillippus Aureolus Theophrastus
Bombastus von Hohenheim) ( 1493-1541 )
- Swiss chemist and physician. Rejecting the
ancient reliance on concern for bodily "humours,"
Paracelsus transformed the practice of medicine
by employing careful observation and
experimentation. Although his chemical knowledge
was rudimentary by modern standards, Paracelsus
envisioned using pharmaceutical methods for
treating disease and something like inoculation
for preventing it.
32Scientific Development From 1543 to 1789
- 1543 Nicolas Copernicus (1473-1543) publishes
De Revolutionibus Orbium Coelestium, which argues
that the Sun is the center of the Solar System. - 1543 Andrea Vesalius (1514-1564) publishes
Concerning the Structure of the Human Body, the
first modern anatomical text. - 1600 William Gilbert (1540-1603) publishes
Concerning the Magnet. - 1605 Francis Bacon (1561-1626) publishes
Advancement of Learning. - 1609 Astronomia Nova is published by Johannes
Kepler (1571-1630), in which he presented his
first two Laws of Planetary Motion. - 1610 Galileo Galilei (1564-1642) publishes
Sidereal Messenger, describing his observations
using the telescope. - 1619 Kepler publishes his Third Law in Harmonia
Mundi. - 1628 William Harvey (1578-1657) publishes On
the Motion of the Heart and Blood in Animals, in
which he proves that the heart circulates blood
throughout the body. - 1632 Galileo publishes Concerning the Two Chief
World Systems, in which he compares the
Copernican and Ptolemaic solar systems. - 1637 Rene Descartes publishes his Discourse on
Method, in which he lays the foundation for
modern philosophy. - 1644-9 Pierre Gassendi (1592-1655), in a series
of works, revives the traditions of Epicureanism
and Skepticism. - 1660 Robert Boyle (1627-1691) publishes New
Experiments Physico-Mechanical Touching the
Spring of the Air, in which he states his laws of
gases. - 1662 The Royal Society of London is founded.
- 1666 The French Academy of Science is founded.
- 1677 Anton von Leeuwenhoek (1632-1723), using a
microscope, discovers male spermatoza. - 1678 Christian Huygens (1629-1695) proposes the
wave theory of light. - 1687 Isaac Newton (1642-1727) publishes his
Principia Mathematica. - 1704 Isaac Newton publishes his Optics.
- 1735 Carolus Linnaeus publishes his Systema
Naturae, which establishes the science of
taxonomy.
33Scientific Development From 1543 to 1789
- 1543 Nicolas Copernicus (1473-1543) publishes De
Revolutionibus Orbium Coelestium, which argues
that the Sun is the center of the Solar System. - 1543 Andrea Vesalius (1514-1564) publishes
Concerning the Structure of the Human Body, the
first modern anatomical text. - 1600 William Gilbert (1540-1603) publishes
Concerning the Magnet. - 1605 Francis Bacon (1561-1626) publishes
Advancement of Learning. - 1609 Astronomia Nova is published by Johannes
Kepler (1571-1630), in which he presented his
first two Laws of Planetary Motion. - 1610 Galileo Galilei (1564-1642) publishes
Sidereal Messenger, describing his observations
using the telescope. - 1619 Kepler publishes his Third Law in Harmonia
Mundi.
34Scientific Development From 1543 to 1789
1628 William Harvey (1578-1657) publishes On
the Motion of the Heart and Blood in Animals, in
which he proves that the heart circulates blood
throughout the body. 1632 Galileo publishes
Concerning the Two Chief World Systems, in which
he compares the Copernican and Ptolemaic solar
systems. 1637 Rene Descartes publishes his
Discourse on Method, in which he lays the
foundation for modern philosophy. 1644-9
Pierre Gassendi (1592-1655), in a series of
works, revives the traditions of Epicureanism and
Skepticism. 1660 Robert Boyle (1627-1691)
publishes New Experiments Physico-Mechanical
Touching the Spring of the Air, in which he
states his laws of gases. 1662 The Royal
Society of London is founded.
35Scientific Development From 1543 to 1789
- 1666 The French Academy of Science is founded.
- 1677 Anton von Leeuwenhoek (1632-1723), using a
microscope, discovers male spermatoza. - 1678 Christian Huygens (1629-1695) proposes the
wave theory of light. - 1687 Isaac Newton (1642-1727) publishes his
Principia Mathematica. - 1704 Isaac Newton publishes his Optics.
- 1735 Carolus Linnaeus publishes his Systema
Naturae, which establishes the science of
taxonomy. - 1789 Antoine Lavoisier publishes his treatise
on chemistry, laying the foundation for the
modern theory of chemical elements.
36Copernicus b. 1473 Poland
- Polish astronomer who developed the theory that
the earth is a moving planet. In Copernicus's
time, most astronomers accepted the theory the
Greek astronomer Ptolemy had formulated nearly
1,400 years earlier. - Some astronomers before Ptolemy had suggested
that the earth did in fact move. Copernicus
decided that the simplest and most systematic
explanation of heavenly motion required that
every planet, including the earth, revolve around
the sun. The earth also had to spin around its
axis once every day. The earth's motion affects
what people see in the heavens, so real motions
must be separated from apparent ones. - Copernicus skillfully applied this idea in his
masterpiece, On the Revolutions of the Heavenly
Spheres (1543). In this book, he demonstrated how
the earth's motion could be used to explain the
movements of other heavenly bodies. Copernicus
could not prove his theory, but his explanation
of heavenly motion was mathematically strong and
was less complicated than Ptolemy's theory. By
the early 1600's, such astronomers as Galileo in
Italy and Johannes Kepler in Germany began to
develop the physics that would prove Copernicus'
theory correct.
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38Tycho Brahe b. 1546
- Danish astronomer. Brahe developed a systematic
approach for observing the planets and stars. He
stressed the importance of making such
observations on a regular basis. The telescope
had not yet been invented, and so Brahe used his
eyesight and such instruments as astrolabes and
quadrants to estimate the positions of celestial
objects. His observations were far more precise
than those of any earlier astronomer. - Brahe's observations of planetary motion revealed
that the tables then in use to predict the
positions of the planets were inaccurate. His
sighting of a supernova (type of exploding star)
in 1572 helped disprove the ancient idea that no
change could occur in the heavens beyond the
orbit of the moon. - Like many astronomers of his time, Brahe refused
to accept the Copernican theory of the solar
system. According to this theory, the earth and
the other planets move around the sun. Brahe
reasoned that if the earth revolved around the
sun, he should have been able to measure changes
in the positions of the stars resulting from the
earth's movement. He did not realize that such
changes were too small for his instruments to
detect. However, Brahe's observational data later
enabled Johannes Kepler, a German astronomer and
mathematician, to confirm the Copernican theory. - Brahe was born in Knudstrup (then a Danish city
but now in Sweden), near Malmo. As a member of
the nobility, he attended universities in
Denmark, Germany, and Switzerland. Brahe built an
elaborate observatory on the island of Hven (now
called Ven), where he made many of his
observations.
39Tycho Brahe b. 1546
- Danish astronomer. Brahe developed a systematic
approach for observing the planets and stars. He
stressed the importance of making such
observations on a regular basis. The telescope
had not yet been invented, and so Brahe used his
eyesight and such instruments as astrolabes and
quadrants to estimate the positions of celestial
objects. His observations were far more precise
than those of any earlier astronomer. - Brahe's observations of planetary motion revealed
that the tables then in use to predict the
positions of the planets were inaccurate. His
sighting of a supernova (type of exploding star)
in 1572 helped disprove the ancient idea that no
change could occur in the heavens beyond the
orbit of the moon.
40Tycho Brahe b. 1546
- Like many astronomers of his time, Brahe refused
to accept the Copernican theory of the solar
system. According to this theory, the earth and
the other planets move around the sun. Brahe
reasoned that if the earth revolved around the
sun, he should have been able to measure changes
in the positions of the stars resulting from the
earth's movement. He did not realize that such
changes were too small for his instruments to
detect. However, Brahe's observational data later
enabled Johannes Kepler, a German astronomer and
mathematician, to confirm the Copernican theory. - Brahe was born in Knudstrup (then a Danish city
but now in Sweden), near Malmo. As a member of
the nobility, he attended universities in
Denmark, Germany, and Switzerland. Brahe built an
elaborate observatory on the island of Hven (now
called Ven), where he made many of his
observations.
41Tycho Brahe (1546-1601)
42Johannes Kepler b. 1571
- Discovered three laws of planetary motion.
- Newton later used Kepler's three laws to arrive
at the principle of universal gravitation - Kepler's laws are
- (1) Every planet follows an oval-shaped path, or
orbit, around the sun, called an ellipse. The sun
is located at one focus of the elliptical orbit. - (2) An imaginary line from the center of the sun
to the center of a planet sweeps out the same
area in a given time. This means that planets
move faster when they are closer to the sun. - (3) The time taken by a planet to make one
complete trip around the sun is its period. The
squares of the periods of two planets are
proportional to the cubes of their mean distances
from the sun. - Kepler formed an association with Tycho Brahe,
which shaped the rest of his life. - His most significant discoveries were trying to
find an orbit to fit all Brahe's observations of
the planet Mars. Earlier astronomers thought a
planet's orbit was a circle or a combination of
circles. However, Kepler could not find a
circular arrangement to agree with Brahe's
observations. He realized that the orbit could
not be circular and resorted to an ellipse in his
calculations. The ellipse worked, and Kepler
destroyed a belief that was more than 2,000 years
old. - Kepler was the first astronomer to openly uphold
the theories of the Polish astronomer Nicolaus
Copernicus.
43Johannes Kepler b. 1571
- Discovered three laws of planetary motion.
- Newton later used Kepler's three laws to arrive
at the principle of universal gravitation - Kepler's laws are
- (1) Every planet follows an oval-shaped path, or
orbit, around the sun, called an ellipse. The sun
is located at one focus of the elliptical orbit. - (2) An imaginary line from the center of the sun
to the center of a planet sweeps out the same
area in a given time. This means that planets
move faster when they are closer to the sun. - (3) The time taken by a planet to make one
complete trip around the sun is its period. The
squares of the periods of two planets are
proportional to the cubes of their mean distances
from the sun.
44Johannes Kepler b. 1571
- Kepler formed an association with Tycho Brahe,
which shaped the rest of his life. - His most significant discoveries trying to find
an orbit to fit all Brahe's observations of the
planet Mars. Earlier astronomers thought a
planet's orbit was a circle or a combination of
circles. However, Kepler could not find a
circular arrangement to agree with Brahe's
observations. He realized that the orbit could
not be circular and resorted to an ellipse in his
calculations. The ellipse worked, and Kepler
destroyed a belief that was more than 2,000 years
old. - Kepler was the first astronomer to openly uphold
the theories of the Polish astronomer Nicolaus
Copernicus.
45Johannes Kepler b. 1571
- FIRST LAW
- The orbits of the planets are ellipses, with the
Sun at one focus of the ellipse.
46Johannes Kepler b. 1571
- SECOND LAW
- The line joining the planet to the Sun sweeps out
equal areas in equal times as the planet travels
around the el
47Johannes Kepler b. 1571
- THIRD LAW
- The ratio of the squares of the revolutionary
periods for two planets is equal to the ratio of
the cubes of their semi-major axes
48Gilbert, William (1540-1603),
- Gilbert, William (1540-1603), an English doctor
and scientist, was the first person to use the
word electricity. He has been called the "Galileo
of Magnetism" because of his celebrated book De
Magnete, which he published in 1600. It was
concerned with the properties of magnetism, with
electricity, and with the use of compasses in
navigation. - Gilbert's most important discoveries in the field
of magnetism were the laws of attraction and
repulsion, magnetic dip, and the properties of
loadstones. Gilbert based his findings on
observation and practical experiments. This
practice differed greatly from that of most of
the scientists of his time, who developed only
abstract theories, unsupported by experiments. - Gilbert was born in Colchester, in Essex,
England, and was educated at St. John's College,
Cambridge. He was physician to Queen Elizabeth I
and attended her during her last illness. Gilbert
died on Nov. 30, 1603.
49William Harvey (1578-1657)
- An English physician who became famous for his
discovery of how blood circulates in mammals,
including human beings. He described his
discovery in An Anatomical Study of the Motion of
the Heart and of the Blood in Animals (1628).
This work became the basis for all modern
research on the heart and blood vessels.
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51Robert Boyle (1627-1691)
- An Irish scientist considered the founder of
modern chemistry. He helped establish the
experimental method in chemistry and physics. - Boyle is best known for his experiments on gases
that led to the formulation of Boyle's law (see
GAS (Gas laws)). This law says the volume of a
gas at constant temperature varies inversely to
the pressure applied to the gas. Boyle also
helped improve the air pump, and with it he
investigated the nature of vacuums. - Boyle introduced many new methods for determining
the identity and chemical composition of
substances. He disproved the theory that air,
earth, fire, and water were the basic elements of
all matter. Boyle argued that all basic physical
properties were due to the motion of atoms, which
he called "corpuscles." - Boyle lived in England for most of his life. He
was a founding member of the Royal Society of
London, one of the world's foremost scientific
organizations. Boyle described his experiments in
many books. He was born at Lismore Castle,
Ireland.
52Robert Boyle (1627-1691)
53Antoine Lavoisier 1743 - 1794
- French chemist who, through a conscious
revolution, became the father of modern
chemistry. As a student, he stated "I am young
and avid for glory." He was educated in a radical
tradition, a friend of Condillac and read
Maquois's dictionary. He won a prize on lighting
the streets of Paris, and designed a new method
for preparing saltpeter. He also married a young,
beautiful 13-year-old girl named Marie-Anne, who
translated from English for him and illustrated
his books. Lavoisier demonstrated with careful
measurements that transmutation of water to earth
was not possible, but that the sediment observed
from boiling water came from the container. He
burnt phosphorus and sulfur in air, and proved
that the products weighed more than he original.
Nevertheless, the weight gained was lost from the
air. Thus he established the Law of Conservation
of Mass.
54Galileo Galilei 1564 - 1657
- Italian astronomer and physicist, has been
called the founder of modern experimental
science. Galileo made the first effective use of
the refracting telescope to discover important
new facts about astronomy. He also discovered the
law of falling bodies as well as the law of the
pendulum. Galileo designed a variety of
scientific instruments. He also developed and
improved the refracting telescope, though he did
not invent it.
55Galileo Galilei
56Astronomy and Kinematics
- In 1610 Galileo made observations of sunspots and
of Venus, noting that the planet progresses
through phases similar to those of the moon. This
fact confirmed his doubts about Ptolemaic
astronomy and deepened his conviction of the
truth of Copernicus' theory that the earth and
planets revolve around the sun. Publication of
these findings, starting in 1610, brought him
wide renown.
57Astronomy and Kinematics
- Galileo also pursued research on
motion-especially the motion of freely falling
bodies. The problem, as he saw it, was that the
Aristotelian theory of motion, which referred all
motion to a stationary earth at the center of the
universe, made it impossible to believe the earth
actually moves. Galileo went to work to develop a
theory of motion consistent with a moving earth.
58Astronomy and Kinematics
- Among the most important results of this search
were the law of the pendulum and the law of
freely falling bodies. Galileo observed that
pendulums of equal length swing at the same rate
whether their arcs are large or small. Modern
measuring instruments show that the rate is
actually somewhat greater if the arc is large.
Galileo's law of falling bodies states that all
objects fall at the same speed, regardless of
their mass and that, as they fall, the speed of
their descent increases uniformly.
59Galileo and Inertia
- http//id.mind.net/zona/mstm/physics/mechanics/fo
rces/galileo/galileoInertia.html
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62Pendulum
-
- The Italian physicist Galileo discovered
the laws of the pendulum. He noticed that a
hanging lamp would swing with an almost constant
period, whether the arc was large or small. He
believed that a pendulum could regulate the
movements of clocks. The Dutch scientist
Christiaan Huygens patented the first pendulum
clock in 1657. Galileo's observations are still
correct as long as the pendulum's swing is small.
But modern measuring instruments have shown that
the period of a pendulum increases when it has a
large swing.
63Pendulum
- The Simple Pendulum
- If a pendulum of mass m attached to a string of
length L is displaced by an angle from the
vertical, it experiences a net restoring force
due to gravity - In this small angle approximation, the amplitude
of the pendulum has no effect on the period. This
is what makes pendulums such good time keepers.
As they inevitably lose energy due to frictional
forces, their amplitude decreases, but the period
remains constant.
64Pendulum
65Descartes 1596 - 1650
- French philosopher, mathematician, and scientist.
He is often called the father of modern
philosophy. Descartes invented analytic geometry
and developed a detailed account of the physical
universe in terms of matter and motion. He was a
pioneer in the attempt to formulate simple,
universal laws of motion that govern all physical
change.
66Rene Descartes
- Rene Descartes was one of the founders of modern
philosophy. In this painting, Descartes conducts
a scientific experiment for Queen Christina of
Sweden shortly before his death in 1650. - Detail of Rene Descartes Conducts a Demonstration
Before Queen Christina of Sweden (about 1700) oil
on canvas by Dumesnil (The Art Archive)
67Bacon, Francis (1561-1626)
- English philosopher, essayist, jurist, and
statesman. He was one of the earliest and most
influential supporters of empirical
(experimental) science and helped develop the
scientific method of solving problems. - Bacon believed all previous claims to knowledge,
particularly of medieval science, were doubtful
because they were based on poor logic. He
believed the mind makes hasty generalizations,
which prevent the attainment of knowledge. But he
also believed that the mind could discover truths
that would enable humanity to conquer disease,
poverty, and war by gaining power over nature. To
discover truths, the human mind must rid itself
of four prejudices. Bacon called these prejudices
Idols of the Mind. - Bacon believed the mind could attain truth if it
followed the inductive method of investigation.
He developed four steps of doing so (1) listing
all known cases in which a phenomenon occurs (2)
listing similar cases where the phenomenon does
not occur (3) listing the cases in which the
phenomenon occurs in differing degrees and (4)
examination of the three lists. These steps would
lead to the cause of a phenomenon. - Bacon suggested the use of preliminary hypotheses
(assumptions) to aid scientific investigation.
His treatment of hypothesis is still a subject of
study. Bacon also wrote an unfinished romance
called New Atlantis (published in 1627, after his
death). The book describes an imaginary island
where the inhabitants dedicate themselves to the
study of science.
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69Isaac Newton 1642 - 1727
- Proposed three laws of mechanics
- 1. Inertia - A body continues to move in a
straight line unless acted upon by a force - 2. F ma Acceleration is proportional
to the applied force. As long as the force is
applied the velocity increases. - 3. For every action there is a reaction
- Explained motion of planets and moon
- Proposed law of universal gravitation
- Explained tides
- Assumed laws on Earth were same as in the heavens
- Discovered light composed of different color
- Invented reflector telescope
70Newtons Rules of Reasoning
- Use no more hypothesis than needed a restatement
of Ockhams Razor - Apply same cause to same effect
- Properties on earth are same as properties (laws)
in other parts of universe - Offer hypotheses supported only by experiment
- we are to look upon propositions inferred by
general induction from phenomena as accurately or
very nearly true, not withstanding any contrary
hypothesis that may be imagined till such time as
other phenomena occur by which they may either
be made more accurate or liable to exception
71Maxwell, James Clerk (1831-1879)
- Scottish scientist, one of the greatest
mathematicians and physicists of the 1800's is
best known for his research on electricity and
magnetism and for his kinetic theory of gases.
This theory explains the properties of a gas in
terms of the behavior of its molecules. Maxwell
also investigated color vision, elasticity,
optics, Saturn's rings, and thermodynamics, a
branch of physics that deals with heat and work. - Maxwell based his work on electricity and
magnetism on the discoveries of the English
physicist Michael Faraday. In 1864, Maxwell
combined his ideas with those of Faraday and
certain other scientists and formed a
mathematical theory that describes the
relationship between electric and magnetic
fields. Both these fields exert forces on
electrically charged objects. Maxwell showed that
waves in combined electric and magnetic fields,
called electromagnetic waves, travel at the speed
of light. In fact, Maxwell argued that light
itself consists of electromagnetic waves. In the
late 1880's, the German physicist Heinrich R.
Hertz conducted experiments that confirmed
Maxwell's theory. - Maxwell's equations indicate that light moves at
a particular speed, represented by the letter c.
The value of c is now known to be 186,282 miles
(299,792 kilometers) per second. Maxwell assumed
that c was the speed of light relative to the
ether. According to this assumption, light would
travel faster or slower than c in an inertial
frame moving relative to the ether.
72Michelson and Morley
- During the 1800's, physicists tried
unsuccessfully to measure the speed of the earth
relative to the ether. According to classical
physics, the ether was motionless. In the early
1880's, Hendrik A. Lorentz, a Dutch physicist,
explained the failure of these experiments by
assuming that the ether was partially dragged
along as the earth moved through it. Two American
physicists, Albert A. Michelson and Edward W.
Morley, developed an instrument that made far
more precise measurements than earlier devices.
Their experiments helped destroy the ether
theory. In 1887, Michelson and Morley
demonstrated that the earth's movement around the
sun had no effect on the speed of light. Their
finding could be understood only by assuming that
the ether near the surface of the earth moved at
the same speed as the earth. However, this
assumption contradicted the results of many other
experiments.
73Michael Faraday, b. Sept. 22, 1791 d. Aug. 25,
1867
- The English chemist and physicist Michael
Faraday, b. Sept. 22, 1791, d. Aug. 25, 1867, is
known for his pioneering experiments in
electricity and magnetism. Many consider him the
greatest experimentalist who ever lived. Several
concepts that he derived directly from
experiments, such as lines of magnetic force,
have become common ideas in modern physics.
74JAMES CLERK MAXWELL 1831-1879
- James Clerk Maxwell was one of the greatest
scientists who have ever lived. To him we owe the
most significant discovery of our age - the
theory of electromagnetism. He is rightly
acclaimed as the father of modern physics. He
also made fundamental contributions to
mathematics, astronomy and engineering.
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77Albert Einstein (1879-1955),
- Was one of the greatest scientists of all time.
He is best known for his theory of relativity,
which he first advanced when he was only 26. He
also made many other contributions to science. - Relativity. Einstein's relativity theory
revolutionized scientific thought with new
conceptions of time, space, mass, motion, and
gravitation. He treated matter and energy as
exchangeable, not distinct. In so doing, he laid
the basis for controlling the release of energy
from the atom. - Thus, Einstein was one of the fathers of the
nuclear age. Einstein's famous equation, E equals
m times c-squared (energy equals mass times the
velocity of light squared), became a foundation
stone in the development of nuclear energy.
Einstein developed his theory through deep
philosophical thought and through complex
mathematical reasoning. The great scientist was
once reported to have said that only a dozen
people in the world could understand his theory.
However, Einstein always denied this report.
78Principles of Relativity
- Einstein introduced a new principle, the special
principle of relativity. This principle has two
parts (1) There is no ether, and the speed of
light is the same for all observers, whatever
their relative motion. (2) The laws of nature are
the same in all inertial frames, where the laws
are understood to include those described by
Maxwell.
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