Earth is the third planet from the Sun. It is a rocky planet and the fifth

... Neptune is the eighth planet from the Sun. It is an icy gas planet that is bright blue because of the methane gas in its atmosphere. It has 13 or 14 moons and lots of rings that are hard to see. © www.thecurriculumcorner.com ...

Which exoEarths should we search for life

... revealed debris discs around a wide variety of tem, the Moon is unusually large and massive stars. The discs span a wide range of masses, and relative to its host planet. It is thought to have occur at a large variety of distances from their formed during the latter stages of the Earth’s hosts. Note ...

new mercury - stmarysroom52010

... craters. Lava flooded out from the core to form a vast majority of plains giving the planet the appearance that resembles our moon. With no wind or rain Mercury hasn't ...

Neptune - ClassZone

... Uranus is usually one smooth color, but light and dark areas often appear on Neptune. Clouds of methane ice crystals can form high enough in the atmosphere of Neptune to look white. Storm systems can appear in darker shades of blue than the rest of the planet. One storm, seen during the flyby of the ...

the solar system.

... Mars is the closest neighboring planet to the Earth. We have clearly seen the signature of water on Mars. It had liquid water on it at sometime in the past, and this is why we are excited about that planet. In fact, we became excited about it first when Percival Lowell, an astronomer, misinterpreted ...

BBC Stargazing Live Star and Moon Guide

... raters are the result of impacts by asteroids and comets on the Moon’s surface. Large craters often contain a central mountain complex like Aristillus (right). The largest craters are hundreds of miles across. 2 R elatively new craters sit in the centre of bright rays, which show up best when th ...

Study Guide for 1ST Astronomy Exam

... o Calculate the period of an object orbiting the Sun given its semi-major axis in AU.  1685 Toro is an Apollo asteroid that orbits the Sun. Its semi-major axis is 1.37 AU What is its orbital period in days? . (Ans: 1.60 years = 585.7 days) o Calculate the semi-major axis of an object orbiting the S ...

6 Scale Model of the Solar System

... Extra Credit (ask your TA for permission before attempting, 5 points) ...

6 Scale Model of the Solar System

... • the scaled locations of each of the planets in the Solar System; that is, you will determine the city along the highway (I-25) each planet will be located nearest to, and how far north or south of this city the planet will be located. If more than one planet is located within a given city, identif ...

Venus

Distance from Sun - Barnhill-Memorial

...  Description: Saturn, like Jupiter, is known as a ‘gas giant’ since it is made mostly of hydrogen and helium gas. It is surrounded by the most dynamic rings of all the planets  Atmosphere: approximately 96% hydrogen, 4% helium with other trace elements. ...

Ch 22-2

... o Synodic Month: (29.5 days) cycle of the moon through its phases • Only an apparent time period of the moon around the Earth o Sidereal Month: (27 1/3 days) true time period for the moon to revolve around the Earth o Moon’s rotation and revolution around Earth are the same • Same side of the moon a ...

TTh HW03 key

The Inner Solar System

... composed mostly of carbon dioxide, which traps heat and raises the planet’s temperature. • Venus’s atmosphere contains droplets of sulfuric acid. • Average surface temperature 460 degrees. ...

The New Dwarf Planet and Plutoids

... our solar system. The definition for planets has changed and there are now dwarf planets and plutoids. In 2006 leading astronomers redefined the word planet. A planet is now defined as a large celestial body orbiting a star. It is nearly round, has its own gravity, and must clear the neighborhood ar ...

d Transparent Deception In yet Another Alleged Extra

... announced the discovery of a fifth planet around the star 55 Cancri, which is 41 light years away in the constellation Cancer. The find makes that star system the most heavily populated one known other than our sun's and raises to 265 the total of extra solar planets since astronomers began discover ...

Lecture19-ASTA01 - University of Toronto

... • There are two kinds of terrain on the Moon. • The dark gray areas visible from Earth are the smooth lunar lowlands, which – drawing on the Latin word for seas – earlier astronomers named maria. • You could also visit the lighter-coloured mountainous lunar highlands. ...

Are We Alone in the Universe?

... http://www.nasa.gov/ames/kepler/nasas-kepler-discovers-first-earth-size-planet-in-the-habitable-zone-of-another-star/#.U3ZUCl6gKWU ...

earth, moon, and sun

... You’ve seen little models that show the sun and the planets. These models are fine for showing the order of our solar system, but they are completely wrong as far as comparative size and distances go. If you wanted to make a scale model with an earth and moon large enough to see, you’d have to head ...

File

... Galaxies will collide, creating a high-energy, high-density mass – the opposite of the big bang. ...

Document

... [how did the giant planets form? which moons may have oceans?] * occultations of Uranus, Neptune ring systems ...

Planetary Taxonomy

Kepler`s Laws - University of Iowa Astrophysics

... What is the deeper significance of them? Why is nature that way? ...

Big idea # 5 * Earth in space in time

... relative to solar system, galaxy, and universe, including distance, size, and composition. SC.8.E.5.4 Explore the Law of Universal Gravitation by explaining the role that gravity plays in the formation of planets, stars, and solar systems and in determining their motions. SC.8.E.5.5 Describe and cla ...

Rocks in Space

... Troughs around Vesta’s equator are concentric with these two basins, and are large-scale fractures resulting from the impact. The largest is 22 km wide and stretches most of the way around Vesta. The impact that excavated the basins at Vesta’s south pole produced an identifiable family of meteorite ...

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Late Heavy Bombardment

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.

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Late Heavy Bombardment