The Planets Handout (Download Only)

... 1. The inner planets are closer to the sun 2. Mercury is the hottest of the planets 3. Venus is the closest in size to the Earth 4. Earth is the only planet in our solar system known to harbor life. 5. Most scientists agree that there was once large amounts of water on the planet Mars. 6. The meteor ...

Lecture10 - Indiana University Astronomy

... Material in this disk will form planets orbiting in the same manner as the material from which they are formed. ...

Habitable Moons and Planets Around Post-Main Sequence

... Large icy moons with ~100km thick crusts take too long to respond conductively to changing surface conditions on solar evolution timescales - will melt at the top (or ablate) while ice beneath remains unaffected (unless other effects take over – meltwater leads. Difficult to model ! ) ...

08_LectureOutlines

... A large amount of evidence now supports this ...

SS-Ch7

... – Very roughly, each planet is about twice as far from the Sun as its inner neighbor – This progression can be expressed mathematically (including the asteroid belt but not Neptune) as Bode’s Law – Bode’s Law may be just chance or it may be telling us ...

PDF Format

... – Very roughly, each planet is about twice as far from the Sun as its inner neighbor – This progression can be expressed mathematically (including the asteroid belt but not Neptune) as Bode’s Law – Bode’s Law may be just chance or it may be telling us ...

Your web browser (Safari 7) - National Geographic Society

... every 150 million years, the sun loses a mass equal to that of the Earth. However, even at this rate of loss, the sun has only lost about 0.01% of its total mass from solar wind. The solar wind blows in all directions, at about 1 million kph (620,000 mph). It continues moving at that speed for abou ...

Study Guide for Quiz #2

... How does the sun effect tides on Earth? Describe Spring and Neap tides. Why do we always see the same side of the moon? How should you determine if a theory is accurate? What does a magnetic field exert a force on? What can a magnetic field do? Describe how a planet produces a magnetic field. What i ...

Comets - Cloudfront.net

... A comets ion tail always points away from the sun. Solar winds blow the ion tail away from the sun. The dust tail follows the comet’s orbit and do not always point away from the sun. Scientists believe that comets come from the Oort Cloud, a region that surrounds the solar system. Comets can also co ...

Early Theories on the Distance to the Sun

... We first note that the idea that the sun is roughly 500 or so earth diameters away from us is much more ancient that Ptolemy. So Neugebauer was wrong on two counts: first, he did not know of any Indian connections although he admitted13 that the “study of Hindu astronomy is still at its beginning”; ...

CI513 Instruction and Technology Lesson Planning Guide

... satellites also. They are other types of objects that orbit the Sun. Today you will investigate these objects. 1. In a power point presentation, explain that: (10 minutes) a. A comet is a ball of cosmic snow, ice, and dust that comes from the icy cold edges of the solar system and orbits the Sun. b. ...

KilieScience6Elesson - ScienceMethodsSpring2012P60

... Solar system- consists of the Sun and the astronomical objects gravitationally bound in orbit around it, all of which formed from the collapse of a giant molecular cloud approximately 4.6 billion years ago. asteroid belt- the region of the Solar System located roughly between the orbits of the plane ...

Wonders of the Solar System - Northern Stars Planetarium

... Sun’s gravity keeps the planets from flying out of their orbits. All objects have gravity (even you!), the more massive something is the more gravity it has. All planets have gravity. Orbit The invisible path a planet follows around the Sun. Planetarium A special room with a domed ceiling and specia ...

Measuring the Distances to the Stars: Parallax What sets the parallax limit? 1

... Distance R0 to the Galactic Center • Massive (> 106 Msun) black hole at G.C. • Can follow orbits of stars around it. • Measured radial velocity (vr) of one star at several points in its orbit, and proper motion  (arcsec yr-1). • Orbit fit gives i (inclination), and predicts orbital velocity at each ...

DeltaScience - Delta Education

... in the sky to help students understand why this planet is sometimes called the “morning star” or the “evening star.” Point out that while Venus is the brightest object in the night sky after the Moon, like the Moon, it does not make its own light—the light we see is light reflected from the Sun. ...

Background Information on Meteorites

... Moon, Mars, asteroids, and other moons, these craters remain. Large impact craters known on the Earth range up to several hundred miles in diameter. During the formation of an impact crater, large amounts of rock can be melted, and some melted material, called tektites, can be thrown completely out ...

1.10.1.2.SS - WordPress.com

... The solar wind is a stream of energized, charged particles, primarily electrons and protons, flowing outward from the Sun, through the solar system at speeds as high as 900 km/s and at a temperature of 1 million degrees (Celsius). It is made of plasma. ...

Intro to Solar System

... state the assumptions Zeilik - 6/e state key observations deduce important relationship of the parts suggest predictions ...

25.4 The Outer Solar System

... The Edge of the Solar System Astronomers estimate that thousands of solar system objects exist beyond Neptune’s orbit. • These objects are found largely in two regions, the Kuiper belt and the Oort cloud. • The Kuiper belt extends from Neptune’s orbit out to about 100 AU or more from the sun. • Plut ...

chapter8FormationSS

... explained by the nebular theory? a) There are two main types of planets: terrestrial and jovian. b) Planets orbit in same direction and plane. c) Existence of asteroids and comets. d) Number of planets of each type (4 terrestrial and 4 jovian). ...

Tilted Rotation of the Sun

... Nearly all the Mass of the Solar System resides inside the Sun, which means that nearly all the Kinetic Energy (of motion) and the Angular Momentum of the Solar System is also within the Sun. No matter HOW the Solar System originally formed, how could it be that nearly all the planets (and everythin ...

solar system - s3.amazonaws.com

... Our Solar System. . . . . .Located in the Milky Way Galaxy It is just one of the billions of galaxies in our universe ...

Paper 57 - The Origin of Urantia

... nearer, the gravity pull of the gigantic visitor became so great that these tongues of gas would break off at certain points, the roots falling back into the sun while the outer sections would become detached to form independent bodies of matter, solar meteorites, which immediately started to revolv ...

Comets

... A comets ion tail always points away from the sun. Solar winds blow the ion tail away from the sun. The dust tail follows the comet’s orbit and do not always point away from the sun. Scientists believe that comets come from the Oort Cloud, a region that surrounds the solar system. Comets can also co ...

Planet Information Cards

... Medium-sized star One of more than 100 billion stars in our galaxy Diameter: 1,390,000 km Temperature: 5800 °K (surface) 15,600,000 °K (core) Contains more than 99.8% of the total mass of the Solar System Contains 75% hydrogen and 25% helium Rotation rate = 25.4 days (equator), 36 days (poles) Has 9 ...

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Heliosphere

The heliosphere is the bubble-like region of space dominated by the Sun, which extends far beyond the orbit of Pluto. Plasma ""blown"" out from the Sun, known as the solar wind, creates and maintains this bubble against the outside pressure of the interstellar medium, the hydrogen and helium gas that permeates the Milky Way Galaxy. The solar wind flows outward from the Sun until encountering the termination shock, where motion slows abruptly. The Voyager spacecraft have actively explored the outer reaches of the heliosphere, passing through the shock and entering the heliosheath, a transitional region which is in turn bounded by the outermost edge of the heliosphere, called the heliopause. The overall shape of the heliosphere is controlled by the interstellar medium, through which it is traveling, as well as the Sun, and does not appear to be perfectly spherical. The limited data available and unexplored nature of these structures have resulted in many theories.On September 12, 2013, NASA announced that Voyager 1 had exited the heliosphere on August 25, 2012, when it measured a sudden increase in plasma density of about forty times. Because the heliopause marks one boundary between the Sun's solar wind and the rest of the galaxy, a spacecraft such as Voyager 1 which has departed the heliosphere can be said to have reached interstellar space.

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Heliosphere