Lecture7 - UCSB Physics

... •  8.49 – compare the spectra from a planet and its star •  8.50 – estimate distance between a star and its planet from a picture then calculate the orbital period. ...

Formation of the Solar System

... Other Planetary Systems Over 100 extrasolar planets have been discovered since 1995 The Extrasolar Planet Encyclopedia Stars are too far away from the Sun, and direct imaging cannot detect planets near them Current strategy involves watching for the small gravitational tag the planet exerts on its ...

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... 7) What was a flaw in Copernicus’ model of the Solar System? A) He wanted the Earth at the center. B) He wanted the Moon to be at the center. C) He did not think Mars was a planet. D) He did not think Jupiter was a planet. E) He wanted all the orbits of the planets to be perfectly circular. 8) Which ...

Review Unit 1 - Effingham County Schools

... Asteroid Belt (between Mars and Jupiter) The Kuiper Belt Oort Cloud. ...

Answers to Science Semester 1Review Possible hazards in the lab

... 32. Planets that have retrograde rotation are: Venus, Uranus, and Pluto. 33. Rotation is the spinning or turning about an axis. 34. Planet’s rotation tells us the length of day. 35. Revolution is the motion of a body orbiting another body in space. 36. Planet’s revolution tells us the length of the ...

Kuiper Belt Objects - Stony Brook Astronomy

... • Long Period Comets – Random Inclinations (Oort Cloud) • Short Period Comets – Low Inclinations (Kuiper Belt) ...

Overview Notes - School District of La Crosse

... A. condense out of a swirling cloud of dust and gas. 1. Orion nebula is an example a. very rarified vacuum- million time more rarified than those found on earth 1. a study of this gas helps understand how rarified gases act. 2. super condensed stars result in a very dense star whose 1 tablespoon of ...

Astronomy Assignment #1

... the Sun in Astronomical Units, density in g/cm3, mass in Earth masses, radius in Earth radii, nature of the surface, principle composition and depth (shallow or deep)* of the atmosphere, number of natural satellites, rotation period in days (Ignore negative signs) The information can be obtained fro ...

Due: January 7, 2014 Name

... the system for 30 years. Describe the state of the system in comparison to how it began. Try the same simulation two more times, but vary the distribution of planets along the initial line a little bit. What common themes do you see in the outcomes of the three simulations? ...

Chapter 25.1: Models of our Solar System

... 2. Saturn is 10 x farther from the sun than Earth. What is the distance between Saturn and the sun in AU? In kilometers or miles? (show your work) 3. The Andromeda galaxy is 2.5 million light years away. How long does it take the light from Andromeda to reach us ? ...

What is the difference between geocentric and heliocentric theories?

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... Our sun is not the only star with planets: 146 planetary systems Upsilon Andromeda- very similar to ours 3 planets ...

Inner_and_Outer_Planets_Using_Kidspiration Lesson

...  Open Kidspiration Template ‘ Inner and Outer Planets’  Saved to Shared Server Using Kidspiration Templates:  Open Kidspiration Template ‘Inner and Outer Planets’  Use the mouse to drag the planets in our Solar System to the correct group. Make sure they are in the correct order in each group.  ...

Lesson 1 – Explain – Page 375 “The Structure of

Click on image to content

... revolving outside the orbit of Saturn and inside the orbit of Neptune. It is of the sixth magnitude, so that it is just visible to the naked eye. Uranus was accidentally discovered in 1781 by the British astronomer William Herschel. The planet was called Herschel in honour of its discoverer. The nam ...

Midterm Review Sheet

... Titan and parallels to Earth Planet Rings – composition and cause ...

Consulting the Planetary Expert: You

... move very slowly in the sky relative to other stars but Planets change their position quite quickly relative to stars. Outer planets (Mars, Jupiter, Saturn, Uranus, Neptune) also display retrograde motion. Planets move eastward in the night sky but once a year for a month or two they move westward. ...

Hunting for Extrasolar Planets: Methods and Results

... Nulling interferometer (left) and simulated detection of terrestrial-mass planets by TPF (right). Interferometer makes double images of each planet on opposite sides. This tells us the planets are there, but what we really want is the spectra of Earth-like exoplanets. ...

Solar System Notes - Miller`s Science Classroom

... The temperature at the sun’s core is about 15 million degrees Celsius. ☉ Symbol for the Sun ...

Unit Test - Dnyansagar Coaching Classes, Ahmednagar

... (D) Find odd man out. 1) Mercury, Venus, Mars, Sirius 2) Mercury, Mars, Jupiter, Saturn 3) Sun, Sirius, Pole Star, Venus 4) Mriga, Punarvasu, Ashlesha, Jupiter (A) Answer the following in short (any two) 1) What is period of rotation? 2) What is GMRT? 3) What are asteroids? 4) Name any four nakshatr ...

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... 36) The planets, the Earth, and the Sun all tend to fall in the same plane called … A) perihelion. B) aphelion. C) the ecliptic. D) retrograde motion. E) the umbra. 37) All stars in the sky appear to lie on the … A) celestial equator. B) celestial sphere. C) zodiac. D) celestial north pole. E) celes ...

Life on other planets

Astronomy Quiz 2

... objects moving away from Earth shift toward the red end of the spectrum. This wave concept is known as what? a. Reflection of light c. Refraction of light b. Kepler’s empirical laws d. The Doppler effect 7. Which theory do many astronomers believe explains that the universe began with a period of ex ...

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Definition of planet

The definition of planet, since the word was coined by the ancient Greeks, has included within its scope a wide range of celestial bodies. Greek astronomers employed the term asteres planetai (ἀστέρες πλανῆται), ""wandering stars"", for star-like objects which apparently moved over the sky. Over the millennia, the term has included a variety of different objects, from the Sun and the Moon to satellites and asteroids.By the end of the 19th century the word planet, though it had yet to be defined, had become a working term applied only to a small set of objects in the Solar System. After 1992, however, astronomers began to discover many additional objects beyond the orbit of Neptune, as well as hundreds of objects orbiting other stars. These discoveries not only increased the number of potential planets, but also expanded their variety and peculiarity. Some were nearly large enough to be stars, while others were smaller than Earth's moon. These discoveries challenged long-perceived notions of what a planet could be.The issue of a clear definition for planet came to a head in 2005 with the discovery of the trans-Neptunian object Eris, a body more massive than the smallest then-accepted planet, Pluto. In its 2006 response, the International Astronomical Union (IAU), recognised by astronomers as the world body responsible for resolving issues of nomenclature, released its decision on the matter. This definition, which applies only to the Solar System, states that a planet is a body that orbits the Sun, is massive enough for its own gravity to make it round, and has ""cleared its neighbourhood"" of smaller objects around its orbit. Under this new definition, Pluto and the other trans-Neptunian objects do not qualify as planets. The IAU's decision has not resolved all controversies, and while many scientists have accepted the definition, some in the astronomical community have rejected it outright.

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Definition of planet