ch16 b - Manasquan Public Schools

... Uranus and Neptune Called the sister planets Both are blue in color due to their ...

The Origin of Our Solar System

... – They are the bits of meteoroids that survive passing through the Earth’s atmosphere and land on our planet’s surface • On the Earth, most rocks are only hundreds of millions of years old. • Moon rocks are also about 4.5 billion years old ...

Practice Midterm 1

... C) If one observer measures two events to be simultaneous, all observers must agree on their simultaneity. D) Time dilation is an observationally verified fact. E) Time runs slower near a black hole. 2. The Earth is farthest from the Sun in July and closest to the Sun in January. During which Northe ...

Lecture5

... Actual value=40,076 km! ...

Q: Do other planets have summer? A:

... orbits—and ask, “Would there be ...

Study Guide for 1ST Astronomy Exam

...  Describe the location of sunrise and sunset along the horizon for any given day of the year. (Figure 7.1)  Describe how the maximum altitude of the Sun depends on day of the year. Fig 7.1)  Explain why the solar day is different from the sidereal day. (Fig 7.2)  Describe how day length varies d ...

Jeopardy

... This planet has more water on the surface than any other planet (there are moons with more). ...

Article on Pluto (for 1st science news)

... is a great step forward in astronomy. "Pluto would never be considered a planet if it were discovered today, and I think the fact that we've now found one Kuiper-belt object bigger than Pluto underscores its shaky status." The resolution The decision establishes three main categories of objects in o ...

Quantum Well Electron Gain Structures and Infrared Detector Arrays

... • Its low mass means it is farthest from the center of mass • Same period, larger distance means higher velocity (what is it for Earth? For Jupiter?) • But you can’t see it (too faint) • Star moves VERY little • High mass, means small distance from COM (what is it for Sun/Earth? Sun/Jupiter?) • But ...

Study Guide for 1ST Astronomy Exam

...  Using a proportion, calculate how big an object would be given the model size of another object. e.g. “If the Earth were the size of a softball (diameter = 8 cm, how big would the Milky Way galaxy be?”, Unit 3: Astronomical Numbers  Convert between m and km,  Work in scientific notation,  Ident ...

astronomy notes2013

... 1900 - The astronomer and mathematician Bessel finally measured the distance to the stars by parallax. The nearest star (other than the Sun) turned out to be about 25 million, million miles away! (By contrast the Sun is a mere 93 million miles away from the Earth.) 1905 - Albert Einstein publishes t ...

Wrongway Planets_Do Gymnastics

... larger object — another star, or a giant planet, perhaps — may have come along. Gravity is a force that comes with mass, so planets or stars with more mass have more gravity, and thus a stronger pull on other objects. Large objects have strong gravitational forces, and these strong forces may have a ...

Ancient Astronomy

... Retrograde Motion of Mars in 2001 As seen from Earth, the superior (outer) planets usually move eastward relative to the stars. However, they periodically slow down, get brighter, reverse direction and move westward for a while, slow down again, get dimmer, and then resume their eastward motion. Th ...

Grade 3 Social Studies

... THE EARTH WITHIN A SOLAR SYSTEM What is the Solar System? Our solar system is the Sun and the planets that orbit, or spin, around it. The Sun is really a star that is only about 93,000,000 miles from us. Until 2006 we had nine known planets, Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Nept ...

Lecture 3 Ptolemy to Galileo

... smooth sphere. In fact, the Moon is no more “perfect” than the Earth. ...

Solar system junior

... it is important for all living beings because it enables the life of plants, animals and humans. The Sun is part of the Solar System together with eight other planets. The planets (Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranium, Neptune) are solid bodies which, unlike the stars, do not have t ...

Achievement

... Explain in detail how our solar system came to have inner and outer planets. In your answer, you should consider the: • formation of the solar system (including planets and their associated moons) • size and composition of the inner and outer planets • other features of the inner and outer planets r ...

May 2016 night sky chart

... For Darwin and similar locations the chart will still apply, but some stars will be lost off the southern edge while extra stars will be visible to the north. Stars down to a brightness or magnitude limit of 4.5 are shown on the star chart. To use this star chart, rotate the chart so that the direct ...

title of lesson plan - Discovery Education

... 2. Have the class brainstorm information to be included in the planetary profiles. Suggested topic questions include the following: - How large is the planet? (What is its equatorial diameter?) - What is its atmosphere like? - What are some of its geological traits? - How many moons does the planet ...

Kepler`s Laws - Harnett County High Schools Wiki

... Solar System Overview ...

Objective or GLE: 6.1.A.a: Classify celestial bodies in the solar

... are rare in the universe and they die in the form of a cataclysmic explosion called a supernova and result in the formation of a black hole. 3. Binary stars 4. Neutron stars. There are many types of stars/suns ranging from the very small and dense, to the very large and hot. All have different prope ...

Astronomy Milestone/OAS practice

... 20. Why does the Moon orbit Earth instead of the Sun? A. Gravity depends on distance and the Moon is closer to Earth. B. Only large objects orbit around the Sun and the Moon is too small. C. The Moon used to be part of Earth so it must orbit Earth. D. The Moon is moving too fast and cannot change it ...

Picture Match Words Giant Planet Phase Habitable Zone Fluctuate

... A ___________________is established by different types of stars; this zone allows acceptable temperatures for liquid water to exist. ...

a description of planets and stars you may see

... ring system and at least 63 moons, including the four large moons called the Galilean moons that were first discovered by Galileo in 1610. Uranus is the seventh planet from the Sun. It has the third-largest planetary radius and fourth-largest planetary mass in the Solar System. Herschel discovered U ...

–1– AST104 Sp06: Welcome to EXAM 2 Multiple Choice Questions

... d. Because liquid water on the surface is impossible without a liquid core. a. Jupiter, Mercury, Venus, Mars e. By putting one’s ear to the ground in a quiet location, one can hear the liquid core sloshing around. 30. Which is the LEAST helpful in distinguishing the Large-Impact model of the moon’s ...

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Satellite system (astronomy)

A satellite system is a set of gravitationally bound objects in orbit around a planetary mass object or minor planet. Generally speaking, it is a set of natural satellites (moons), although such systems may also consist of bodies such as circumplanetary disks, ring systems, moonlets, minor-planet moons and artificial satellites any of which may themselves have satellite systems of their own. Some satellite systems have complex interactions with both their parent and other moons, including magnetic, tidal, atmospheric and orbital interactions such as orbital resonances and libration. Individually major satellite objects are designated in Roman numerals. Satellite systems are referred to either by the possessive adjectives of their primary (e.g. ""Jovian system""), or less commonly by the name of their primary (e.g. ""Jupiter system""). Where only one satellite is known, or it is a binary orbiting a common centre of gravity, it may be referred to using the hyphenated names of the primary and major satellite (e.g. the ""Earth-Moon system"").Many Solar System objects are known to possess satellite systems, though their origin is still unclear. Notable examples include the largest satellite system, the Jovian system, with 67 known moons (including the large Galilean moons) and the Saturnian System with 62 known moons (and the most visible ring system in the Solar System). Both satellite systems are large and diverse. In fact all of the giant planets of the Solar System possess large satellite systems as well as planetary rings, and it is inferred that this is a general pattern. Several objects farther from the Sun also have satellite systems consisting of multiple moons, including the complex Plutonian system where multiple objects orbit a common center of mass, as well as many asteroids and plutinos. Apart from the Earth-Moon system and Mars' system of two tiny natural satellites, the other terrestrial planets are generally not considered satellite systems, although some have been orbited by artificial satellites originating from Earth.Little is known of satellite systems beyond the Solar System, although it is inferred that natural satellites are common. J1407b is an example of an extrasolar satellite system. It is also theorised that Rogue planets ejected from their planetary system could retain a system of satellites.

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Satellite system (astronomy)