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Earth Science Chapter Two: What Makes Up the Solar System
... 12. Which objects in Earth’s solar system can also be called a gas giant? The outer planets are also called gas giants. 13. What makes up Jupiter’s famous Great Red Spot? Jupiter’s Great Red Spot is a rotating storm. 14. What makes Saturn easy to identify? Saturn’s rings make it easy to identify. 15 ...
... 12. Which objects in Earth’s solar system can also be called a gas giant? The outer planets are also called gas giants. 13. What makes up Jupiter’s famous Great Red Spot? Jupiter’s Great Red Spot is a rotating storm. 14. What makes Saturn easy to identify? Saturn’s rings make it easy to identify. 15 ...
Midterm 2 – Wed. March 2 SIT IN YOUR ASSIGNED ROW! YOUR
... • Retrograde (backward) rotation • Probably due to giant impact. ...
... • Retrograde (backward) rotation • Probably due to giant impact. ...
Solar System Notes - Science with Mrs. Wilson
... B. All planets have two motions. They rotate on their axis and revolve around the sun. 1. Their time it takes for a revolution is a year. 2. All planets go around the sun counterclockwise from above in elliptical orbits. C. Our solar system is composed of the sun and all objects held by the sun’s gr ...
... B. All planets have two motions. They rotate on their axis and revolve around the sun. 1. Their time it takes for a revolution is a year. 2. All planets go around the sun counterclockwise from above in elliptical orbits. C. Our solar system is composed of the sun and all objects held by the sun’s gr ...
Solar System
... atmospheres, fast/slower rotation rates, many/few moons & rings and Space Debris – icy comets, rocky asteroids, meteoroids, Kuiper Belt d) Earth, Moon, Mars, Meteorites, Sun; all 4.6 billion years old e) All of the above ...
... atmospheres, fast/slower rotation rates, many/few moons & rings and Space Debris – icy comets, rocky asteroids, meteoroids, Kuiper Belt d) Earth, Moon, Mars, Meteorites, Sun; all 4.6 billion years old e) All of the above ...
The Favell Fun Club Members Explore..... Space! Our intrepid duo
... 5. Mars is sometimes called the red planet 6. Jupiter is the largest planet in the solar system and has 63 moons. 7. Saturn is surrounded by beautiful rings, these are made up of rocks and dust orbiting the planet. 8. Uranus is the coldest planet in the solar system 9. Neptune is made entirely of ga ...
... 5. Mars is sometimes called the red planet 6. Jupiter is the largest planet in the solar system and has 63 moons. 7. Saturn is surrounded by beautiful rings, these are made up of rocks and dust orbiting the planet. 8. Uranus is the coldest planet in the solar system 9. Neptune is made entirely of ga ...
Study Guide for Quiz on Astronomy: The Moon, Sun
... ________________________________________________________________ 24. What was this system called? ____________________________________________________ 25. Which are the terrestrial (inner) planets? __________________________________________ ___________________________________________________________ ...
... ________________________________________________________________ 24. What was this system called? ____________________________________________________ 25. Which are the terrestrial (inner) planets? __________________________________________ ___________________________________________________________ ...
asteroids - WordPress.com
... degrees ahead of or behind Jupiter at the L4and L5 Lagrangian points. Over three successive orbits each Hilda asteroid passes through all of these three points in sequence. They do not form a true asteroid family, in the sense that they do not descend from a common parent object. The namesake ...
... degrees ahead of or behind Jupiter at the L4and L5 Lagrangian points. Over three successive orbits each Hilda asteroid passes through all of these three points in sequence. They do not form a true asteroid family, in the sense that they do not descend from a common parent object. The namesake ...
The Asteroid Belt - peterboroughastronomy.com
... the very simplest terms an asteroid is a chunk of rock that orbits the Sun and is within our solar system. A comet is a giant dirty snowball that is pulled in from a very distant area called the Oort Cloud. This huge cloud of icy debris engulfs our solar system. Asteroids orbit the Sun on the same p ...
... the very simplest terms an asteroid is a chunk of rock that orbits the Sun and is within our solar system. A comet is a giant dirty snowball that is pulled in from a very distant area called the Oort Cloud. This huge cloud of icy debris engulfs our solar system. Asteroids orbit the Sun on the same p ...
Asteroids, meteorites, and comets
... The outer edge of our Solar System is not empty. There are many, many huge spheres of ice and rock out near Pluto's orbit. Astronomers call this huge group of planetoids "Kuiper Belt Objects", or "KBOs" for short. The Kuiper Belt is a bit like the asteroid belt, but much farther from the Sun. See ho ...
... The outer edge of our Solar System is not empty. There are many, many huge spheres of ice and rock out near Pluto's orbit. Astronomers call this huge group of planetoids "Kuiper Belt Objects", or "KBOs" for short. The Kuiper Belt is a bit like the asteroid belt, but much farther from the Sun. See ho ...
What is the Nice model? - Lunar and Planetary Institute
... throughout the Solar System. Our goal was to determine the mass in comets that struck the regular moons of Jupiter, Saturn, Uranus, and Neptune. The Nice model comes in three flavors. • Classic (Tsiganis et al. 2005, Morbidelli et al. 2005, Gomes et al. 2005; Figure 1): Jupiter and Saturn cross 2:1 ...
... throughout the Solar System. Our goal was to determine the mass in comets that struck the regular moons of Jupiter, Saturn, Uranus, and Neptune. The Nice model comes in three flavors. • Classic (Tsiganis et al. 2005, Morbidelli et al. 2005, Gomes et al. 2005; Figure 1): Jupiter and Saturn cross 2:1 ...
Facts about Planets Answer Key File
... 4. Mars is sometimes referred to as the _______Red_________ planet. 5. Venus has a thick atmosphere of ___________Carbon Dioxide__________. 6. Jupiter has _______at least 67_______ moons. 7. ______Mars_________ is the seventh largest planet. 8. Saturn has _____9_________ rings. 9. The diameter of Ea ...
... 4. Mars is sometimes referred to as the _______Red_________ planet. 5. Venus has a thick atmosphere of ___________Carbon Dioxide__________. 6. Jupiter has _______at least 67_______ moons. 7. ______Mars_________ is the seventh largest planet. 8. Saturn has _____9_________ rings. 9. The diameter of Ea ...
August05 - Holt Planetarium
... The major surprise was the opacity of the plume the impactor created and the light it gave off. This suggests that the dust excavated from the comet’s surface was extremely fine, more like talcum powder than beach sand. The surface is definitely not what most people think of when they think of comet ...
... The major surprise was the opacity of the plume the impactor created and the light it gave off. This suggests that the dust excavated from the comet’s surface was extremely fine, more like talcum powder than beach sand. The surface is definitely not what most people think of when they think of comet ...
Brobo_solarsystem_faceoff
... 61-64. Name the four dwarf planets 65*. What is the difference between a dwarf planet and a plutoid? 66. Currently there are only two Plutoids. One of them is Pluto- what is the other? 67. What is the only difference between an astroid and a meteroid? 68. In order for a meteroid to become a meteorit ...
... 61-64. Name the four dwarf planets 65*. What is the difference between a dwarf planet and a plutoid? 66. Currently there are only two Plutoids. One of them is Pluto- what is the other? 67. What is the only difference between an astroid and a meteroid? 68. In order for a meteroid to become a meteorit ...
Review sheet for Solar System Test
... 4. What are the two factors that combine to keep the planets in orbit? GRAVITY AND INERTIA 5. What is the tendency of a moving object to continue moving in a straight line or a stationary object to remain in place? INERTIA 6. Each planet and its moons form a SYSTEM 7. Scientists believe there is eno ...
... 4. What are the two factors that combine to keep the planets in orbit? GRAVITY AND INERTIA 5. What is the tendency of a moving object to continue moving in a straight line or a stationary object to remain in place? INERTIA 6. Each planet and its moons form a SYSTEM 7. Scientists believe there is eno ...
Solar System - Noadswood Science
... Solar System Presentations To recap all the planets, and identify some of their key characteristics ...
... Solar System Presentations To recap all the planets, and identify some of their key characteristics ...
Solar System homework
... o Meteoroid: space rock that’s bigger than a dust grain but smaller than an asteroid o Meteor: the streak of light seen when a meteoroid enters the atmosphere o Meteorite: if a meteor doesn’t entirely burn up, a piece of space rock that lands on Earth is called a meteorite Frost Line: the dividing l ...
... o Meteoroid: space rock that’s bigger than a dust grain but smaller than an asteroid o Meteor: the streak of light seen when a meteoroid enters the atmosphere o Meteorite: if a meteor doesn’t entirely burn up, a piece of space rock that lands on Earth is called a meteorite Frost Line: the dividing l ...
Moons, Comets, Meteors, and Asteroids PowerPoint
... Comets are cosmic “snowballs” of frozen gases, rock, and dust roughly the size of a small town. When a comet’s orbit brings it close to the sun, it heats up and spews dust and gas into a giant glowing head, which then forms a tail that stretches away from the sun for millions of kilometers. What doe ...
... Comets are cosmic “snowballs” of frozen gases, rock, and dust roughly the size of a small town. When a comet’s orbit brings it close to the sun, it heats up and spews dust and gas into a giant glowing head, which then forms a tail that stretches away from the sun for millions of kilometers. What doe ...
Document
... Terrestrial planets formed where temps were very high and metals and silicates could form solids Jovian planets formed at lower temps where gas became ice No planets in asteroid belt b/c Jupiter is so massive and its gravity disturbed planet formation Larger mass enables planets to hang onto particl ...
... Terrestrial planets formed where temps were very high and metals and silicates could form solids Jovian planets formed at lower temps where gas became ice No planets in asteroid belt b/c Jupiter is so massive and its gravity disturbed planet formation Larger mass enables planets to hang onto particl ...
Asteroid Belt
... evolution since their formation. They are mainly the remnants of particles from the formation of the solar system that never became parts of larger bodies. Therefore, most of the asteroid belt consists of relatively small objects compared to the planets, although some large asteroids almost the size ...
... evolution since their formation. They are mainly the remnants of particles from the formation of the solar system that never became parts of larger bodies. Therefore, most of the asteroid belt consists of relatively small objects compared to the planets, although some large asteroids almost the size ...
Earth in the Solar System - San Diego Unified School District
... MOONS (planetary satellites) ASTEROIDS ...
... MOONS (planetary satellites) ASTEROIDS ...
El sistema solar en una cancha de futbol
... field. With the popular Boca Juniors' stadium “La Bombonera”, Sergio will share some comparisons which will leave everyone speechless. The Sun, the central star in our Solar System, will be reduced to the size of a 1-meter diameter ball. If this is so, what will be the size of the planets? During an ...
... field. With the popular Boca Juniors' stadium “La Bombonera”, Sergio will share some comparisons which will leave everyone speechless. The Sun, the central star in our Solar System, will be reduced to the size of a 1-meter diameter ball. If this is so, what will be the size of the planets? During an ...
Late Heavy Bombardment
![](https://commons.wikimedia.org/wiki/Special:FilePath/Lunar_cataclysm.jpg?width=300)
The Late Heavy Bombardment (abbreviated LHB and also known as the lunar cataclysm) is a hypothetical event thought to have occurred approximately 4.1 to 3.8 billion years (Ga) ago, corresponding to the Neohadean and Eoarchean eras on Earth. During this interval, a disproportionately large number of asteroids apparently collided with the early terrestrial planets in the inner Solar System, including Mercury, Venus, Earth, and Mars. The LHB happened after the Earth and other rocky planets had formed and accreted most of their mass, but still quite early in Earth's history.Evidence for the LHB derives from lunar samples brought back by the Apollo astronauts. Isotopic dating of Moon rocks implies that most impact melts occurred in a rather narrow interval of time. Several hypotheses are now offered to explain the apparent spike in the flux of impactors (i.e. asteroids and comets) in the inner Solar System, but no consensus yet exists. The Nice model is popular among planetary scientists; it postulates that the gas giant planets underwent orbital migration and scattered objects in the asteroid and/or Kuiper belts into eccentric orbits, and thereby into the path of the terrestrial planets. Other researchers argue that the lunar sample data do not require a cataclysmic cratering event near 3.9 Ga, and that the apparent clustering of impact melt ages near this time is an artifact of sampling materials retrieved from a single large impact basin. They also note that the rate of impact cratering could be significantly different between the outer and inner zones of the Solar System.