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The Solar System. A journey through our neighboring planets. Learning Objectives. Analyze the size and scale of our solar system. Explain events in the formation of the solar system. Compare the terrestrial (rocky) planets to the Jovian (gaseous) planets. - PowerPoint PPT Presentation
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The Solar SystemA journey through our neighboring planets
Learning ObjectivesAnalyze the size and scale of our solar
system.Explain events in the formation of the solar
system.Compare the terrestrial (rocky) planets to
the Jovian (gaseous) planets.Distinguish key characteristics of the
planets and objects in our solar system.
Scale of the Solar SystemThe size of the
solar system is HUMONGOUS!
Yet our solar system is a tiny speck when compared to stars in our galaxy, which is only one of billions.
Scale of the PlanetsThe Sun makes up 99.86% of
the entire mass of the entire solar system.
Figure 2 from page 646 shows the scale size of the planets. Look at how tiny our planet is compared to the gas giants and especially the sun!
The NEBULAR THEORYThe NEBULAR
THEORY provides an explanation of how about 5 billion years ago our solar system was formed.
See figure 3, page 647.
ASTRONOMICAL UnitsAstronomers use
astronomical units, AU, to measure how far planets are from each other.
AU is the distance from the Earth to the sun - a whopping 150,000,000km
It would take 17 years to travel this far in a jet going the speed of a bullet 1,000km/hr!
The Sun: OUR STAR The sun is the
biggest, brightest, and hottest object in the solar system.
Diameter= 1.4 million km
Made of about 70% hydrogen and 28% helium.
Could hold a million Earth’s inside.
Mercury Mercury is solid and
is covered with craters.
Diameter= 4878km Mercury has almost
no atmosphere. Mercury is the
smallest true planet.
Venus Venus is the sixth
largest planet. It’s about three-fourths the size of earth.
Diameter= 12,104km The surface is rocky
and very hot. The 97% CO2 atmosphere completely hides the surface and traps the heat.
Earth Earth is the fifth largest planet and the third from
the sun. A terrestrial planet with an atmosphere made of
71% Nitrogen and 28% Oxygen Diameter= 12,756km Liquid covers 71 percent of the Earth’s surface. The Earth has one moon.
Moon: Luna
Mars Mars is the fourth
rocky planet from the sun.
Diameter= 6,794km Mars has a thin
atmosphere that contains mostly carbon dioxide.
Mars has two small moons.
Moons of Mars
Phobos
Deimos
Let’s ReviewHow was the solar system formed?What is an astronomical unit and why is it
used?What are the name of the terrestrial
planets?Which planets have no moons?
Jupiter: The Giant PlanetThe largest of the
planets. Can hold 1,300 and the rest of the planets.
Diameter= 143,884kmHas hydrogen-helium
atmosphere
Jupiter’s Red Spot The Great Red Spot,
a huge storm of swirling gas that has lasted for hundreds of years and is the size of 3 Earths.
Jupiter does not have a solid surface. The planet is a ball of liquid surrounded by gas.
Moons of JupiterJupiter has four large Galilean moons,
twelve smaller named moons and over 40 irregular satellites for a total of 63 moons
We’ll take a look at the four large Galilean moons which were first observed by Galileo Galilei in 1610.
Io Io is the fifth moon of
Jupiter. It’s the third largest of Jupiter’s moons.
Io has hundreds of volcanic calderas. Some of the volcanoes are active.
Europa Europa is the sixth of
Jupiter’s moons and is the fourth largest.
It is slightly smaller than the Earth’s moon.
The surface strongly resembles images of sea ice on Earth. There may be a liquid water sea under the crust.
Europa is one of the five known moons in the solar system to have an atmosphere.
Ganymede Ganymede is the
seventh and largest of Jupiter’s known satellites.
Ganymede has extensive cratering and an icy crust.
Callisto Callisto is the eighth of Jupiter’s known satellites
and the second largest. Callisto has the oldest, most cratered surface of
any body yet observed in the solar system.
Saturn Saturn is the second largest planet and the sixth
from the sun. Diameter= 120,536km Saturn is made of materials that are lighter than
water. If you could fit Saturn in a lake, it would float!
Has 56 Moons
Rings of Saturn Saturn’s rings are not
solid; they are composed of small countless particles.
The rings are very thin. Though they’re 250,000km or more in diameter, they’re less than one kilometer thick.
Uranus Uranus is the third
largest planet and the seventh from the sun.
Diameter= 51,118km Uranus is blue-green
because of the methane in its atmosphere.
Has 27 moons
Neptune Neptune is the fourth
largest planet and the eight from the sun.
Diameter= 50,530 Like Uranus, the
methane atmosphere gives Neptune its color.
Has 13 moons.
Pluto Pluto is a dwarf planet
and usually the farthest from the sun.
Pluto is the only “planet” that has not been visited by a spacecraft.
Diameter= 2,300km
Planet Movements
Move in an elliptical orbit influenced by the sun’ gravity
Period of Revolution the time it takes to go once around the sunone year on Earth (365.25 days) Mercury 88 days, Pluto 248 yearsWhy is the revolution period longer for
farther planets?
What keeps them there?Law of inertia - objects motion won’t
change unless acted upon by an outside force.
Won’t change speed or directionWhy do they curve?Gravity pulls them toward the sun
What keeps them there?
SUN
Inertia
Gravity
RotationPlanets spin on their axesOne rotation is a dayMercury 58 days, Jupiter 10 hoursWhy do you think rotation is faster for
larger planets?
Analyze This
What trend do you notice within this graph?
Analyze ThisNotice the materials
which make the planets. Which planets are more dense?
Read page 648 to learn how gravity also influenced the structure and size of the planets.
Other Space StuffComets: chunks of dust and gas that
originate from the Oort cloud on the edge of the solar system.
Asteroids: chunks of planetlike material floating in space mostly between Mars and Jupiter.
Other Space StuffMeteor: the shooting star -the light you see
the skyMeteoroid: solid rocky objects circling the
sunMeteorite: When a meteor hits the groundMost don’t reach the ground because they
burn up in the atmosphere