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Giants%20of%20Science

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Giants of Science Our understanding of the Universe developed slowly over centuries. Most of the breakthroughs came through careful study of the positions and motions ... – PowerPoint PPT presentation

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Title: Giants%20of%20Science


1
Giants of Science
  • Our understanding of the Universe developed
    slowly over centuries.
  • Most of the breakthroughs came through careful
    study of the positions and motions of the Sun,
    Moon, planets and stars.
  • The careful analysis of these large sets of
    measurements and the use of mathematics led to
    the creation of physical models that were used to
    make predictions on the future position of
    planets, Sun, Moon, etc.
  • When these models failed to explain observed
    phenomena they were abandoned or modified.
    (eventually!)
  • The following is a short summary of several
    notable philosopher/scientists and their
    contributions.

2
Aristotle (c. 384 - 322 B.C.)
  • Taught that the Earth was the unmoving center of
    the Universe.
  • Taught that the Earth was spherical
  • Lunar eclipses due to Earths shadow are always
    round.
  • Different stars are visible the farther South you
    go.

Two examples Aristotle used to prove the Earth is
a sphere.
3
Aristarchus (c. 310 - 230 B.C.)
  • Used geometry to measure the size and distance of
    the Moon Sun. Moon results were good. Sun
    results were bad.
  • Showed that the Sun was bigger than Earth and
    much farther than the Moon.
  • Taught that the Earth went around the Sun. (Not
    much proof and not widely accepted).

4
Eratosthenes (c. 276 - 196 B.C.)
  • Used shadows and geometry to measure the size of
    the Earth!
  • On Summer Solstice Sun was directly overhead in
    Syene, Egypt.(no shadows at noon)
  • On the same day there were shadows at noon in
    Alexandria, Egypt.
  • Using shadow length and distance between Syene
    and Alexandria and geometry found Earths
    circumference.
  • His value probably around 42,000 kilometers.
  • Actual value about 40,000 km.

5
Ptolemy (100 - 170 A.D.)
  • Last of the great Greek astronomers
  • Used discoveries and ideas of others plus his own
    observations to develop a model of the Universe.
  • His work survived from Arabic translation of
    Almagest (means the greatest compilation)
  • His model of the Universe was undisputed for
    almost 1,400 years!

6
Ptolemys Model of the Universe
  • A geocentric (Earth-centric) model
  • All the stars, planets, Sun and Moon moved around
    the Earth
  • Motions were perfectly circular and perfectly
    uniform
  • Fastest objects were closest to Earth.

7
Retrograde Motion
  • It was well known that the planets occasionally
    appear to stop and change direction in orbit, but
    why?
  • It is an illusion based on the motion of the
    Earth and the planet.
  • Ptolemy explained this effect without moving
    Earth. He used epicycles instead.

8
Epicycles
  • In a Ptolemys model these are small circles to
    which the planets are fixed.
  • These epicycles are attached to the larger
    circles which move around Earth.
  • Ptolemy adjusted the sizes of the circles and
    their rate of motion to replicate the motion of
    the planets including retrograde motion.
  • Planets maintained perfect uniform, circular
    motion.

The large circle is called a deferent the smaller
circle is an epicycle.
9
Nicholas Copernicus (1473 - 1543)
  • Recognized that the predicted planetary positions
    using Ptolemys model were not always very
    accurate.
  • Tried to fix Ptolemys model but eventually
    abandoned it.
  • Returned to the idea of Aristarchus 1800 years
    before.
  • Created a heliocentric (Sun-centric) model of the
    Universe.
  • Made retrograde motion easier to explain.
  • Distances of the planets from the Sun could be
    determined using geometry

Finding the distance of the planets from the Sun
using Copernicus heliocentric model.
10
Problems with Copernicus Model
  • Copernicus maintained that all planets move in
    perfectly circular orbits at constant rates (not
    correct).
  • Didnt really do much better than Ptolemy at
    predicting planetary positions. He actually
    needed to keep epicycles to make the model work
    out right.
  • Several objections
  • We dont feel the Earth moving. Went against
    common-sense. Went against philosophical
    (Aristotle) and religious beliefs.
  • Why dont we see stellar parallax?
  • For these reasons it was not widely accepted at
    first

11
Stellar Parallax
  • Parallax - the shift in an objects position
    caused by the observers motion.
  • Since the Earth moves we should see parallax but
    we dont.
  • No one realized that stars are very far away so
    parallax is a very small effect.
  • Only with powerful telescopes can they be
    observed. 300 years later the first parallax was
    observed.
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