Chapter13_New

... 1. He had to see whether the new object moved with respect to the stars. 2. The motion of Uranus could not be explained by the gravitational attractions of the Sun and known planets. 3. He calculated that there was an unknown planet near the position where other astronomers later found Neptune. 4. T ...

Chapter 14- Solar System

... Galileo knew the same planets that the ancient Greeks had known-Mercury, Venus, Earth, Mars, Jupiter, and Saturn. Since Galileo's time, astronomers have discovered two more planets-Uranus and Neptune, as well as Pluto, which is no longer considered to be a planet. The planets vary greatly in size an ...

Where is it? On the Celestial Sphere

... All Celestial objects can be located: • In the sky at a given time with Altitude and Azimuth But that changes due to the motion of the celestial sphere. • On the Celestial Sphere with Right Ascension and Declination. The RA and Dec of almost all celestial objects stay the same. Except… The Objects i ...

Comets

... returning comet is Halley's Comet. It revolves around the sun once every 76 years. It was named for Edmund Halley who discovered it in 1682. Its orbit of about 11 billion kilometers takes it just past Neptune. The tail of Halley's Comet has been measured at about 150 million kilometers. That's the s ...

Can Water Fall Up?

... Moon, and Earth are in line. From your study of lunar phases, you know that this alignment occurs when the Moon is in its full moon and new moon phases. These high tides are called “spring tides,” even though they happen year-round and have nothing to do with the seasons. ...

To the Moon!!

... Theories of Origin (cont.) • Fission theory – In early days of the solar system, the earth was spinning so fast that a piece of the earth flew off and remained in the earth’s orbit • Capture theory – the moon was formed elsewhere in the solar system and was “captured” by the earth, perhaps by ...

Phases of the Moon - Michigan State University

... The sun and the moon are not the only things we can see in the sky – we can also see stars, constellations and planets. Constellations are groups of stars that resemble objects, people or animals. The stars that make up the constellations are huge balls of gas, like our sun, that are located very, v ...

The search for Earth-like planets - Creation Ministries International

... most of the visible spectrum and some in the infrared. The primary goal of Kepler is to search for Earth-like planets in our own galaxy. It will concentrate its attention along one arm of the Milky Way galaxy and look for transiting extrasolar planets. Kepler has only recently undergone initial test ...

PowerPoint. - teachearthscience.org

... Earth’s oceans. Very large events occur every 10,000’s of years – these could be events that end our civilization. ...

Chapter 18 - "The Earth in Space"

... • Eclipses of the Sun and Moon – An eclipse is when the shadow of one object falls on the illuminated surface of another. – The Earth and moons shadows point away as a cone. • The inner cone of this shadow is called the umbra • The outer cone of this shadow is called the penumbra – Total solar ecli ...

Document

... 2. Can you have low precision and high accuracy? 3. Suppose many people used the small angle formula to estimate the linear distance between two dots on the screen. They all sat in the same seat while making the measurements. Will there be a bias in their measurements? ...

kristen.gattshall.file7.1454335203.2016

... Sun Earth Moon Poster • 12. In blue dotted lines with arrows, draw the orbit of the earth around the sun. It should be a counterclockwise orbit! • In blue, along your line, write “365 ¼ days” since that’s how long it takes to orbit! ...

ph507-16-1exo2

... Currently the most important class of exoplanets are those that transit the disk of their parent stars, allowing for a determination of planetary radii. SELECTION: Of course, while planets close to their parent stars will preferentially be found, due to their shorter orbital periods and greater like ...

Spectral fingerprinting student project

... scientists may soon be hot on its trail. In 1995, the first planet around another sun-like star was discovered by astronomers using Doppler detection—a method that scientists have used to reveal Saturn-sized (or larger) planets close to their parent suns. Today, astronomers know of more than 100 can ...

Colburn Earth Science Museum - Asheville Museum of Science

... sweet relief. Pluto has become the rock star of our solar system! The New Horizon Spacecraft recently completed a close approach of the Pluto system at a distance of 13,691 km from ...

Sample Answer Sheet for The 10 Tourist Wonders of the

... Justification: Eris is the largest of the dwarf planets in our solar system discovered so far, even larger than Pluto. Dwarf planets are a population of objects in our home system, consisting of smaller (but still round) worlds which are too small to have cleared out their immediate neighborhoods. T ...

Recap: High Mass Stars

... • Core is no longer fusing (iron is it!) • The balance of pressure loses and the entire star collapses • Massive explosion – Creates heavier elements ...

A Closer Look of the Inner and Outer Planets

... Students should now complete the "W" (what they want to know) of the KWL chart. Students write their ideas in their science notebook and then they can share out their ideas as the teacher records for the whole class to see. Students will write down their ideas and ideas of their classmates in their ...

Solar System Quiz

... 3. Which of these best describes the composition of a nebula such as the Crab Nebula? a. Large asteroids c. Ice crystals b. Clouds of dust and gas d. Planets and moons 4. Which characteristic do all the planets in our solar system have in common? a. Angle of axial tilt c. Percentages of atmospheric ...

ELIZABETH KLARER: UFO Contactee and Space

The Size and Structure of the Milky Way Galaxy

... Milky Way (leads to something extremely interesting) V=220 km/sec ...

solar cycle

... • Given that the Sun loses energy as sunshine, an internal energy source must be present to maintain hydrostatic equilibrium – If the Sun were made of pure coal, the Sun would last only a few thousand years – If the Sun were not in equilibrium, but creating light energy from gravitational energy (th ...

Chapter 12 Resource: The Solar System

... Hands-On Activities MiniLAB: Inferring Effects of Gravity . . . . . . . . . . . . . . . . . . . . . . . . . . 3 ...

Chapter 11

planet earth

... • Label the four planets closest to the Sun with their names in red. • Label the four planets furthest from the Sun with their names in blue. • One of these astronomical bodies is not a planet. (It is the dwarf planet Pluto.) Which one is it? ...

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Orrery

An orrery is a mechanical model of the solar system that illustrates or predicts the relative positions and motions of the planets and moons, usually according to the heliocentric model. It may also represent the relative sizes of these bodies; but since accurate scaling is often not practical due to the actual large ratio differences, a subdued approximation may be used instead. Though the Greeks had working planetaria, the first orrery that was a planetarium of the modern era was produced in 1704, and one was presented to Charles Boyle, 4th Earl of Orrery — whence came the name. They are typically driven by a clockwork mechanism with a globe representing the Sun at the centre, and with a planet at the end of each of the arms.

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Orrery