© 2006 pearson prentice hall lecture outlines powerpoint chapter 21 earth science 11e...
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© 2006 Pearson Prentice Hall
Lecture Outlines PowerPoint
Chapter 21
Earth Science 11e
Tarbuck/LutgensModified by S. Koziol 10-3-2010
For educational purposes only
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Earth Science, 11e
Origin of Modern AstronomyChapter 21
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Early history of astronomy
Ancient Greeks • Used philosophical arguments to explain
natural phenomena• Also used some observational data• Most ancient Greeks held a geocentric
(Earth-centered) view of the universe• "Earth-centered" view
• Earth was a motionless sphere at the center of the universe
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Early history of astronomy
Ancient Greeks • Most ancient Greeks held a geocentric
(Earth-centered) view of the universe• "Earth-centered" view
• Stars were on the celestial sphere • Transparent, hollow sphere• Celestial sphere turns daily around Earth
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Early history of astronomy
Ancient Greeks • Most ancient Greeks held a geocentric
(Earth-centered) view of the universe• Seven heavenly bodies (planetai)
• Changed position in sky • The seven wanderers included the
• Sun• Moon• Mercury through Saturn (excluding Earth)
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Early history of astronomy Ancient Greeks
• Aristarchus (312-230 B.C.) was the first Greek to profess a Sun-centered, or heliocentric, universe
• Planets exhibit an apparent westward drift • Called retrograde motion• Occurs as Earth, with its faster orbital
speed, overtakes another planet
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Early history of astronomy Ancient Greeks (continued)
• Aristotle (384-322 B.C.) concluded that Earth is spherical
• Eratosthenes (276-194 B.C.) established the size of the Earth
• Hipparchus (second century B.C.) was best known for his star catalog.
• Anaxagoras (fifth century B.C.) reasoned that the Moon shines by reflected sunlight, and because it is a sphere, only ½ is illuminated at once.
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Early history of astronomy
Ancient Greeks• Ptolemaic system
• A.D. 141• Geocentric model• To explain retrograde motion, Ptolemy used two
motions for the planets• Large orbital circles, called deferents, and• Small circles, called epicycles
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The universe according to Ptolemy, second century A.D.
Figure 21.4 A
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Retrograde motion as explained by Ptolemy
Figure 21.4 B
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Retrograde Motion
Retrograde motion is the movement of a planet in an opposing direction across the sky.
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Mars Retrograde
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Quiz Break
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Early history of astronomy
Birth of modern astronomy • 1500s and 1600s• Five noted scientists
• Nicolaus Copernicus (1473-1543)• Concluded Earth was a planet• Constructed a model of the solar system
that put the Sun at the center, but he used circular orbits for the planets
• Ushered out old astronomy
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Early history of astronomy
Birth of modern astronomy • Five noted scientists
• Tycho Brahe (1546-1601) • Precise observer• Tried to find stellar parallax – the apparent
shift in a star's position due to the revolution of Earth
• Did not believe in the Copernican system because he was unable to observe stellar parallax
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Early history of astronomy
Birth of modern astronomy • Five noted scientists
• Johannes Kepler (1571-1630) • Ushered in new astronomy• Planets revolve around the Sun• Three laws of planetary motion
• Orbits of the planets are elliptical• Planets revolve around the Sun at
varying speed
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Kepler’s law of equal areas
Figure 21.10
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Early history of astronomy
Birth of modern astronomy • Five noted scientists
• Johannes Kepler (1571-1630) • Three laws of planetary motion
• There is a proportional relation between a planet's orbital period and its distance to the Sun (measured in astronomical units (AU’s) – one AU averages about 150 million kilometers, or 93 million miles)
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Early history of astronomy
Birth of modern astronomy • Five noted scientists
• Galileo Galilei (1564-1642) • Supported Copernican theory• Used experimental data• Constructed an astronomical telescope in
1609• Four large moons of Jupiter• Planets appeared as disks• Phases of Venus• Features on the Moon• Sunspots
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Early history of astronomy
Birth of modern astronomy • Five noted scientists
• Sir Isaac Newton (1643-1727)• Law of universal gravitation• Proved that the force of gravity, combined
with the tendency of a planet to remain in straight-line motion, results in the elliptical orbits discovered by Kepler
“Can you show Us what gravity
Looks like Mr. Koziol?”
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Constellations Configuration of stars named in honor of
mythological characters or great heroesToday 88 constellations are recognizedConstellations divide the sky into units, like
state boundaries in the United StatesThe brightest stars in a constellation are
identified in order of their brightness by the letters of the Greek alphabet – alpha, beta, and so on
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Quiz Break
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Positions in the sky
Stars appear to be fixed on a spherical shell (the celestial sphere) that surrounds Earth
Equatorial system of location • A coordinate system that divides the
celestial sphere• Similar to the latitude-longitude system that
is used on Earth's surface• Two locational components
• Declination – the angular distance north or south of the celestial equator
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Positions in the sky
Equatorial system of location• Two locational components
• Right ascension – the angular distance measured eastward along the celestial equator from the position of the vernal equinox
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Astronomical coordinate system on the celestial sphere
Figure 21.16
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Earth motions
Two primary motions • Rotation
• Turning, or spinning, of a body on its axis• Two measurements for rotation
• Mean solar day – the time interval from one noon to the next, about 24 hours
• Sidereal day – the time it takes for Earth to make one complete rotation (360º) with respect to a star other than the Sun – 23 hours, 56 minutes, 4 seconds
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The difference between a solar day and a sidereal day
Figure 21.19
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Earth motions
Two primary motions • Revolution
• The motion of a body, such as a planet or moon, along a path around some point in space
• Earth's orbit is elliptical• Earth is closest to the Sun (perihelion) in
January• Earth is farthest from the Sun (aphelion) in
July• The plane of the ecliptic is an imaginary plane
that connects Earth's orbit with the celestial sphere
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Earth motions
Other Earth motions• Precession
• Very slow Earth movement• Direction in which Earth's axis points
continually changes
• Movement with the solar system in the direction of the star Vega
• Revolution with the Sun around the galaxy• Movement with the galaxy within the
universe
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Precession of Earth
Figure 21.22
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Quiz Break
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Motions of the Earth-Moon system
Phases of the Moon• When viewed from above the North Pole,
the Moon orbits Earth in a counterclockwise (eastward) direction
• The relative positions of the Sun, Earth, and Moon constantly change
• Lunar phases are a consequence of the motion of the Moon and the sunlight that is reflected from its surface
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Phases of the Moon
Figure 21.23
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Motions of the Earth-Moon system
Lunar motions • Earth-Moon
• Synodic month • Cycle of the phases• Takes 29 1/2 days
• Sidereal month • True period of the Moon's revolution around
Earth• Takes 27 1/3 days
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The difference between the sidereal month and the synodic month
Figure 21.24
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Motions of the Earth-Moon system
Lunar motions • Earth-Moon
• The difference of two days between the synodic and sidereal cycles is due to the Earth-Moon system also moving in an orbit around the Sun
• Moon's period of rotation about its axis and its revolution around Earth are the same, 27 1/3 days
• Causes the same lunar hemisphere to always face Earth
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Motions of the Earth-Moon system
Eclipses • Simply shadow effects that were first understood
by the early Greeks • Two types of eclipses
• Solar eclipse • Moon moves in a line directly between Earth
and the Sun• Can only occur during the new-Moon phase
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Solar eclipse
Figure 21.25
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Motions of the Earth-Moon system
Eclipses • Two types of eclipses
• Lunar eclipse • Moon moves within the shadow of Earth• Only occurs during the full-Moon phase• For any eclipse to take place, the Moon
must be in the plane of the ecliptic at the time of new- or full-Moon
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Motions of the Earth-Moon system
Eclipses • Two types of eclipses
• Lunar eclipse • Because the Moon's orbit is inclined about 5
degrees to the plane of the ecliptic, during most of the times of new- and full-Moon the Moon is above or below the plane, and no eclipse can occur
• The usual number of eclipses is four per year
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Lunar eclipse
Figure 21.26
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Quiz Break
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Theories, Facts, Laws, Beliefs, and Hypotheses ? •P2= a3
•The Earth is an oblate spheroid.
•More babies are born, and crime takes place, during the time of the full Moon.
•The Earth, and our solar system are older than 10,000 years.
•Newton’s Laws of motion explain why orbits are ellipses.
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End of Chapter 21