1-Saturn have two rings
... This is a solar system. Mercury is near of sun. Uranus is far of sun. Earth is the our planet. Sun is a star. Solar system is big. A soler system have 8/9 planets. Uranus is a seventh. The moon is a satelit. 2) The Mercury is closert planet to the sun. The Neptune is fardest planet to the sun. The s ...
... This is a solar system. Mercury is near of sun. Uranus is far of sun. Earth is the our planet. Sun is a star. Solar system is big. A soler system have 8/9 planets. Uranus is a seventh. The moon is a satelit. 2) The Mercury is closert planet to the sun. The Neptune is fardest planet to the sun. The s ...
meteoroid
... asteroid belt b/t Mars & Jupiter • movement: based on revolution around the Sun • some outside of the asteroid belt have orbits that cross Earth’s orbit & scientists monitor their position ...
... asteroid belt b/t Mars & Jupiter • movement: based on revolution around the Sun • some outside of the asteroid belt have orbits that cross Earth’s orbit & scientists monitor their position ...
POWERPOINT with Facts - Mrs. Brown`s Third Grade Class
... The Outer Planets • The outer planets are made mostly of frozen gases and they are much further from the sun. This makes their surface cooler than the inner planets. They are all larger than the inner planets. They also have many moons and some even have rings. ...
... The Outer Planets • The outer planets are made mostly of frozen gases and they are much further from the sun. This makes their surface cooler than the inner planets. They are all larger than the inner planets. They also have many moons and some even have rings. ...
WhatsInSolarSystem - School
... Our Sun is a star, a huge ball of Hydrogen and Helium with a nuclear reaction, fusion, happening in its core. It formed from a cloud of Hydrogen billions of years ago and when it formed a number of objects were formed too or relatively shortly after. These objects make up what we call our solar syst ...
... Our Sun is a star, a huge ball of Hydrogen and Helium with a nuclear reaction, fusion, happening in its core. It formed from a cloud of Hydrogen billions of years ago and when it formed a number of objects were formed too or relatively shortly after. These objects make up what we call our solar syst ...
Apparent motion of planets
... Mercury and Venus are inferior planets in the Solar System. They are closer to the Sun than the Earth. Mars, Jupiter, Saturn, Uranus and Neptune are superior planets in the Solar System. They are further away from the Sun than the Earth. From the Earth’s perspective, the angular di ...
... Mercury and Venus are inferior planets in the Solar System. They are closer to the Sun than the Earth. Mars, Jupiter, Saturn, Uranus and Neptune are superior planets in the Solar System. They are further away from the Sun than the Earth. From the Earth’s perspective, the angular di ...
Gravitational Force
... a. Planet A, because its moon is heavy and close to it. b. Planet B, because only a lightweight object can orbit without falling down. c. Planet C, because it can interact with a heavy object that is far away. d. All have the same gravitational attraction, because the planets are all the same mass. ...
... a. Planet A, because its moon is heavy and close to it. b. Planet B, because only a lightweight object can orbit without falling down. c. Planet C, because it can interact with a heavy object that is far away. d. All have the same gravitational attraction, because the planets are all the same mass. ...
PLANETARY TRAVEL PROJECTS (50 pts, due April 3)
... The second destination must be a gas giant (jovian planet.) As the name suggests, these are the large planets made mostly of gas farther from the sun. The four gas giants are Jupiter, Saturn, Uranus, and Neptune. Your final destination must be something in the solar system that’s not a planet. You m ...
... The second destination must be a gas giant (jovian planet.) As the name suggests, these are the large planets made mostly of gas farther from the sun. The four gas giants are Jupiter, Saturn, Uranus, and Neptune. Your final destination must be something in the solar system that’s not a planet. You m ...
Planet Data Collection WS Name
... Planet Project: How Do Planets Compare to Earth? We viewed the TED Talk “The Search for Planets Beyond Our Solar System” by astronomer Dr. Sara Seager, MIT Professor. She asked you to be “the first generation to find the earth-like worlds” for our descendants to have interstellar travel. Your team w ...
... Planet Project: How Do Planets Compare to Earth? We viewed the TED Talk “The Search for Planets Beyond Our Solar System” by astronomer Dr. Sara Seager, MIT Professor. She asked you to be “the first generation to find the earth-like worlds” for our descendants to have interstellar travel. Your team w ...
Solar System Study Guide Questions
... 3. Why is Venus the hottest planet in the solar system? (Completely Explain) 4. Why does Mars appear to move in a retrograde motion when observed from Earth? 5. Why is Mars Red? (Completely Explain) 6. List the Galilean Moons and 2 characteristics for each. 7. What are rings and how do they form? Wh ...
... 3. Why is Venus the hottest planet in the solar system? (Completely Explain) 4. Why does Mars appear to move in a retrograde motion when observed from Earth? 5. Why is Mars Red? (Completely Explain) 6. List the Galilean Moons and 2 characteristics for each. 7. What are rings and how do they form? Wh ...
Topic 2 Key Facts - AstronomyGCSE.co.uk
... Saturn – another gas giant. Quite squashed due to its high rotational speed. Saturn has a distinctive ring system about 1 km thick made up of particles from 1cm to 1m in size. There are 3 main regions, A and B separated by the Cassini Division then C. Uranus – spins on a very tilted axis so its sout ...
... Saturn – another gas giant. Quite squashed due to its high rotational speed. Saturn has a distinctive ring system about 1 km thick made up of particles from 1cm to 1m in size. There are 3 main regions, A and B separated by the Cassini Division then C. Uranus – spins on a very tilted axis so its sout ...
The Pluto controversy: What`s a planet, anyway?
... Mars) form a family because they are relatively small and rocky, while the gassy planets (Jupiter, Saturn, Uranus, and Neptune) are large, gaseous, have many moons, and bear rings. ...
... Mars) form a family because they are relatively small and rocky, while the gassy planets (Jupiter, Saturn, Uranus, and Neptune) are large, gaseous, have many moons, and bear rings. ...
Universe Now - Course Pages of Physics Department
... Animation: The dynamics of the outer Solar System during 100 years (with a time step of 200 days). White: plutinos (Pluto as large, white circle) Blue squares: comets (in perihelion around year 2002) Orange: centaurs Red: Classical TNOs Magenta: scattered disc objects Cyan: higheccentricity objects ...
... Animation: The dynamics of the outer Solar System during 100 years (with a time step of 200 days). White: plutinos (Pluto as large, white circle) Blue squares: comets (in perihelion around year 2002) Orange: centaurs Red: Classical TNOs Magenta: scattered disc objects Cyan: higheccentricity objects ...
UNIT D CH 3 – PLANETS
... -- What season would a town in the southern hemisphere have during January? A. winter B. spring C. summer D. fall ...
... -- What season would a town in the southern hemisphere have during January? A. winter B. spring C. summer D. fall ...
Star Trekkers
... • Jupiter takes about 12 years to orbit the sun and rotates in about 10 hours. This short Jupiter "day" is amazing since the planet is roughly 11 Earth diameters wide. • The planet had 39 known moons. • Unlike all the other rocky planets, Jupiter is a ball of hydrogen, helium, nitrogen and ...
... • Jupiter takes about 12 years to orbit the sun and rotates in about 10 hours. This short Jupiter "day" is amazing since the planet is roughly 11 Earth diameters wide. • The planet had 39 known moons. • Unlike all the other rocky planets, Jupiter is a ball of hydrogen, helium, nitrogen and ...
b. 248 years
... 7. Does a waxing moon appear to be larger or smaller as each night goes by? a. Larger ...
... 7. Does a waxing moon appear to be larger or smaller as each night goes by? a. Larger ...
Origin of Our Solar System 2 Theories Sun formed first then planets
... These small bodies of matter is called planetoids (think of them as seeds) As collision continues, these bodies get bigger and form protoplanets These bodies now have some gravity Pull materials toward them and make protoplanets bigger or capture moons The Planets 8 true planets and severa ...
... These small bodies of matter is called planetoids (think of them as seeds) As collision continues, these bodies get bigger and form protoplanets These bodies now have some gravity Pull materials toward them and make protoplanets bigger or capture moons The Planets 8 true planets and severa ...
Measuring the Solar System
... Make the Scale... Complete the table to determine how far away each planet should be from the sun in your model of the Solar System. Use a scaling factor of 25 centimeters per Astronomical Unit. Once the chart is complete, mark the locations of the planets on your team's model. ...
... Make the Scale... Complete the table to determine how far away each planet should be from the sun in your model of the Solar System. Use a scaling factor of 25 centimeters per Astronomical Unit. Once the chart is complete, mark the locations of the planets on your team's model. ...
Solar System Drawing Example-Word
... -Planet classification (Terrestrial or Gas Giant) -Speed of revolution around the sun (in miles per hour) -Speed of rotation on its axis at the equator (in miles per hour) -Interesting, unique facts about the planet Table of facts: www.windows2universe.org/our_solar_system/planets_table.html ...
... -Planet classification (Terrestrial or Gas Giant) -Speed of revolution around the sun (in miles per hour) -Speed of rotation on its axis at the equator (in miles per hour) -Interesting, unique facts about the planet Table of facts: www.windows2universe.org/our_solar_system/planets_table.html ...
Our Exciting Solar Neighborhood!
... Pluto is called a dwarf planet because it is so small. In fact, Pluto is smaller than all of the other planets and even smaller than many of the moons in the solar system! Pluto is so far away that no satellites have ever been there, so we don’t know a whole lot about it. We do know that it is very ...
... Pluto is called a dwarf planet because it is so small. In fact, Pluto is smaller than all of the other planets and even smaller than many of the moons in the solar system! Pluto is so far away that no satellites have ever been there, so we don’t know a whole lot about it. We do know that it is very ...
- Lincoln High School
... is directly proportional to the cube of its semi-major axis. This law relates the amount of time for the planet to complete one orbit around the Sun to the planet’s average distance from the Sun. If we measure the orbital periods (P) in years and distances (a) in astronomical units, then the law mat ...
... is directly proportional to the cube of its semi-major axis. This law relates the amount of time for the planet to complete one orbit around the Sun to the planet’s average distance from the Sun. If we measure the orbital periods (P) in years and distances (a) in astronomical units, then the law mat ...
CHAPTER 2: Gravitation and the Waltz of the Planets
... is directly proportional to the cube of its semi-major axis. This law relates the amount of time for the planet to complete one orbit around the Sun to the planet’s average distance from the Sun. If we measure the orbital periods (P) in years and distances (a) in astronomical units, then the law mat ...
... is directly proportional to the cube of its semi-major axis. This law relates the amount of time for the planet to complete one orbit around the Sun to the planet’s average distance from the Sun. If we measure the orbital periods (P) in years and distances (a) in astronomical units, then the law mat ...
PHYS 178 – Assignment 5 Sketchy Answers
... The craters are less well-defined on Jupiter’s moons (e.g. Callisto) because the ice is warmer, and it slumps/flows over long periods of time. The ice on the surfaces of (non-tidally heated) moons around Saturn is cold and more rock-like. The craters on Rhea, for example, resemble those on the Moon ...
... The craters are less well-defined on Jupiter’s moons (e.g. Callisto) because the ice is warmer, and it slumps/flows over long periods of time. The ice on the surfaces of (non-tidally heated) moons around Saturn is cold and more rock-like. The craters on Rhea, for example, resemble those on the Moon ...
Handout 27-4 The Outer Planets
... It did not have enough mass to allow nuclear fusion to begin. ...
... It did not have enough mass to allow nuclear fusion to begin. ...