Ethan - St. Brigid

... ©At least 16 moons. ©It has two rings. ©12 earth years is one year. ©One day is 9.8 hours. ...

update : Feb.27,2014

... Need to be in the right kind of solar system with a Jupiter size planet at the right distance to remove much of debris from system to reduce impacts on earth not close enough to significantly affect Earth’s orbit ...

Worksheet on the Plate Tectonic Theory

... 2. North America is part of the _______________________ plate. 3. If you look closely, the continents seem to fit together like a ___________. 4. Continents were one compressed into a continent called _______________, which means “_______________”. 5. Scientists measure continental drift using a tec ...

The Solar System (Ch. 6 in text) The solar system consists of the Sun

... planets orbiting stars other than the sun have been discovered. There are several techniques available, but we’ll just discuss a few. 1. Direct detection—not possible at present. Reflected light from planet is about a billion times less than that of the star (less in the infrared, but still about a ...

Seasons

... • 1 complete cycle takes 26,000 years ...

AST301.Ch6.15.SolarSystems - University of Texas Astronomy

... planets orbiting stars other than the sun have been discovered. There are several techniques available, but we’ll just discuss a few. 1. Direct detection—not possible at present. Reflected light from planet is about a billion times less than that of the star (less in the infrared, but still about a ...

Categorizing Solar System Objects

PHY 133 - GEOCITIES.ws

... the stars. After 360 days, it had made it nearly full circle) You see, the SUN and the STARS both rise and set (except for a set of ‘circumpolar’ stars which just appear to do rings around a fixed spot in the sky), but they do so at slightly different rates. Stars rise about 4 minutes earlier each n ...

PSCI 1414 General Astronomy

Stars and Galaxies Section 1 Stars

ASTR100 Class 01 - University of Maryland Department of

PDF file

...  relative speed, how much they move with respect to each other  retrograde motion  Venus, Mercury – always close to the Sun ...

Universal Gravitation

... Remember that “Ƭ” is the period, which is the time for ONE COMPLETE CYCLE of the pendulum… BACK AND FORTH!! Procedure and Analysis: 1. Set up the equipment as shown. 2. Varying the length of the pendulum decreasing them by 5cm (0.05m) each trial. Swing the .pendulum and time how long it takes for 20 ...

What theory best explains the features of our

... • nearly identical in size to Earth; surface hidden by thick clouds • hellish conditions due to an extreme greenhouse effect: • even hotter than Mercury: 470°C, both day and night • atmospheric pressure equiv. to pressure 1 km deep in oceans • no oxygen, no water, … • perhaps more than any other pla ...

Chapter 16

ph507-16-1exo1

... • Primarily composed of silicate rocks (carbon/diamond planets?) • In the Solar System (ONLY) orbital radii less than giant planets ...

The search of habitable Earth-like exoplanets

Search for Life in the Universe

Stars - Robert M. Hazen

Lecture Summary (11/22)

... by hydrogen fusion as helium nuclei build up in the core. With a drop in energy, the outward force cannot balance the inward force. Gravity causes collapse that heats the interior, and in a shell surrounding the helium core hydrogen fusion begins again. The outer layers of the Sun will expand at thi ...

October 3

... Mercury Venus Earth Mars (Ceres) Jupiter Saturn Uranus Neptune ...

Astronomy Campus Assessment

... C. Galaxies can collide together, helping to create new stars in the process. D. Our galaxy, The Milky Way Galaxy, is one of billions of other galaxies located in the universe ...

Underline your strong TEKS and circle your weak TEKS

... A. Light we see from distant galaxies was emitted long ago. B. Gravity holds a galaxy in the same general area. C. All galaxies appear to be moving away from all other galaxies. D. Many galaxies have similar shapes. ©2014 Science Teaching Junkie, Inc. ...

Space – Homework 1

... limited to a PowerPoint presentation with 2 slides or 2 sides of an A4 sheet of paper. All the information presented must be in your own words. You have one week to complete the task. Space is limited, so select the most important information and present it with zing! Your presentation must include ...

1. (6 points, 3 for each answer) Planets are easier to detect around

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Rare Earth hypothesis

In planetary astronomy and astrobiology, the Rare Earth Hypothesis argues that the origin of life and the evolution of biological complexity such as sexually reproducing, multicellular organisms on Earth (and, subsequently, human intelligence) required an improbable combination of astrophysical and geological events and circumstances. The hypothesis argues that complex extraterrestrial life is a very improbable phenomenon and likely to be extremely rare. The term ""Rare Earth"" originates from Rare Earth: Why Complex Life Is Uncommon in the Universe (2000), a book by Peter Ward, a geologist and paleontologist, and Donald E. Brownlee, an astronomer and astrobiologist, both faculty members at the University of Washington.An alternative view point was argued by Carl Sagan and Frank Drake, among others. It holds that Earth is a typical rocky planet in a typical planetary system, located in a non-exceptional region of a common barred-spiral galaxy. Given the principle of mediocrity (also called the Copernican principle), it is probable that the universe teems with complex life. Ward and Brownlee argue to the contrary: that planets, planetary systems, and galactic regions that are as friendly to complex life as are the Earth, the Solar System, and our region of the Milky Way are very rare.

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Rare Earth hypothesis