1. solar system overview - uh institute for...
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Astronomy 241: Foundations of Astrophysics I
1. Solar System Overview
0. Units and calculations
1. Constituents of the Solar System
2. Motions: Rotation and Revolution
3. Formation Scenario
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Units
Text uses MKS units (meter, kilo-gram, second); e.g.
Astronomers also use non-standard units:
AU ≃ 1.496 × 1011 m (“average” Earth-Sun distance)
M⊙ ≃ 1.989 × 1030 kg (Sun’s mass)
yr ≃ 3.156 × 107 s (Earth’s orbital period)
G ≃ 6.674 × 10-11 m3 kg-1 s-2 (gravitational constant).
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Order of Magnitude & Dimensional Analysis: An Example
Given that Jupiter’s average density is slightly greater than water, estimate the orbital period of a satellite circling just above the planet.
ρJ ~ 1000 kg m-3 G ~ 10-10 m3 kg-1 s-2
GρJ ~ 10-7 s-2
(GρJ )-1/2 ~ 103.5 s ~ 1 hour
(More accurate calculation gives 2.9 hours.)
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Precision
For most calculations, uncertainties of ~1% are OK. This requires two or three significant figures.
X = a × 10be.g., let
magnitude of a 10% uncertainty 1% uncertainty
|a| ≥ 5 1 signif. figure 2 signif. figures
|a| < 5 2 signif. figures 3 signif. figures
• Don’t exaggerate the precision of your results!
• Remember some operations magnify uncertainty; e.g., if X has 1% uncertainty, X3 has 3% uncertainty.
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100 AU
5 AU
S
20,000 AU
Overview: Structure
Inner system: terrestrial planets, asteroids.
Outer system: jovian planets and moons, “KBOs”.
Oort Cloud: comets.
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Overview: Two Types of Planets
Terrestrial Planets Jovian Planets
small size & mass large size & mass
high density low density
rock & metal
solid surface
few moons, no rings
close to sun, warm
H, He, H2O, CH4, NH3, . . .
no solid surface
many moons & rings
far from sun, cold
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A Brief Tour: The Sun
• Over 99.9% of solar system’s mass
• Largely H and He
• Self-regulating nuclear furnace
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A Brief Tour: Mercury
• Large iron core and desolate rock crust
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A Brief Tour: Venus
• Earth’s “twisted sister”
• Extreme greenhouse effect
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A Brief Tour: Earth
• Liquid surface water!
• Complex and dynamic atmosphere
• Remarkably large moon
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A Brief Tour: Mars
• Cold & dry, but water flowed long ago
• Complex and interesting topography
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A Brief Tour: Jupiter
• Largest gas-giant planet — no solid surface!
• Many different moons, some as big as planets
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A Brief Tour: Saturn
• Spectacular ring system
• Titan, a moon with atmosphere
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A Brief Tour: Uranus
• Water and other hydrogen molecules
• Extreme axis tilt
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A Brief Tour: Neptune
• Most distant major planet
• Large moon with “backwards” orbit
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A Brief Tour: Pluto and Other “Icy Dwarfs”
• Tiny compared to major planets
• Ices of H2O & other H-rich compounds
• Many still to be discovered!
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A Brief Tour: Small Objects
Asteroids:• small (< 1000 km)• rock & metal (?)• inner system
Dust & Debris:• meteoroid streams
on cometary orbits• zodiacal dust
Dwarf planets:• small (~ 1000 km)• ice & rock• Kuiper belt
Comets:• small (~ 10 km)• ice & rock• Kuiper belt & Oort cloud
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A Brief Tour: The Solar Wind
Spectacular CMEs and proton showers, LASCO C3 (Apr. 1-27, 2001)
• Outflow of charged particles
Earth’s Magnetosphere • Speeds of 300 to 800 km s-1
• Interacts with planetary magnetic fields
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Diurnal Motion
Due to rotation of Earth.
Sidereal Day:86,162 s (≃ 23h56m)
Solar Day:86,400 s (= 24h)
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Planetary Motion
The Sun & Moon always move west-to-east relative tothe stars.
The planets usually move west-to-east as well, but some-times they move the other way!
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Planetary Motion: Mars Goes Retrograde
All planets undergo retrograde motion.
Mars at Opposition
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Copernican model
1. Heavenly motions are uniform, eternal, and circular or compounded of several circles.
2. The center of the universe is near the Sun.
3. Around the Sun, in order, are Mercury, Venus, Earth and Moon, Mars, Jupiter, Saturn, and the fixed stars.
4. The Earth has three motions: daily rotation, annual revolution, and annual tilting of its axis.
5. Retrograde motion of the planets is explained by the Earth's motion.
6. The distance from the Earth to the Sun is small compared to the distance to the stars.
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Revolution and Rotation
All planets and most moons revolve in the same direction and stay close to the same plane.
The sun and most planets also rotate in that direction.
This provides a clue to the Solar System’s formation.
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Formation Scenario
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Collapse: From Cloud to Disk
1. A gas cloud starts to collapse due to its own gravity.
2. It spins faster and heats up as it collapses.
3. Vertical motions die out, leaving a spinning disk.
4. The solar system still spins in the same direction.
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Collapse: Angular Momentum and Energy
1. Angular momentum conservation causes the cloud to spin faster as it contracts:
(rotation speed)(cloud diameter)
1∝
Collapse stops when the cloud spins at orbital speed.
2. Energy conservation causes the cloud to heat up:
potential energy
kinetic energy
thermal energy
gravitational collapse gas shocks
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Planet Formation: The Frost Line
The disk was hot at the center, and cool further out.
Inside the frost line, only rocks & metals can condense.
Outside, hydrogen compounds can also condense.
The frost line was ~4 AU from the Sun — between the present orbits of Mars and Jupiter.
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Planet Formation: Terrestrial Planets
1. Within the frost line, bits of rock and metal clumped together to make planetesimals.
2. As the planetesimals grew, they became large enough to attract each other.
3. Finally, only a few planets were left.
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Planet Formation: Jovian Planets
1. Outside the frost line, icy planetesimals were very common, forming planets about 10 times the mass of Earth.
2. These planets attracted nearby gas, building up giant planets composed mostly of H and He.
3. The disks around these planets produced moons.
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