a brief history of astronomy
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A Brief History of Astronomy
Osher Lifelong Learning Institute October 1, 2013
Dick Dahlberg
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What Is So Special About Astronomy?
For 3000 years: Astronomy = Science From ancient Babylon to Copernicus (15th C.)
But with a little geometry thrown in.
The heavens were visible. There was a pattern to the behavior of the Sun,
Moon, stars, planets. Was there also a message???
Creation myths frequently had a cosmic basis.
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Astronomy Also The Basis For Many Early Religions
Tribes and villages with a common set of beliefs were more stable .
Belief systems (religions?) frequently had a cosmic component.
There must be some explanation for the locust invasion. OF COURSE: the planetary alignment was wrong!!!!
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Agenda Ancient Babylon (2nd to 3rd millenia BCE):
Star maps Ancient Greeks (3rd to 6th century BCE):
Remarkable calculations concerning our solar system. Aristotle (384 to 322 BCE):
Earth at the center of a perfect and divine Universe. Ptolemy (60 to 168 CE):
Added bells and whistles to Aristotles mistake. Copernicus (1473 to 1543):
Sun centered solar system: Part 1: Simplicity a virtue. Tycho Brahe (1546 to 1601):
Refined astronomical data.
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Agenda - Continued Kepler (1571 to 1630):
Sun centered solar system: Part 2: Orbits are ellipses. Galileo (1564 to 1642):
Sun centered solar system : Part 3: More evidence. The heavens are not perfect and divine.
Sun spots; Moon craters Jupiters moons; phases of Venus
Newton (1642 to 1727): Sun centered solar system: Part 4: The physics.
Michelson/Morley (1852 to 1931): Proved there was no ether.
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Agenda - Continued Einstein (1879 to 1955):
Laid the groundwork for the Big Bang. Evidence of the Big Bang:
Lemaitre (1894 to 1966): Deduced the possibility of a Big Bang from Einsteins General
Theory of Relativity. Hubble (1889 to 1953:
Discovered the red-shift: everything is moving away from everything else.
Gamow, Alpher and Hoyle (mid 20th Century): Deduced the abundance of elements from first principles.
Penzias and Wilson (1964): Discovered radiation left over from the Big Bang.
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Astronomy in Ancient Babylon 2nd and 3rd Millennia BCE
The Babylonian Book
Enuma Anu Enlil Tablet 63: The Venus Tablet: 7th c. BCE .
Enuma Anu Enlil contained a record of Babylonian astronomical observations. Star catalogs. Data on Mercury, Venus, Mars,
Jupiter and Saturn.
Babylonian data were extensively used by the Greeks and Egyptians.
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ANCIENT GREEK SCIENTISTS
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The Emergence of Real Scientists Ancient Greeks
Greek Scientists in Raphaels Painting: Pythagoras Anaxagoras Aristotle Euclid Ptolemy Plato Many other philosophers and
scientists
School of Athens Raphael Fresco (1509), Vatican City
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Aristarchus: 310 to 230 BCE Proposed a sun-centered solar system. The Earth rotates on its
axis once a day. Estimated distance to
the Sun.
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Aristarchus Relative Distances: Sun and Moon
At half-moon, the Moon, Sun and Earth for a right triangle.
The Moon-Earth-Sun angle can be measured. 87 degrees by Aristarchus.
The Sun is 20 times farther than Moon.
Good science: wrong answer. The actual multiplier is 400. The actual angle was close to
90 degrees: hard to measure.
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Eratosthenes: 275 to 195 BCE Greek mathematician and
astronomer. Determined the
circumference of the Earth
Determined the diameter of the Moon and its distance from the Earth.
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Eratosthenes Circumference of the Earth
Julian Rubin: julianTrubin.com (2011)
Find a spot where Sun is directly overhead: Syene (Aswan, Egypt)
Place a pole a known distance from that spot. Alexandria, 550 miles from Syene..
Measure the angle between pole and suns ray: 7.2degrees.
Then: 7.2 / 360 = 550/Circumference. Circ. = 27,500 miles.
Radius of the Earth: L = length of shadow cast at
Alexandria by pole of height H: L/H = 550/radius
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Hipparchus: 190 to 120 BCE The greatest astronomer in
antiquity. His quantitative models of the
motions of the Sun and Moon have survived.
Achievements: Predicted eclipses. Distance to Moon: 250,000
miles. First star catalogue. Calculated length of year to
within 6.5 minutes.. Hipparchus work was
extensively reported in Ptolemys Almagest.
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The First Authority
Aristotle 384 to 322 BCE
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Aristotles Early Life
Born in northern Greece. Aristocratic family.
At age 18, student at Platos Academy.
At age 42, became head of Royal Society of Macedon. Alexander the Grea
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Aristotle The Pre-Eminent Teacher
Aristotle studied under Plato for 24 years.
Plato and Aristotle From Raphaels Painting
School of Athens
Founded the Lyceum in 335 BCE (at age 49).
Studied and taught anatomy, astronomy, geology, physics, rhetoric, theology, philosophy, logic ..(almost everything)
Sought the general principles of nature. By observation.
Wanted to unify all branches of knowledge Wrote 150 treatises.
For 2000 years, he defined an educated man.
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Aristotles Universe The Universe is divine and perfect. Heavenly bodies move naturally in perfect circles.
The circular motions are in harmony with theology: perfect.
The heavens are a nest of spherical shells with the
Earth at the center The largest is a Devine Sphere, self-moving, carrying the
fixed stars.
An aether fills the Universe and makes up the stars and planets.
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The Earth Centered Universe
Claudius Ptolemy 2nd Century CE Egyptian Astronomer
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Claudius Ptolemy Last Great Astronomer of Ancient Times
Early Baroque Artists Rendition
90 CE to 168 CE. Roman citizen Greek ancestry
Wrote in Greek. Lived in Alexandria Ptolemy built on
Aristotles Universe.
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The Almagest:
The Greatest Compilation
Picture of George Trebizouds Latin Translation of the Almagest (15th c..)
Ptolemys major work on astronomy. Much due to Hipparchus. Divided into 13 books.
Goal: write down everything that was known. Star catalogues.
Locations for 1022 stars and 48 constellations.
Tables for computing planetary locations.
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Ptolemys Universe
The Earth was at the center (of the Universe).
Earth did not move
All motion was in circular paths.
Universe imagined to be composed of nested spheres.
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Ptolemys Model Complicated But Accurate
Epicycles necessary for accuracy. Accurately gave locations
of planets, stars. Predicted eclipses.
Better than initial versions of the sun-centered model.
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Ptolemic Model of the Universe
1747 Icelandic Manuscript
1524 Engraving Library of Congress
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Comparison Earth-Centered vs. Sun-Centered
Criterion Earth- Centered: Ptolemy
Success Sun-Centered: Early Greek
Success
Common sense
Obvious Good Leap of imagination
Not so good
Awareness of motion
None detected Good None detected Not so good
Stellar parallax None observed
Good None observed Not so good
Planetary predictions
With epicycles Good Not so good
Simplicity Very complex Not so good Naturally simple
Good
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What Is the Parallax Effect?
Astronomy 161 Lectures Dept. of Physics and Astronomy University of Tennessee
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Ptolemys Ecumene Map
Map Of the Known World
1482 Johannes Schnitzer Engraving (British Library Board)
Devised a latitude/longitude grid. Located the grid
coordinates for 8000 locations on the world map.
Even though Ptolemys estimates of latitude and longitude were wrong by about 15%, his maps were used into the 16th Century.
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The Sun Centered Universe: Part 1
Nicholas Copernicus: 1473 to 1543
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Nicholas Copernicus Renaissance Astronomer (1473 to 1543)
Polish mathematician,
astronomer, physician, jurist, diplomat, cleric, artist, poet, economist, and linguist (translated ancient Greek texts into Latin).
Was a strong Catholic. Received a doctorate in canon
law . Did not want to antagonize
the Church. Church strongly favored the
Ptolemaic model of the Universe. Biblical references to the
relative positions of Sun and Earth.
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Biblical References?
Psalm 93.1 and Chronicles 16:30: The world is firmly established , it cannot be moved.
Ecclesiastes 1:5: And the Sun rises and sets and returns to its place.
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Simplicity The Driving Force For Copernicus
Was familiar with the Sun-centered model of the Ancient Greeks. Had great respect for Aristotle. Was a student of Ptolemys Almagest.
But simplicity is a virtue.
William of Occam: 14th Century Franciscan. Occams Rasor: The simplest of two competing theories is probably
the best. When you hear hoof beats, think horses not zebras.
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The Starting Point: Seven Axioms
1) The heavenly bodies do not share a common center. 2) The center of the Earth is not the center of the universe.
3) The center of the universe is near the Sun. 4) The distance from Sun to Earth is insignificant compared to the distance
to the stars.
5) The daily apparent motion of the stars is a result of the Earths rotation on its own axis.
6) The apparent annual sequence of movements of the Sun is a result of the Earths rotation about it.
7) The apparent retrograde motion of some of the planets is the result of our relative position as observer on a moving Earth.
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Copernicuss Seminal Work On The Revolution Of the Heavenly Spheres: 1543
Copernicuss Universe: Sphere of fixed stars. Saturn: 30 year orbit. Jupiter: 12 years. Mars: 2 years. Earth. Venus: 9 months. Mercury: 80 days.
All orbits circular and uniform around the Sun.
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The Phases of Venus Model Comparison
Ptolemaic Earth-Centered Model Venus is between the Earth and Sun Venus always appears as a crescent. Copernican Sun-Centered Model Venus is not always between the Earth and Sun. The full range of phases is seen from the Earth.
Astronomy 161 Lectures Dept. of Physics and Astronomy University of Tennessee
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Copernicuss Work: Small (Initial) Impact Why???
Copernicus died shortly after publication: Could not promote his ideas. The Church was against him Dreadful writing style. An unauthorized preface was added (during printing) implying that the
major hypothesis was not true. Apparently Copernicuss apprentice, Georg Rheticus, and a Lutheran cleric, Andreas
Osiander, added the preface. Purpose? A mystery.
AND: The Ptolemaic Model was more accurate
CONCLUSION: Need more accurate data
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Needed: More Astronomical Data
Tycho Brahe: 1546 to 1601 The Scientific Bridge Between
Copernicus and Kepler
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Tycho Brahe Danish Scientist (and Character)
Swashbuckling Danish nobleman Lost part of his nose in a duel. Employed a dwarf court jester who sat under the table while they were eating. Also had a tame elk Died from too much beer.
Fell in love with Kirsten Hansen Daughter of a Lutheran
minister, a commoner. Danish law:
When nobleman and commoner live together, and she has the keys to the house, their allegiance is binding in a morganatic marriage after 3 years.
They lived together for 30 years. Had 8 (legitimate) children.
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Initial Interest In Astronomy
In 1572 (age 26) Brahe witnessed a supernova: Tychos Star.
In 1577 Brahe observed a comet. Accompanying tail suggested an elongated orbit.
Conventional wisdom at the time:
Both were atmospheric events. The universe beyond the Moons orbit? Perfect and unchangeable.
Brahe showed both events were not atmospheric events.
* Aristotle: beware.
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Brahe: Professional Astronomer Brahe became obsessed with the need for more and better astronomical data.
King Frederick II persuaded Brahe to set up shop in Denmark
Moved to Prague in 1597.
At the invitation of HRE Rudolph II. Established a new observatory.
Worked there with Kepler until his death in 1601.
His legacy: a vast amount of accurate astronomical data.
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Late Breaking News
Body exhumed in 2010 to try to determine cause of death: Burst bladder? Judgment at the time.
11 days before death, at a banquet, he should have gone to the toilet but didnt.
Kidney failure? Killed by Kepler? Poisoned (mercury) by his cousin, Eric Brahe, on orders from
Danish king, Christian IV ? Tycho was rumored to be having an affair with the Kings mother.
An accidental overdose of mercury taken by Tycho in medicating a kidney ailment?
Autopsy will examine hair samples and conduct CT scan of bones.
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The Sun Centered Universe: Part 2 Johannes Kepler: 1571 to 1630
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Johannes Kepler
1610 Portrait [Artist Unknown]
German mathematician and astronomer.
Prof. of Mathematics and Astronomy at age 23.
Assistant to Tycho Brahe (Prague, 1600 to 1601).
Devout Lutheran Believed God created cosmic
harmony through a geometric arrangement of planetary orbits.
Caught up in Counter Reformation
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Keplers Goal Harmonize the Copernican Model With The Bible
God created a certain harmony with respect to planetary orbits. What was His plan?
The Sun is the symbol of God
the Father. The Son: the stellar sphere. The Holy Spirit: the intervening
space.
Keplers First Attempt: Regular polygons: one
inscribed inside and one circumscribed outside a circle (orbit) at definite ratios. The basis for a model of
the Universe? Did not fit data too well.
Instead of regular
polygons , try Platonic Solids.
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The Five Platonic Solids Their elegance and simplicity
suggested an astronomical connection.
Kepler tried to find a connection between the Platonic Solids and planetary orbits.
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The Cosmographic Mystery (1595) Second Attempt: 3-D Platonic Solids
The five Platonic Solids could be uniquely inscribed and circumscribed by spheres. In a nested arrangement.
Six known planets: Mercury, Venus,
Earth, Mars, Jupiter and Saturn.
Order of solids: octahedron (8 faces), icosahedron (20), dodecahedron (12), tetrahedron, (4), hexahedron (6, cube).
The model did not fit all the data. Inaccurate data?
In 1600, Kepler (age 27) went to Prague to work with Tycho Brahe to get more accurate data.
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Success At Last The Third Attempt
Keplers Depiction of the Geocentric Motion of Mars Through Several Retrograde Cycles [Astronomia Nova (1609) ]
Using Brahes Data, Kepler Analyzed the Orbit of Mars
By trial and error, Kepler discovered the ellipse.
The First Law: All planets move in ellipses with the Sun at one focus.
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Keplers Three Laws
Keplers Second Law: University of Tennessee Astronomy 161: The Solar System
First Law: All planets move in ellipses about the Sun with the Sun at one focus.
Second Law: Planets sweep out equal areas in equal times.
Third Law: Square of the orbital period of a planet is proportional to the cube of the semi-major axis (half of the major axis). P = period R = radius P12/P22 = R13/R23
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Keplers Major Publications
A New Astronomy (1609) Manuscript was completed in 1605.
Published in 1609 due to legal disputes with Brahes heirs. The Epitome of Copernican Astronomy Keplers most Influential Work Three volumes attempted to explain planetary motions through physical
causes.
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Epilogue
As with Copernicus, Keplers work not widely accepted at first. Circular orbits were sacred.
The Church rejected his findings. Kepler could not explain why orbits were
elliptical.
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The Sun Centered Universe: Part 3 Galileo Galilei: 1564 to 1642
Galileo: The Father Of Modern Science
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Galileo Galilei The first mathematical physicist
Galileo was deeply religious: A brilliant and caustic wit. Chair of Mathematics Dept., Univ.
of Padua, at age 27. The Father of Modern Science:
Scientific method Experimentalist and theorist
Believed the Copernican model of the Universe.
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Galileo And the Church
At the Beginning
Galileo was a devout Catholic.
Galileos friend, Cardinal Barberini, became Pope Urban VIII in 1623.
The Church was adamantly opposed to the Copernican model: Psalm 93.1 and Chronicles 16:30: The world is firmly established , it
cannot be moved. Ecclesiastes 1:5: And the Sun rises and sets and returns to its place.
Catholicism was in a 30 years war with the Protestants.
In no mood to be lenient. Aristotle was still deeply revered.
Galileo was reluctant to criticize Aristotle.
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Galileos Telescope Refracting Telescope: 1608
Photograph of Original Telescope
Flemish spectacle maker won patent for telescope. Light enters at the top and is
focused on the eye at the bottom.
Galileo recognized its
potential.
Built his own, a refracting telescope.
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Discovery of Moons of Jupiter: 1610 Composite Sketch of Galilean Moons (NASA Archive)
The Galilean moons from the top: Io, Europa, Ganymede, Callisto.
Discovery proved that not all heavenly bodies circled the Earth.
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The Phases of Venus
Venus has only one face toward the
Sun. Full exposure appears small from
Earth. New exposure large. New exposure visible because
of halo. This should have been the end of the
Ptolemaic model.
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Galileo And The Church: At the End
Galileo defended the Sun-centered model from the beginning. Claimed it was not contrary to Scripture.
The Inquisition ordered Galileo not to hold or defend the
Sun-centered hypothesis. But Galileo was free to discuss the Sun-centered model.
Galileo began writing a Dialogue Concerning the Two Chief
World Systems.
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Dialogue Concerning the Two Chief World Systems: 1632
Arguments presented as a dialogue on the issues as opposed to advocacy. Simplicio: Aristotle (Pope
Urban VIII). Sagredo: neutral layman. Salviato: Galileo
Ptolemaic system subtly ridiculed.
Copernican system advanced.
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Galileo Facing the Inquisition 1857 painting by Cristiano Banti
Found vehemently suspect of heresy.
Required to abjure, curse and detest Sun centered theory.
Formally sentenced to prison. Commuted to house
arrest. Dialogue was banned.
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Comparison Earth-Centered vs. Sun-Centered
Criterion Earth- Centered: Ptolemy
Success Sun-Centered: Galileo/Kepler
Success
Common sense
Obvious Good Leap of imagination
Not so good
Awareness of motion
None detected Good None detected Not so good
Stellar parallax None observed
Good None observed Not so good
Planetary predictions
With epicycles Good Keplers system Good
Phases of Venus
Fails Not so good Natural consequence
Good
Simplicity Very complex Not so good Naturally simple
Good
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And In Addition.
The Heavens are not perfect: Sun spots Moon craters Comets Supernovas
The moons of Jupiter do not orbit the Earth
Aristotles grip on science finally broken.
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The Sun Centered Universe: Part 4 Isaac Newton: 1642 to 1727
The Greatest Scientist?
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Newtons Early Life
Isaac Newton At Age 46 1689 Portrait by Kneller
Mathematician and physicist. Possibly the greatest scientist
in history. Unhappy childhood.
Born 3 months after death of father.
Stepfather shunned him. Raised by grandparents. Came to hate mother and
stepfather. Angered by criticism.
Harsh toward enemies. Harbored resentment.
Never married.
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Newtons College Years
Apple tree: Cambridge Univ. Botanical Garden [Descended From Newtons Tree (?)]
Entered Cambridge Univ. at age 19. Spent ages 23 to 25 at family home in
Woolsthorpe. Due to plague. Conducted private research. Major discoveries were made during
this period. Gravity. Laws of motion. Optics. Calculus
Prof. of Math. at 27.
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Newtons Theology An Arian.
Did not believe Jesus was the Son of God.
God was the master Creator
Canterbury Cathedral
Newton believed he was chosen to understand biblical scripture to find hidden messages. . Believed in alchemy; the Philosophers Stone, ESP, magic, spiritualism, numerology.
Newton: Gravity explains the motion of the planets but it cannot explain who set the planets in motion. God governs all things and knows all that is or can be done.
The Principia concludes with an account of monotheism and an attack on the doctrine of the Trinity.
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Principia Mathematica (1687) Considered the Most Important Scientific Work Ever Published
Major portions of work done 1665 to 1667 when at Woolsthorpe.
Aristotle: Earthly things and heavenly things obey different laws.
Newton: The same force governs bodies on Earth and in the heavens.
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Three Laws of Motion
And the Law of Gravity 1) Law of Inertia: An object at rest
tends to stay at rest and an object in uniform motion tends to stay in motion unless acted upon by an external force.
2) Force = mass x acceleration
3) To every action there is an
equal and opposite reaction.
The Law Gravity: Gravitational force: F =
Gm1m2/r2
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A Thought Experiment A dropped ball will fall to the
ground due to gravity.
Throw the ball horizontally: it will hit the ground farther away.
Throw it hard enough, with no air, and it will circle the earth and return to the starting point.
Hence: centripetal motion + gravity = orbit. The Moon continually falls
toward the Earth
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Newtons Great Synthesis
Kepler developed 3 laws of planetary motion. Empirically derived: matched the data obtained
by Brahe. Kepler did not know why they gave the right answer.
Newton explained why they worked.
Showed they applied throughout the Universe.
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Newton Developed the Reflecting Telescope
REFRACTORY TELESCOPES: chromatic aberration problems. Lens acts like prism. Newton recognized this.
Problem solved with a
REFLECTING TELESCOPE. Invented by a Scot (Gregory),
but improved by Newton.
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Most Optical Telescopes are Reflecting
200 Inch Reflecting Telescope on Mt. Palomar
Left: Replica of Newtons 2nd Reflecting Telescope
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Isaac Newtons Tomb Westminster Abbey
Alexander Pope: Nature and Natures laws lay hid in
night; God said Let Newton be and all
was light.
In a 1676 letter to
Robert Hooke, Newton wrote:
If I have seen further it is by standing on the shoulders of giants.
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Newton: Summary
Discovered 3 Laws of Motion Discovered the Law of Gravity. Asserted that the laws of physics applied
throughout the Universe. The Earth was not unique.
Invented a reflecting telescope.
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The Speed Of Light
Albert Michelson: 1852 to 1931 The Failed Experiment
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Albert Michelson
Born in Poland: to U.S. in 1855.
U.S. Naval Academy in 1869. Professor of Physics at Academy
in 1877.
Conducted first experiments on the speed of light while at the Academy.
Professor of Physics, Case Western Univ. (Cleveland) in 1883.
Michelson-Morley experiments in 1887.
Nobel Prize for Physics in 2007. First American so honored in
Physics.
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The Speed of Light Through the Centuries
Light faster than thunder. Empedocles in 450 BCE Ancient Greece: finite. Aristotle, 4th c. BCE: infinite. Kepler, 1609: infinite Galileo, 1632: between two people on distant hills:
Between 10,000 km/hr. and infinity. Ole Roemer, Danish astronomer (17th century):
Analyzed data on eclipses of Jupiters moon, Io: Deduced speed: 190,000 km/sec.
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The Speed of Light Through the Centuries Continued
Michelson at age 27 at U.S. Naval Academy (1878): Speed of light is 299,910 (+/- 50) km/sec.
EXACT VALUE: 299.792.458 km/sec. The length of a meter is defined in this way.
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The Concept of Ether [Space matter]
Postulated by Aristotle: Fills every point in space.
Newton: endorsed the notion of an ether. Speed of light relative to ether.
Maxwell: equations showed EM waves traveled at c in a vacuum. Light is a wave. So what is waving??? Something in the ether.
Michelson-Morley experiments in 1887 showed ether did not affect light velocity. Hence, no ether? But the idea finally died with Einstein.
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Michelson-Morley Strategy
The Earths movement around the Sun and the Suns movement in space allow light measurements to be made against, with and across the ether.
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Experimental Concept The Michelson-Morley Experiment
Work with monochromatic light.
Split beam into perpendicular beams. One beam against the Ether. One beam across the Ether.
Reflect the beams back and recombine into one beam. If they arrive back at different
times, interference. Expectation: the cross
wind time will be less than the into the wind time.
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Michelson: Summary Measured the speed of light.
Proved that an ether did not
exist.
Signaled the beginning of a second (and third?) scientific revolution: relativity and quantum mechanics.
Michelson, Einstein and Morley [California Institute of Technology: 1931]
Einstein credited Michelson with a crucial experiment on the speed of light.
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Theory of Relativity
Albert Einstein: 1879 to 1955
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Einsteins Early Childhood and Education
Einstein at age 25
Born in Ulm, Germany. Family were non-observant Jews. In an out of several schools,
Einstein entered Zurich Polytechnic in 1896. Graduated in 1900 with a
teaching certificate. Could not find a teaching
position. Bern Patent Office: 1902 While at the patent office, he
continued education. Ph.D. in 1905.
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Einstein Escaped From Germany 1908: Prof. of Physics, Univ. of
Bern.
1914 to 1932: Director of the Kaiser Wilhelm Institute for Physics.
1933 Hitlers anti-Jewish programs prompted Einstein to flee to England, then the U.S.
Institute For Advanced Studies at Princeton until his death.
Einstein Sheds Pacifism Wings Takes Up Preparedness Sword
Cartoon In Brooklyn Eagle (1933)
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1905: A Year To Remember [Einsteins Age: 26]
Special Theory of Relativity.. Equivalence of Mass and Energy: E = mc2
The Photoelectric Effect: Light travels in quanta (packages of energy).
Brownian Motion ---------------------------------------------------------------- And in 1916: The General Theory of Relativity.
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Theory of Relativity Important to the History of Astronomy Special Theory:
The velocity of light is a constant Independent of the velocity of the source or observer. There is no ether.
Nothing can move faster than the speed of light.
General Theory:
Gravity is equivalent to the warping of space by celestial bodies The General Theory led Georges Lamaitre to propose a Big Bang origin for the
Universe.
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The Big Bang
The Origin of the Universe?
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Overview of the Big Bang The Concept: The Universe emerged from an extremely dense singularity. The initial expansion was very rapid. Since then, space has been steadily expanding carrying galaxies with it, like raisins in a rising loaf of bread. Gnixon: Wikipedia Project
Evidence of the Big Bang: 1) The Red Shift and Hubbles Law: 1929 2) Abundance of Elements:
Gamow, Alpher and Hoyle: 1948 to 1953
3) Cosmic Microwave Background Radiation: Penzias and Wilson:
1964
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The Original Idea: 1927 Georges Lemaitre, Roman Catholic Priest (1894 to 1966)
Lemaitre was ordained in 1923.
Educated at Cambridge and Harvard . Observatory at MIT from 1923 to
1925.
General Relativity implied a moment of creation: The primeval atom hypothesis is a cosmogenic hypothesis which pictures the present Universe as a result of the radioactive disintegration of an atom.
Lemaitre was rebuffed by Einstein.
In 1949, this hypothesis had legs and
was called the BIG BANG by Fred Hoyle.
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Time Line From the Big Bang Within the first second, a great expansion took place. * The universe cooled enough so subatomic particles could combine. * Within a few seconds, Hydrogen and Helium nuclei began to form. Stars began to form after about 300 million years.
Carbon and other heavy elements were formed in the stars and spread though out the universe by disintegrating stars.
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Recent History
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The Red Shift: Hubbles Law (1929) Edwin Hubble: American Astronomer (1889 to 1953)
Univ. of Chicago: law and astronomy Ph.D. thesis from Yerkes Observatory:
Photographic Investigations of Faint Nebulae.
100 inch Mt. Wilson Telescope Hubble discovered that our galaxy was
not the only galaxy.
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The Red Shift: Doppler Effect
When object moves away ,light wave-length gets longer and the color shifts down toward the red.
HUBBLES LAW (1929): Degree of Doppler shift (Red Shift) increases with increasing distance of galaxies from our own.
First observational support of the Big Bang theory.
The Universe behaves like it is exploding.
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George Gamow and Ralph Alpher
George Gamow: 1904 to 1968. Russian-born American physicist. Tried to leave USSR (with wife) in
1932. By kayak to Turkey: failed.
Succeeded in 1933: physics conference in Brussels.
Ralph Alpher: 1921 to 2007. In 2005, was awarded the National
Medal of Science, the highest scientific honor in the U.S.
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Hydrogen To Helium Atom Ratio: 10 to 1
The starting point was a hot soup of gamma rays, quarks and other elementary particles.
Between 1 msec and 1 sec, quarks combined to form protons and neutrons.
After a few seconds, nuclei could be formed: Hydrogen (H-1) + neutron = Deuterium (H-2) (H-2) + (H-1) = helium-3 (He-3). He-3 + He-3 = He-4 plus 2 (H-1)
Gamow and Alpher calculated that the hydrogen to helium atom ratio should be 10:1.
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Atom Ratios In the Universe
Hydrogen and helium account for 99.9% of all atoms in the universe: universe:
* Hydrogen: 10,000 * Helium: 1,000 * Oxygen: 6 * Carbon 1 * Everything else: < 1 The Sun converts 584 million tons of hydrogen
into 580 million tons of helium each second.
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The Formation of Carbon: 1953 Fred Hoyle: 1915 to 2001
Hoyle worked at the Cambridge Institute for Astronomy. Was a rebel; frequently took contrary positions. Rejected Darwinian evolution:
Coined the term Big Bang, but.
Rejected the Big Bang theory.
Seminal work: Synthesis of the Elements in the Stars (with other authors): 1957.
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Difficult to Form Carbon-12
It is very difficult to create Carbon by adding nucleons to Helium. The resulting nuclei are
very unstable.
Hoyle postulated (1953) that three Helium nuclei combine in a special sequence to give Carbon: He-4 + He-4 = Beryllium-8 Be-8 + He-4 = Carbon-12
For this to happen, the Carbon
nucleus had to have an (as yet) unknown energy level. Hoyle predicted its existence. It was found later at Cal Tech.
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The Heavier Elements?
As the hydrogen gradually disappeared, a star would cool.
Gravity would cause it to contract, generating heat.
Light nuclei would fuse into the heavy elements.
As the star got steadily smaller, it would eventually
explode. Contaminate the Universe with heavy stuff.
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Cosmic Microwave Background Radiation
Initially, the nuclear soup was very dense;
OPAQUE to light.
After 379,000 years, the universe cooled to about 3000oC. Atoms had formed and the universe became TRANSPARENT. Photons could travel unimpeded throughout the universe.
For the next 13 billion years, the universe continued to expand, and cool, and the
photons continued to fill all space. The residue of that event is the COSMIC MICROWAVE BACKGROUND
RADIATION.
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An Early Estimate of CMBR Alpher and Herman
In 1948 , Alpher and Robert Herman* calculated that when the Universe became TRANSPARENT the residual radiation moving about the Universe had a temperature of about 240 oC below zero.
As the Universe expanded the temperature of space would decrease further. Today: about 270oC below zero.
Herman, Gamow, Alpher
* Herman: 1914 to 1997, PhD Physics, Princeton.
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The Penzias- Wilson Experiment: 1964
Penzias and Wilson (at Bell Labs)
accidentally measured background radiation corresponding to a black body of about 270 C below zero.
They had been studying radio waves from space.
Could not get rid of the noise their radio telescopes were picking up.
This confirmed the predictions of Alpher
and Herman in 1948. A major confirmation of the Big Bang
theory.
Left: Cosmic Background Explorer (COBE 1989)
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Penzias and Wilson
Arno Penzias: 1933 to ? Fled (when a boy) from Nazi Germany in 1939. PhD in Physics from Columbia University.
Robert Wilson: 1936 to ? Educated at Cal Tech
Penzias and Wilson won Nobel Prize in 1978
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The Hubble Space Telescope Hubble Space Telescope
Deployed in low earth orbit in 1990. Light from a galaxy 13.2 billion years old was recently seen by the telescope (formed about 480 million years after the Big Bang).
Earliest galaxy so far seen.
Hubble: Reflecting Telescope Two parabolic mirrors.
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Summary: SoWhat Do (We Think) We Know?
Initially a soup of sub-atomic particles. A rapid expansion of the universe took place. For 379,000 years, gradual cooling: 3000oK. The Universe became transparent. 8 billion years: the Sun was formed. Carbon and other heavy elements were formed in the
stars. Interstellar space continued to cool to -270 C, today.
AGE OF THE EARTH: 4.54 +/- 1% BILLION YEARS AGE OF UNIVERSE: 13.73 +/- 0.17 BILLION YEARS
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What Are We Worried About?
The initial expansion: 100 doublings in 10-35 sec.?
Universe still expanding? Dark matter and dark energy? The boundary between the Universe and ? What came before t = zero?
A Brief History of AstronomyWhat Is So Special About Astronomy?Astronomy Also The Basis For Many Early Religions AgendaAgenda - ContinuedAgenda - ContinuedAstronomy in Ancient Babylon2nd and 3rd Millennia BCEANCIENT GREEK SCIENTISTS The Emergence of Real ScientistsAncient GreeksAristarchus: 310 to 230 BCEAristarchusRelative Distances: Sun and MoonEratosthenes: 275 to 195 BCEEratosthenes Circumference of the EarthHipparchus: 190 to 120 BCEThe First AuthorityAristotles Early LifeAristotleThe Pre-Eminent TeacherAristotles UniverseThe Earth Centered UniverseClaudius PtolemyLast Great Astronomer of Ancient TimesThe Almagest: The Greatest CompilationPtolemys UniversePtolemys ModelComplicated But AccuratePtolemic Model of the UniverseComparisonEarth-Centered vs. Sun-CenteredWhat Is the Parallax Effect?Ptolemys Ecumene MapMap Of the Known WorldThe Sun Centered Universe: Part 1Nicholas Copernicus: 1473 to 1543Nicholas Copernicus Renaissance Astronomer (1473 to 1543)Biblical References?SimplicityThe Driving Force For CopernicusThe Starting Point: Seven AxiomsCopernicuss Seminal WorkOn The Revolution Of the Heavenly Spheres: 1543The Phases of VenusModel ComparisonCopernicuss Work: Small (Initial) ImpactWhy???Needed: More Astronomical DataTycho BraheDanish Scientist (and Character)Initial Interest In AstronomyBrahe: Professional AstronomerLate Breaking NewsThe Sun Centered Universe: Part 2Johannes Kepler: 1571 to 1630 Johannes KeplerKeplers GoalHarmonize the Copernican Model With The BibleThe Five Platonic SolidsThe Cosmographic Mystery (1595)Second Attempt: 3-D Platonic SolidsSuccess At LastThe Third AttemptKeplers Three LawsKeplers Major PublicationsEpilogueThe Sun Centered Universe: Part 3Galileo Galilei: 1564 to 1642Galileo GalileiGalileo And the Church At the Beginning Galileos TelescopeRefracting Telescope: 1608Discovery of Moons of Jupiter: 1610The Phases of VenusGalileo And The Church: At the EndDialogue Concerning the Two Chief World Systems: 1632Galileo Facing the InquisitionComparisonEarth-Centered vs. Sun-CenteredAnd In Addition.The Sun Centered Universe: Part 4Isaac Newton: 1642 to 1727Newtons Early LifeNewtons College YearsNewtons TheologyPrincipia Mathematica (1687)Considered the Most Important Scientific Work Ever PublishedThree Laws of MotionAnd the Law of GravityA Thought ExperimentNewtons Great SynthesisNewton Developed the Reflecting TelescopeMost Optical Telescopes are Reflecting Isaac Newtons TombWestminster AbbeyNewton: SummaryThe Speed Of LightAlbert MichelsonThe Speed of Light Through the CenturiesThe Speed of Light Through the Centuries ContinuedThe Concept of Ether[Space matter]Michelson-Morley Strategy Experimental ConceptThe Michelson-Morley ExperimentMichelson: SummaryTheory of RelativityEinsteins Early Childhood and EducationEinstein Escaped From Germany1905: A Year To Remember[Einsteins Age: 26]Theory of RelativityImportant to the History of AstronomyThe Big BangOverview of the Big BangThe Original Idea: 1927Georges Lemaitre, Roman Catholic Priest (1894 to 1966)Time Line From the Big BangRecent HistoryThe Red Shift: Hubbles Law (1929)Edwin Hubble: American Astronomer (1889 to 1953)The Red Shift: Doppler EffectGeorge Gamow and Ralph AlpherHydrogen To Helium Atom Ratio: 10 to 1Atom Ratios In the UniverseThe Formation of Carbon: 1953Fred Hoyle: 1915 to 2001Difficult to Form Carbon-12The Heavier Elements?Cosmic Microwave Background RadiationAn Early Estimate of CMBRAlpher and HermanThe Penzias- Wilson Experiment: 1964Penzias and WilsonThe Hubble Space TelescopeSummary:SoWhat Do (We Think) We Know?What Are We Worried About?