introduction to the solar system
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Introduction to the Solar System. The bright star Antares embedded in dust and gases. The Formation of the Solar System. Through the course of history there have been many theories about the solar system - PowerPoint PPT PresentationTRANSCRIPT
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Introduction to theSolar System
The bright star Antares embedded in dust and gases
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The Formation of the Solar The Formation of the Solar SystemSystem
Through the course of history there have been many theories about the solar system
Early Greeks thought the Earth was the center of the solar system, with the stars, sun and moon revolving around the Earth – the Geocentric Model
In 1543, a scientist proposed that the sun was the center of the solar system and the planets revolved around it – the Heliocentric Model
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Origin of the Solar SystemOrigin of the Solar System
Modern astronomers believe that the sun and planets condensed out of a nebula or large cloud of gas and dust.
This idea is named the This idea is named the Nebular Hypothesis. It . It was first presented by the German philosopher was first presented by the German philosopher Immanuel Kant in the late 1700’s. Immanuel Kant in the late 1700’s.
Such clouds have been observed around stars Such clouds have been observed around stars other than our sun (e.g., Beta Pictoris)other than our sun (e.g., Beta Pictoris)
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The Formation of the Solar SystemThe Formation of the Solar System
Our solar system began as a rotating gas cloud or nebula that collapsed toward its center under the influence of gravity.
A condensation formed at the center, which is called a protostar.
A flattened disk of matter surrounded the protostar, which began to shine and become a star, our sun.
The condensing and contracting caused the cloud to begin to rotate, as it rotated the center became dense and the temperature reached about 10 million K
The extremely high temperatures allowed for a process called nuclear fusion to occur
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The Formation of our Solar SystemThe Formation of our Solar System
The rising temperature from the sun removed the gas from the inner regions, leaving dust and larger debris
•Inner planets formed from solid debris
•Outer planets retained original gases
Planets established dominance in their regions of the solar system.
After almost all of the remaining gas, dust, and small debris was collected by the larger objects, the solar system took on the form we recognize today.
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Other Star Systems FormingOther Star Systems Forming
•We can look at young star systems developing today.
•The planets orbiting these stars are formed from the surrounding disks of gas and dust, called protoplanetary disks or proplyds.
Proplyd in the Orion Nebula
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Solar System CompositeSolar System Composite
http://www2.jpl.nasa.gov/galileo/sepo/education/nav/ss2.gif
1. Mercury
2. Venus
3. Earth
4. Mars
5. Jupiter
6. Saturn
7. Uranus
8. Neptune
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Common Properties of Common Properties of Planet Orbits in Our Planet Orbits in Our Solar SystemSolar System
As viewed from above, all of the planets orbit the Sun in a counterclockwise direction.
The planets orbit in nearly the same plane (ecliptic). All planets except Pluto have an orbital inclination of less than 7°.
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Inner Solar SystemInner Solar System
http://www.nineplanets.org/overview.html
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Outer Solar SystemOuter Solar System
http://www.nineplanets.org/overview.html
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Pluto’s Odd OrbitPluto’s Odd Orbit
Pluto’s orbit, or Pluto’s orbit, or plane of revolution, plane of revolution, is tilted by 17is tilted by 17° to ° to the general solar the general solar system orbits system orbits (ecliptic)(ecliptic)
Pluto can also cut Pluto can also cut across Neptune’s across Neptune’s orbit (but they can orbit (but they can never collide)never collide)
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Ecliptic PlaneEcliptic Plane
Plane of the Ecliptic: The orbits of the planets are mostly in the same plane.
This plane is called the ecliptic and is defined by This plane is called the ecliptic and is defined by the plane of the earth’s orbit. the plane of the earth’s orbit.
The exception is Pluto, which is tilted quite a bit The exception is Pluto, which is tilted quite a bit in comparison to the rest of the planets.in comparison to the rest of the planets.
The ecliptic plane is a remnant of the original, rotating nebular disk that formed the sun and planets
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Ecliptic: Artist’s ViewEcliptic: Artist’s View
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MotionsMotions
Directions of Motion: The planets orbit in a counterclockwise direction around the sun direction around the sun (when looking down upon the solar system (when looking down upon the solar system from the sun’s north pole). from the sun’s north pole).
All the planets, except for Venus, Uranus, and Pluto, rotate in the same direction as their orbits.
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OrbitsOrbits
The planets nearest to the Sun (Mercury, The planets nearest to the Sun (Mercury, Venus, Earth, and Mars) are relatively Venus, Earth, and Mars) are relatively close together, while those farther away close together, while those farther away (Jupiter, Saturn, Uranus, and Neptune) are (Jupiter, Saturn, Uranus, and Neptune) are more spread out.more spread out.
Most of the planets are in nearly circular Most of the planets are in nearly circular orbits. orbits.
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Solar System Orbits (AU)Solar System Orbits (AU) The astronomical unit
(AU) is useful in measuring distances in the solar system
One AU equals the average earth-to-sun distance of 93 million miles
AU distances allow direct AU distances allow direct comparison to the earth comparison to the earth which is equal to 1.0which is equal to 1.0
PlanetPlanet Distance in AUDistance in AU
MercuryMercury 0.40.4
VenusVenus 0.70.7
EarthEarth 1.01.0
MarsMars 1.51.5
JupiterJupiter 5.25.2
SaturnSaturn 9.59.5
UranusUranus 19.219.2
NeptuneNeptune 3030
PlutoPluto 39.539.5
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Revolutions of the Planets*Revolutions of the Planets*
Mercury 88 daysMercury 88 days Venus 224.7 daysVenus 224.7 days Earth 365.25 daysEarth 365.25 days
Mars 1.88 yearsMars 1.88 years Jupiter 11.86 yearsJupiter 11.86 years Saturn 29.5 yearsSaturn 29.5 years Uranus 84 yearsUranus 84 years Neptune 164.79 yearsNeptune 164.79 years Pluto 248.32 yearsPluto 248.32 years
*Earth days and years*Earth days and years
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DiametersDiameters
PlanetPlanet Diameter (Earth = 1)Diameter (Earth = 1)
MercuryMercury 0.380.38
VenusVenus 0.950.95
EarthEarth 1.01.0
MarsMars 0.530.53
JupiterJupiter 11.2111.21
SaturnSaturn 9.459.45
UranusUranus 4.014.01
NeptuneNeptune 3.883.88
PlutoPluto 0.180.18
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MassesMasses
PlanetPlanet Mass (Earth = 1)Mass (Earth = 1)
MercuryMercury 0.060.06
VenusVenus 0.810.81
EarthEarth 1.01.0
MarsMars 0.110.11
JupiterJupiter 317.94317.94
SaturnSaturn 95.1895.18
UranusUranus 14.5314.53
NeptuneNeptune 17.1417.14
PlutoPluto 0.0020.002
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Average Density (kg/mAverage Density (kg/m33))
PlanetPlanet Average Density (kg/mAverage Density (kg/m33))
MercuryMercury 54305430
VenusVenus 52505250
EarthEarth 55205520
MarsMars 39503950
JupiterJupiter 13301330
SaturnSaturn 690690
UranusUranus 12901290
NeptuneNeptune 16401640
PlutoPluto 20302030
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Rotational PeriodRotational PeriodPlanet Days (Earth 1)
Mercury 58.6462
Venus 243.0187
Earth 0.99727
Mars 1.025957
Jupiter 0.41354
Saturn 0.42637
Uranus 0.71806
Neptune 0.67125
Pluto 6.3872
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Average TemperatureAverage TemperaturePlanet Ave Temp (°F)
Mercury 354°
Venus 867°
Earth 45°
Mars -81°
Jupiter -186°
Saturn -202°
Uranus -337°
Neptune -364°
Pluto -380°
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Average Temperature (Earth = 1)
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Sizes of the PlanetsSizes of the Planets In mass, the sun represent 99% of
the solar system The smallest planet, Mercury, has a The smallest planet, Mercury, has a
diameter of 3031 midiameter of 3031 mi Pluto, the previous smallest planet, Pluto, the previous smallest planet,
has a diameter of 1457 mihas a diameter of 1457 mi The largest planet, Jupiter, has a The largest planet, Jupiter, has a
diameter of 88,700 midiameter of 88,700 mi Earth = 7926 miEarth = 7926 mi Ganymede, the largest moon of Ganymede, the largest moon of
Jupiter, is larger than Mercury, yet Jupiter, is larger than Mercury, yet Ganymede is not considered a Ganymede is not considered a planet because it revolves around planet because it revolves around JupiterJupiter
http://www.nineplanets.org/datamax.html
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Two Basic Groups of PlanetsTwo Basic Groups of Planets
TERRESTRIAL (earth-like)TERRESTRIAL (earth-like)
Small size, low MassSmall size, low Mass
Higher densityHigher density
Mostly rockMostly rock
Mercury, Venus, Earth, MarsMercury, Venus, Earth, Mars
JOVIAN (Jupiter-like)JOVIAN (Jupiter-like)
Large size, massiveLarge size, massive
Low densityLow density
Mostly gasMostly gas
Jupiter, Saturn, Uranus, Jupiter, Saturn, Uranus, NeptuneNeptune
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ClassificationsClassifications
Terrestrial or Rocky Terrestrial or Rocky planetsplanets—Composed —Composed of rock and metal: of rock and metal: Mercury, Venus, Earth, Mercury, Venus, Earth, MarsMars
Jovian or Gas Jovian or Gas planetsplanets—Composed —Composed primarily of the gases primarily of the gases hydrogen and helium: hydrogen and helium: Jupiter, Saturn, Jupiter, Saturn, Uranus, NeptuneUranus, Neptune
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Classification, cont.Classification, cont.
Small PlanetsSmall Planets——Diameters less than Diameters less than 13,000 km: Mercury, 13,000 km: Mercury, Venus, Earth, MarsVenus, Earth, Mars
Giant Planets (Gas Giant Planets (Gas Giants)Giants)—Diameters —Diameters greater than 48,000 greater than 48,000 km: Jupiter, Saturn, km: Jupiter, Saturn, Uranus, NeptuneUranus, Neptune
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Classification, cont.Classification, cont.
Inner PlanetsInner Planets——Mercury, Venus, Mercury, Venus, Earth, MarsEarth, Mars
Outer PlanetsOuter Planets——Jupiter, Saturn, Jupiter, Saturn, Uranus, NeptuneUranus, Neptune
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Classification, cont.Classification, cont.
Inferior—Closer to the sun than earth: Mercury and Venus
Superior—Farther from the sun than earth: Mars, Jupiter, Saturn, Uranus, Neptune
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Classification, cont.Classification, cont.
Classical—Known since prehistoric times, visible to the unaided eye: Mercury, Venus, Mars, Jupiter, Saturn
Modern—Discovered in modern times, visible only with telescopes: Uranus, Neptune, (Pluto)
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Classification TableClassification Table
PlanetPlanet Rocky or Rocky or Gas?Gas?
Small or Small or Giant?Giant?
Inner or Inner or Outer?Outer?
Inferior or Inferior or Superior?Superior?
Classical Classical or or Modern?Modern?
MercuryMercury RR SS II II CC
VenusVenus RR SS II II CC
EarthEarth RR SS II N/AN/A ??
MarsMars RR SS II SS CC
JupiterJupiter GG GG OO SS CC
SaturnSaturn GG GG OO SS CC
UranusUranus GG GG OO SS MM
NeptuneNeptune GG GG OO SS MM
PlutoPluto ?? SS OO SS MM
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New Solar System (> 2006)New Solar System (> 2006) PlanetsPlanets::
MercuryMercury VenusVenus EarthEarth MarsMars
Ceres (dwarf)Ceres (dwarf)
JupiterJupiter SaturnSaturn UranusUranus NeptuneNeptune
Pluto (dwarf)Pluto (dwarf) Eris (dwarf)Eris (dwarf) Makemake (dwarf)Makemake (dwarf)
Eris
•Two Categories: Planets and Dwarf Planets (dwarfs beyond Neptune are “Plutoids”)
•Today’s astronomers recognize only 8 planets
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Solar System ModelSolar System Model If the sun were an orange, the earth would be a If the sun were an orange, the earth would be a
grain of sand thirty feet away.grain of sand thirty feet away. Jupiter would be a cherry pit located one block Jupiter would be a cherry pit located one block
from the sun. from the sun. Saturn would be another cherry pit located one Saturn would be another cherry pit located one
block from Jupiter. block from Jupiter. Pluto would be a grain of sand 10 blocks from Pluto would be a grain of sand 10 blocks from
the sun. the sun. The nearest star to our sun (Alpha Centauri) The nearest star to our sun (Alpha Centauri)
would be represented as another orange 2000 would be represented as another orange 2000 miles from the sun. miles from the sun.
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Planet NamesPlanet Names
The planets have been given the Roman The planets have been given the Roman names of gods from ancient Greece.names of gods from ancient Greece.
RomanRomanMercury, Venus, Mars, Jupiter, SaturnMercury, Venus, Mars, Jupiter, Saturn
GreekGreekHermes, Aphrodite, Ares, ZeusHermes, Aphrodite, Ares, Zeus,, Kronos Kronos
The modern planets, Uranus, Neptune, and The modern planets, Uranus, Neptune, and Pluto, are also Roman godsPluto, are also Roman gods
Jupiter from Fantasia (Disney)