![The kinematics of the Solar System](http://s1.studyres.com/store/data/017036091_1-b6a428580598c241cf24a48f9ac27f53-300x300.png)
The kinematics of the Solar System
... All planetary orbits are almost circular All planetary orbits lie in the same plane (within a few ...
... All planetary orbits are almost circular All planetary orbits lie in the same plane (within a few ...
Science – Chapter 9, Lesson 1 telescope – a tool that makes far
... made of gases with many moons and rings 3. ***Pluto – small and made of rocks and frozen gases with one moon and no rings asteroid – piece of rock that orbits the sun (can be as small as a grain or as large as California) asteroid belt – an area between inner planets and outer planets ...
... made of gases with many moons and rings 3. ***Pluto – small and made of rocks and frozen gases with one moon and no rings asteroid – piece of rock that orbits the sun (can be as small as a grain or as large as California) asteroid belt – an area between inner planets and outer planets ...
Space,+the+final+frontier
... The universe is mostly empty space. Even in a "crowded" region like our solar system, the distances between planets are so vast that they are difficult to imagine. This animation simulates a voyage from the sun past all nine planets. For convenience, the planets are lined up in the same direction. T ...
... The universe is mostly empty space. Even in a "crowded" region like our solar system, the distances between planets are so vast that they are difficult to imagine. This animation simulates a voyage from the sun past all nine planets. For convenience, the planets are lined up in the same direction. T ...
UNIT D CH 3 – PLANETS
... -- What provides most of the heat and light to our solar system? A. the comet Hale-Bopp B. asteroids C. the sun D. Jupiter ...
... -- What provides most of the heat and light to our solar system? A. the comet Hale-Bopp B. asteroids C. the sun D. Jupiter ...
2 Kepler`s Laws
... Two same stars are orbitting about the center of mass half way between them. The orbital speed of each star is 220km/s and the orbital period of each is 14.4 days. Find the mass M of each star. ...
... Two same stars are orbitting about the center of mass half way between them. The orbital speed of each star is 220km/s and the orbital period of each is 14.4 days. Find the mass M of each star. ...
d = days y = years AU = astronomical unit Grade 6 Standard 3
... A. the outer planets B. the inner planets C. the gas giants D. the middle planets 10. How do the inner planets differ from the outer planets? A. they are made of lighter elements B. they do not have moons C. they are extremely large D. they are spaced more closely together 11. What is one factor tha ...
... A. the outer planets B. the inner planets C. the gas giants D. the middle planets 10. How do the inner planets differ from the outer planets? A. they are made of lighter elements B. they do not have moons C. they are extremely large D. they are spaced more closely together 11. What is one factor tha ...
Midterm 2 Wednesday (Feb 29)
... • Retrograde (backward) rotation • Probably due to giant impact. ...
... • Retrograde (backward) rotation • Probably due to giant impact. ...
Chapter Review
... a typical planet’s orbit most like? a. a short rectangle b. an egg-shape with a pointy end c. a long, narrow oval d. a circle 8. How is a moon different from a planet? a. A moon is smaller than any planet. b. A moon is less massive than any planet. c. A moon is in orbit around a planet. d. A moon is ...
... a typical planet’s orbit most like? a. a short rectangle b. an egg-shape with a pointy end c. a long, narrow oval d. a circle 8. How is a moon different from a planet? a. A moon is smaller than any planet. b. A moon is less massive than any planet. c. A moon is in orbit around a planet. d. A moon is ...
Across 1. How stars produce light. 3. Has "Great Dark Spot" storm. 6
... 12. Demoted planet, minor dual planet now. 14. Venus is the only planet whose day is ____ than its year. 16. Means "partial darkness." 17. The time it takes for the Earth to do one complete rotation. 18. How many minutes it takes light to reach Earth from the sun. 20. The name of our star system. 23 ...
... 12. Demoted planet, minor dual planet now. 14. Venus is the only planet whose day is ____ than its year. 16. Means "partial darkness." 17. The time it takes for the Earth to do one complete rotation. 18. How many minutes it takes light to reach Earth from the sun. 20. The name of our star system. 23 ...
The_Cosmic_Landscape
... • The moon is very different from Earth b/c of its great difference in mass. -the Moon's mass is only about 1/80 the Earth's, and therefore less able to retain heat. By not having an internal heat, no crustal motions alter the Moon's surface. -The Moon has changed very little over the past 3 bill. ...
... • The moon is very different from Earth b/c of its great difference in mass. -the Moon's mass is only about 1/80 the Earth's, and therefore less able to retain heat. By not having an internal heat, no crustal motions alter the Moon's surface. -The Moon has changed very little over the past 3 bill. ...
Unit 3 Bell Ringers 1. Early historical models of the solar system
... Which objects are located between the orbits of Mars and Jupiter? A. asteroids B. comets C. Kuiper Belt objects D. meteorites 11. Weight depends on the force of gravity. The greater the gravitational attraction of a planet, the more an object weighs on that planet. On which planet would you weigh le ...
... Which objects are located between the orbits of Mars and Jupiter? A. asteroids B. comets C. Kuiper Belt objects D. meteorites 11. Weight depends on the force of gravity. The greater the gravitational attraction of a planet, the more an object weighs on that planet. On which planet would you weigh le ...
THE UNIVERSE summary
... Named Gas giants because they are made of gases. Have rings and many moons. Jupiter, Saturn, Uranus and Neptune. Asteroid Belt Between Mars and Jupiter. ...
... Named Gas giants because they are made of gases. Have rings and many moons. Jupiter, Saturn, Uranus and Neptune. Asteroid Belt Between Mars and Jupiter. ...
Science Study Guide Chapter 7 “Earth in Space” Section 1 Earth`s
... cloud of gas, ice, and dust. 2. Almost all ______________________ in our solar system are located beyond Neptune. 3. The _______________________________ separates the inner and outer planets. 4. __________________________________ are used to measure distances between objects in the solar system. 5. ...
... cloud of gas, ice, and dust. 2. Almost all ______________________ in our solar system are located beyond Neptune. 3. The _______________________________ separates the inner and outer planets. 4. __________________________________ are used to measure distances between objects in the solar system. 5. ...
Chapter 20: The Solar System
... 54. True or False? A comet’s tail can be hundreds of millions of kilometers long. ________________________ 55. If the orbit of a comet is 500 times the distance between Pluto and the sun, it would be in the ____________________________ region. 56. Rocky objects revolving around the sun that are too ...
... 54. True or False? A comet’s tail can be hundreds of millions of kilometers long. ________________________ 55. If the orbit of a comet is 500 times the distance between Pluto and the sun, it would be in the ____________________________ region. 56. Rocky objects revolving around the sun that are too ...
solar system - Teaching Children
... The sun is ______ Star of solar system. The Earth is the _______ of the universe. Mercury is _______ than Uranus. Jupiter is _______ than Venus. The Moon is ________ than mercury ...
... The sun is ______ Star of solar system. The Earth is the _______ of the universe. Mercury is _______ than Uranus. Jupiter is _______ than Venus. The Moon is ________ than mercury ...
Vermillion Middle School Solar System Webquest 8th Grade Earth
... http://www.exploratorium.edu/ronh/age/index.html 4. State your age and birth date: ...
... http://www.exploratorium.edu/ronh/age/index.html 4. State your age and birth date: ...
Test#2
... a. that Mars is a water-rich world. b. that the climate on Mars was different in the past. c. that volcanism is occurring on Mars. d. that the polar caps are made of water. 33. Which of the solar system objects listed below is most similar to Earth in terms of mass and density? a. Mercury, b. Moon, ...
... a. that Mars is a water-rich world. b. that the climate on Mars was different in the past. c. that volcanism is occurring on Mars. d. that the polar caps are made of water. 33. Which of the solar system objects listed below is most similar to Earth in terms of mass and density? a. Mercury, b. Moon, ...
celestial motions
... Siderial Period: Time for the Moon to orbit Earth and realign with a star. Equal to 27.32 days. Synodic Period: Time for the Moon to orbit Earth and realign with the Sun. Equal to 29.53 days. Zodiac: A band extending 80 on either side of the ecliptic. The Sun, Moon, and planets move through the zodi ...
... Siderial Period: Time for the Moon to orbit Earth and realign with a star. Equal to 27.32 days. Synodic Period: Time for the Moon to orbit Earth and realign with the Sun. Equal to 29.53 days. Zodiac: A band extending 80 on either side of the ecliptic. The Sun, Moon, and planets move through the zodi ...
5 - 12.4 CYU Suggested Answers - Tse
... percent of Earth’s surface is covered in water. Rich soils allow plant life to grow and adapt. Essentially, all these characteristics make Earth an ideal home for life as we know it. These characteristics are not seen on any of the other planets. 5. Mercury is the only planet with no atmosphere. 6. ...
... percent of Earth’s surface is covered in water. Rich soils allow plant life to grow and adapt. Essentially, all these characteristics make Earth an ideal home for life as we know it. These characteristics are not seen on any of the other planets. 5. Mercury is the only planet with no atmosphere. 6. ...
Life in the Universe lab1
... +asteroid+belt,+a+region+between+Mars+and+Jupiter.+The+images+are+helping+astronomers+plan+f or+the+Dawn+spacecraft's+tour+of+these+hefty+asteroids.+Credit:+NASA,+ESA,+J.+Parker+(Southwest +Research+Institute),+L.+McFadden+(University+of+Maryland) Pallas- is the second largest asteroid Vesta- the th ...
... +asteroid+belt,+a+region+between+Mars+and+Jupiter.+The+images+are+helping+astronomers+plan+f or+the+Dawn+spacecraft's+tour+of+these+hefty+asteroids.+Credit:+NASA,+ESA,+J.+Parker+(Southwest +Research+Institute),+L.+McFadden+(University+of+Maryland) Pallas- is the second largest asteroid Vesta- the th ...
FORMATION OF THE SOLAR SYSTEM
... Outer Planet Formation • Beyond the ice line rocky cores would form too, but • These cores would collect mass from larger volumes so they could grow bigger • Their gravity could be strong enough to also attract ices and some (Uranus, Neptune) or a lot (Jupiter, Saturn) gas to them • The clouds of g ...
... Outer Planet Formation • Beyond the ice line rocky cores would form too, but • These cores would collect mass from larger volumes so they could grow bigger • Their gravity could be strong enough to also attract ices and some (Uranus, Neptune) or a lot (Jupiter, Saturn) gas to them • The clouds of g ...
The Inner Planets of Our Solar System
... while the bottom of the ice is theorized to be liquid water. Ganymede (5262 km) largest natural satellite in the Solar System, a salt-water ocean is believed to exist nearly 200km below Ganymede's surface, sandwiched between layers of ice. It has a thin oxygen atmosphere. Callisto (4820 km) Callisto ...
... while the bottom of the ice is theorized to be liquid water. Ganymede (5262 km) largest natural satellite in the Solar System, a salt-water ocean is believed to exist nearly 200km below Ganymede's surface, sandwiched between layers of ice. It has a thin oxygen atmosphere. Callisto (4820 km) Callisto ...
File Space Test (March 11th) - Bonus Points
... This planet is known as Earth’s “twin” or “sister” planet ...
... This planet is known as Earth’s “twin” or “sister” planet ...
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.