Introduction to the Solar System
trevi1jl
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Nov 30, 2009
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About This Presentation
This is a presentation that I completed for EDU 290 in the Fall 2009. The intent of the assignment was to create a lesson that could be used by a student that missed the classroom instruction due to illness
Slide Content
Planets, Moons and Stars
Our solar system is the system of planets
and other objects that orbit our sun.
There are eight planetsplanets and many
moonsmoons. Along with asteroidsasteroids, cometscomets,
meteoroidsmeteoroids and tiny particles of rocks and
dust. The sunsun, which is actually a starstar, is
the largest object in the solar system and
holds everything in place by its gravitygravity. It
contains about 99% of the mass of the
solar system.
and other objects that orbit our sun.
There are eight planetsplanets and many
moonsmoons. Along with asteroidsasteroids, cometscomets,
meteoroidsmeteoroids and tiny particles of rocks and
dust. The sunsun, which is actually a starstar, is
the largest object in the solar system and
holds everything in place by its gravitygravity. It
contains about 99% of the mass of the
solar system.
A planet is a body that is in orbit
,
around the Sun has enough mass
-
forits self gravity to overcome
( ) ,
forces nearly round shape and
clears the neighborhood around its
.
orbit
(
Planet order closest to the sun to
):
furthest
MERCURY
VENUS
EARTH
MARS
JUPITOR
SATURN
URANUS
NEPTUNE
A planet is a body that is in orbit
,
around the Sun has enough mass
-
forits self gravity to overcome
( ) ,
forces nearly round shape and
clears the neighborhood around its
.
orbit
(
Planet order closest to the sun to
):
furthest
MERCURY
VENUS
EARTH
MARS
JUPITOR
SATURN
URANUS
NEPTUNE
Position: Closest planet to the Sun.
Atmosphere: Like Earth’s moon, very little.
Landscape: Many craters, a little ice. Cliffs and
valleys present.
Temperatures: Super-heated by the sun in the
day. At night temperatures reach hundreds of
degrees below freezing. (Not as warm as you
would think).
Year (Full rotation around the sun): 88 days.
Moons: 0
Rings: 0
Atmosphere: Like Earth’s moon, very little.
Landscape: Many craters, a little ice. Cliffs and
valleys present.
Temperatures: Super-heated by the sun in the
day. At night temperatures reach hundreds of
degrees below freezing. (Not as warm as you
would think).
Year (Full rotation around the sun): 88 days.
Moons: 0
Rings: 0
Position: 2
nd
planet from the sun.
Atmosphere: Thick enough to trap heat,
hurricane winds, lightning, and acid clouds.
Landscape: Volcanoes and deformed mountains.
Temperatures: Intense heat.
Year (Full rotation around the sun): 225 Earth
days.
Moons: 0
Rings: 0
nd
planet from the sun.
Atmosphere: Thick enough to trap heat,
hurricane winds, lightning, and acid clouds.
Landscape: Volcanoes and deformed mountains.
Temperatures: Intense heat.
Year (Full rotation around the sun): 225 Earth
days.
Moons: 0
Rings: 0
Position: 3rd planet from the sun.
Atmosphere: Suitable air pressure to
have life. Air is made of oxygen.
Landscape: The only planet that has
liquid on the surface, rocky, land
formations.
Temperatures: Suitable for life. Ranges
from locations on Earth.
Year (Full rotation around the sun): 365
Earth days.
Moons: 1
Rings: 0
Atmosphere: Suitable air pressure to
have life. Air is made of oxygen.
Landscape: The only planet that has
liquid on the surface, rocky, land
formations.
Temperatures: Suitable for life. Ranges
from locations on Earth.
Year (Full rotation around the sun): 365
Earth days.
Moons: 1
Rings: 0
: 4
Position th planet from the
.
sun
:
Atmosphere Thinnerairthan
.
Earth
:
Landscape Frozen waterbelow
, , ,
the surface rocky dusty and
.
has craters
: ,
Temperatures Like Earth but
drierand colder
(
Year Full rotation around the
): 687 .
sun Earth days
: 2
Moons
: 0
Rings
Midnight Midnight
sun on sun on
MarsMars
Position th planet from the
.
sun
:
Atmosphere Thinnerairthan
.
Earth
:
Landscape Frozen waterbelow
, , ,
the surface rocky dusty and
.
has craters
: ,
Temperatures Like Earth but
drierand colder
(
Year Full rotation around the
): 687 .
sun Earth days
: 2
Moons
: 0
Rings
Midnight Midnight
sun on sun on
MarsMars
Position: 5th
planet from the
sun.
Atmosphere:
Colorful clouds,
until it is squished
unto liquid. Cold
and windy, giant
storms.
Landscape: Thick
super hot soup.
Temperatures:
Extremely cold at
clouds. Extremely
hot and cold
radiation.
Year (Full rotation
around the sun):
12 Earth years.
Moons: 62
Rings: 3
planet from the
sun.
Atmosphere:
Colorful clouds,
until it is squished
unto liquid. Cold
and windy, giant
storms.
Landscape: Thick
super hot soup.
Temperatures:
Extremely cold at
clouds. Extremely
hot and cold
radiation.
Year (Full rotation
around the sun):
12 Earth years.
Moons: 62
Rings: 3
Position: 7th planet from the sun.
Atmosphere: Composed mostly of gas with
no solid surface. Cloud strips.
Landscape: No solid surfaces, high
pressures turn gas into liquids.
Temperatures: Rings made out of water ice,
really cold.
Year (Full rotation around the sun): 30
Earth years.
Moons: 61
Rings: 7 division ring system
Atmosphere: Composed mostly of gas with
no solid surface. Cloud strips.
Landscape: No solid surfaces, high
pressures turn gas into liquids.
Temperatures: Rings made out of water ice,
really cold.
Year (Full rotation around the sun): 30
Earth years.
Moons: 61
Rings: 7 division ring system
: 7
Position
th
.
planetfromthesun
: ,
Atmosphere Getsthickerandthicker
.
untilitissquisheduntoliquid Coldand
.
windy
:
Landscape Layerofsuperheatedwater
.
andgasesthatformbrightclouds
:
Temperatures Extremelycoldatcloud
topsandsuperheatedtowardsthe
.
center
( ): 84
Year Fullrotationaroundthesun
.
Earthyears
: 27
Moons
: 11
Rings
Position
th
.
planetfromthesun
: ,
Atmosphere Getsthickerandthicker
.
untilitissquisheduntoliquid Coldand
.
windy
:
Landscape Layerofsuperheatedwater
.
andgasesthatformbrightclouds
:
Temperatures Extremelycoldatcloud
topsandsuperheatedtowardsthe
.
center
( ): 84
Year Fullrotationaroundthesun
.
Earthyears
: 27
Moons
: 11
Rings
Position: Furthest from the sun (Cannot see
without a microscope). 8
th
planet.
Atmosphere: Very Windy, cold clouds, a layer of
methane gas (giving it a blue color), storms as
large Earth.
Landscape: Scientist think it may have an
ocean of super hot lava.
Temperatures: Cold
Year (Full rotation around the sun): 165 Earth
years.
Moons: 13
Rings: 6
without a microscope). 8
th
planet.
Atmosphere: Very Windy, cold clouds, a layer of
methane gas (giving it a blue color), storms as
large Earth.
Landscape: Scientist think it may have an
ocean of super hot lava.
Temperatures: Cold
Year (Full rotation around the sun): 165 Earth
years.
Moons: 13
Rings: 6
Pluto is NOT considered
a planet anymore!
It is classified as a dwarf
planet.
Temperatures: Extremely
cold, covered with frost.
Year (Full rotation around
the sun): 248 Earth years.
Moons: 3
Pluto is very hard to see,
if with a really powerful
microscope.
Think of Pluto as Think of Pluto as
Disney’s dog, NOT a Disney’s dog, NOT a
planet!planet!
a planet anymore!
It is classified as a dwarf
planet.
Temperatures: Extremely
cold, covered with frost.
Year (Full rotation around
the sun): 248 Earth years.
Moons: 3
Pluto is very hard to see,
if with a really powerful
microscope.
Think of Pluto as Think of Pluto as
Disney’s dog, NOT a Disney’s dog, NOT a
planet!planet!
The sun is a star.
A ball of hot glowing gases.
It gets hotter as you go
deeper.
Central force that has a high
influence on planets orbits.
Without the sun’s energy and
heat there would be no life on
Earth.
A ball of hot glowing gases.
It gets hotter as you go
deeper.
Central force that has a high
influence on planets orbits.
Without the sun’s energy and
heat there would be no life on
Earth.
Stabilizes Earth.
Our moon is covered in craters and has no
atmosphere.
No gravity and no air.
Very hot and very cold temperatures.
Pieces of equipment lie on the moon-things like
the American flag!
Fake-coloring Fake-coloring
to show to show
landscapelandscape
Our moon is covered in craters and has no
atmosphere.
No gravity and no air.
Very hot and very cold temperatures.
Pieces of equipment lie on the moon-things like
the American flag!
Fake-coloring Fake-coloring
to show to show
landscapelandscape
New Moon - The Moon's un-illuminated side is facing the
Earth. The Moon is not visible (except during a solar
eclipse).
Waxing Crescent - The Moon appears to be partly but
less than one-half illuminated by direct sunlight. The
fraction of the Moon's disk that is illuminated is
increasing.
First Quarter - One-half of the Moon appears to be
illuminated by direct sunlight. The fraction of the Moon's
disk that is illuminated is increasing.
Waxing Gibbous - The Moon appears to be more than
one-half but not fully illuminated by direct sunlight. The
fraction of the Moon's disk that is illuminated is
increasing.
Earth. The Moon is not visible (except during a solar
eclipse).
Waxing Crescent - The Moon appears to be partly but
less than one-half illuminated by direct sunlight. The
fraction of the Moon's disk that is illuminated is
increasing.
First Quarter - One-half of the Moon appears to be
illuminated by direct sunlight. The fraction of the Moon's
disk that is illuminated is increasing.
Waxing Gibbous - The Moon appears to be more than
one-half but not fully illuminated by direct sunlight. The
fraction of the Moon's disk that is illuminated is
increasing.
Full Moon - The Moon's
illuminated side is facing the
Earth. The Moon appears to be
completely illuminated by direct
sunlight.
Waning Gibbous - The Moon
appears to be more than one-half
but not fully illuminated by direct
sunlight. The fraction of the Moon's
disk that is illuminated is
decreasing.
Last Quarter - One-half of the
Moon appears to be illuminated by
direct sunlight. The fraction of the
Moon's disk that is illuminated is
decreasing.
Waning Crescent - The Moon
appears to be partly but less than
one-half illuminated by direct
sunlight. The fraction of the Moon's
disk that is illuminated is
decreasing.
illuminated side is facing the
Earth. The Moon appears to be
completely illuminated by direct
sunlight.
Waning Gibbous - The Moon
appears to be more than one-half
but not fully illuminated by direct
sunlight. The fraction of the Moon's
disk that is illuminated is
decreasing.
Last Quarter - One-half of the
Moon appears to be illuminated by
direct sunlight. The fraction of the
Moon's disk that is illuminated is
decreasing.
Waning Crescent - The Moon
appears to be partly but less than
one-half illuminated by direct
sunlight. The fraction of the Moon's
disk that is illuminated is
decreasing.
In-Class Moon Phase Cookie
Project
Project
A star is a huge, shining ball in space that produces a large
amount of light and energy.
Stars come in many sizes.
About 75% are apart of groups that orbit each other.
They are grouped in large structures called galaxies. (Milky
Way).
Stars have life-cycles like humans.
A stars color depends on surface temperature.
amount of light and energy.
Stars come in many sizes.
About 75% are apart of groups that orbit each other.
They are grouped in large structures called galaxies. (Milky
Way).
Stars have life-cycles like humans.
A stars color depends on surface temperature.
Constellations are groupings of stars that make an
imaginary
.
image in the night sky They have been named after mythological
, , .
characters people animals and objects In different parts of the
,
world people have made up different shapes out of the same
. .
groups of bright stars It is like a game of connecting the dots In
the past constellations have became useful for navigating at night
.
and for keeping track of the seasons
imaginary
.
image in the night sky They have been named after mythological
, , .
characters people animals and objects In different parts of the
,
world people have made up different shapes out of the same
. .
groups of bright stars It is like a game of connecting the dots In
the past constellations have became useful for navigating at night
.
and for keeping track of the seasons
Constellation Project
Choose your favorite constellation.
Research your constellation.
Make a poster including the
constellation name, your myth and
the actual myth, and mapping of
stars.
The writing portion should be two
paragraphs long. One for your
made-up myth, the other for a real
myth.
Don’t forget to proofread your
paragraphs!
We will be working on the projects
and presenting them in class.
Choose your favorite constellation.
Research your constellation.
Make a poster including the
constellation name, your myth and
the actual myth, and mapping of
stars.
The writing portion should be two
paragraphs long. One for your
made-up myth, the other for a real
myth.
Don’t forget to proofread your
paragraphs!
We will be working on the projects
and presenting them in class.
What is the solar system?
How many planets do we currently have?
Draw a diagram of planet placement and list the
planets in order from the closest to the furthest
from the sun.
Can you list the characteristics of planet Earth?
What are the phases of the moon? (Draw a picture
to help in explanation).
Can a star die?
What were constellations used for?
What is the sun?
How many planets do we currently have?
Draw a diagram of planet placement and list the
planets in order from the closest to the furthest
from the sun.
Can you list the characteristics of planet Earth?
What are the phases of the moon? (Draw a picture
to help in explanation).
Can a star die?
What were constellations used for?
What is the sun?
1.Pick a constellation to work on in
class next week.
2.Keep your moon journal, observe
the moon phases throughout the
week and record them.
Remember to draw the moon
phase and write a paragraph on
your observations.
3.Study the solar system!
4. Answer PowerPoint questions.
class next week.
2.Keep your moon journal, observe
the moon phases throughout the
week and record them.
Remember to draw the moon
phase and write a paragraph on
your observations.
3.Study the solar system!
4. Answer PowerPoint questions.
Educational information is provided from
the following sources:
Ambrose, Elisabeth. “Misson to Mars: Project Based Learning.”
University of Texas. Web. 18 October 2009.
“An Overview of the Universe.” Student WebPages and
Assignments: GWIT.org. Web. 17 October 2009.
Harvey, Samantha. “Solar System Exploration.” NASA. 18
October 2009. Web. 19 October 2009.
Mena-Werth, Jane and Jose. “Astronomy Activities.” University
of Nebraska. Web. 17 October 2009.
Harvey, Samantha. “Solar System Exploration.” NASA. 18
October 2009. Web. 19 October 2009.
“Solar System.” Instructors Web. 2002-2009. Web. 18 October
2009.
“Space.” New Scientist. 18 October 2009. Web. 18 October
2009.
Whitlock, Laura A. “The Solar System.” Starchild. Web. 17
October 2009.
the following sources:
Ambrose, Elisabeth. “Misson to Mars: Project Based Learning.”
University of Texas. Web. 18 October 2009.
“An Overview of the Universe.” Student WebPages and
Assignments: GWIT.org. Web. 17 October 2009.
Harvey, Samantha. “Solar System Exploration.” NASA. 18
October 2009. Web. 19 October 2009.
Mena-Werth, Jane and Jose. “Astronomy Activities.” University
of Nebraska. Web. 17 October 2009.
Harvey, Samantha. “Solar System Exploration.” NASA. 18
October 2009. Web. 19 October 2009.
“Solar System.” Instructors Web. 2002-2009. Web. 18 October
2009.
“Space.” New Scientist. 18 October 2009. Web. 18 October
2009.
Whitlock, Laura A. “The Solar System.” Starchild. Web. 17
October 2009.
http://scienceclass.ning.com
http://www.astronomycast.com
http://office.microsoft.com/en-us/clipart
http://www.toonpool.com/cartoons
http://www.cartoonstock.com
http://anitadiminuta.com/images
http://asymptotia.com
http://www.thelivingmoon.com
http://offthemark.com
http://thumbs.dreamstime.com
http://abyss.uoregon.edu/~js/images/Jupiter.gif
http://www.astronomycast.com
http://office.microsoft.com/en-us/clipart
http://www.toonpool.com/cartoons
http://www.cartoonstock.com
http://anitadiminuta.com/images
http://asymptotia.com
http://www.thelivingmoon.com
http://offthemark.com
http://thumbs.dreamstime.com
http://abyss.uoregon.edu/~js/images/Jupiter.gif
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