Lecture 3: The age of the elements, and the formation of the earth

... Jupiter is by far the most massive, and one of the least dense planets. Its composition is most similar to the sun, and in fact, may be regarded as a "failed star". That is, it did not have enough mass to become a star in its own right. This is not unusual. Paired stars, called "binary systems" or " ...

Venus

... Venus is the __________________________ planet from the Sun in our Solar System. It is the _________________________ planet in our Solar System. This planet is covered with fastmoving sulphuric acid clouds which trap __________________________ from the Sun. Its thick atmosphere is mostly carbon diox ...

Slide 1

... Exploration • Why does the position of the stars remain the same, although the position of the Earth in relation to them changes throughout the year? The positions of trees in a forest change, too, when they are observed from different angles – in proportion to the vicinity of the trees to each oth ...

etlife - University of Glasgow

... The moons of Jupiter ...

The Night Sky

... June offers the last chance this century to view one of the rarest of astronomical phenomena. In the early evening of June 5th, the planet Venus will pass directly between the Sun and Earth, an event known as a transit. The planet will be seen as a small black dot moving slowly across the face of th ...

Study Guide

... What is Jupiter’s mass compared to the Sun’s mass? Even though it contains asteroids, dwarf planets, Oort Cloud comets, a star, Kuiper Belt objects, “detached objects,” (not to mention numerous planets being orbited by hundreds of moons) why is it perfectly acceptable to think of the Solar System as ...

Sir Isaac Newton

... Earth has landmarks: rivers, mountains, cities--places of known location, to which other places can be compared. The sky, however, has no landmarks, just the stars themselves. Hipparchus decided to invent "landmarks" of his own. He picked one point in the sky and drew imaginary lines radiating out f ...

What`s That Up In The Sky???

... comets are "short-period" comets that take five or ten years to complete an orbit. Some comets are "long-period" comets that take decades, centuries, or millenia to orbit the Sun. ...

Powerpoint - Physics and Astronomy

... At noon on equinoxes Sun angle gives latitude Time of noon gives longitude ...

Kuiper Belt - Shades of Blue

... Our most distant spacecraft • Launched in 1977 • 36 Years Old ...

Solar System Contents

... •  Hellish conditions due to an extreme greenhouse effect •  Even hotter than Mercury: 470°C, day and night © 2014 Pearson Education, Inc. ...

Week 4

... Early astronomers knew Moon, stars, Mercury, Venus, Mars, Jupiter, Saturn, comets, and meteors Now known: Solar system has 135 moons, one star, eight planets (added Uranus, and Neptune), asteroids, and meteoroids ...

Document

... these numbers flip-flop during its life At its core, the Sun fuses 620 million metric tons of hydrogen each second. At this average distance, light travels from the Sun to Earth in about 8 minutes and 19 seconds, and is largely emitted by the photosphere. The only time we truly get to see the sun’s ...

The Minor Bodies of the Solar System

... As a comet approaches to within I or 2 A.U. of the Sun, it may develop an observable tail, which is directed away from the Sun (Wurm I968; Wurm & Rahe I969). Because of the rapid motion of the comet, the tail generally appears to be curved. Many comets are undoubtedly difficult to recognize or may e ...

Universal Gravitation WS

... 17. The law of gravitation is an inverse-square law. Suppose it varied as _________. (a) 1/r. (b) 1/r3. 18. The high tide on the side of the Earth nearest the moon occurs sometime later than when the moon is highest in the sky. What causes this time lag? ...

Ancient Astronomy

... speeds increase at the same rate (9.8 m/s every second). • Built telescopes and used them to observe the Sun, Moon, and planets. • Wrote a book that was influential in undermining confidence in the geocentric model of the universe, and got him into serious trouble with the Church. ...

The Copernican Revolution

... one moon. Both planets closer to the Sun than Earth have no moons.  Comets orbit the Sun also. They are dirty icebergs (or icy dirtballs) orbiting along extremely stretched-out (meaning, highly eccentric) ellipses. Many of the comets we see as they pass near the Sun take many thousands of years to ...

What Is the Solar System? / Why Does the Sun Appear to Move

... Sun Appear to Move Across the Sky? You are an astronaut on a mission in outer space. You have completed your mission and are now heading home. Fill in each of the blanks with a word from the box to reach home safely! 365¼ ...

ESCI 100 Exam 1 Review Name Explain inductive and deductive

... Explain the life cycle of a star like our sun. How does the life cycle of a giant star differ from this? ...

Summary of Objectives for Test 1

... o What shape orbit does a planet have? o When a satellite orbits the Earth, does it move faster at perigee or at apogee? When a comet orbits the Sun, does it orbit faster at perihelion or at aphelion? o What is meant by the period of a planet? In our solar system, what planet has the longest period? ...

Light and Telescopes - Otterbein University

... • Revealing great, unusual, and remarkable spectacles, opening these to the consideration of every man, and especially of philosophers and astronomers; • As observed by Galileo Galilei, gentleman of Florence, Professor of Mathematics in the University of Padua • With the aid of a Spyglass recently i ...

Moon Obs #1 Due!

... • Planets are divided into two broad categories: •Terrestrial (inner, rocky, Earthlike) planets: Mercury, Venus, Earth, Mars •Jovian (outer, Gas Giant) planets: Jupiter, Saturn, Uranus, Neptune ...

Exploring the Solar System - Rourke Publishing eBook Delivery

... planet from the Sun. Mars appears red because its soil is rich in iron oxide, or rust. Dust storms are common on Mars. These storms whip the red dust into giant hills. Mars has a very thin atmosphere made of carbon dioxide. ...

Our Solar System

... -Explain the theories for the origin of the solar system -Distinguish between questions that can be answered by science and those that cannot, and between problems that can be solved by technology and those that cannot with regards to solar system formation. -Estimate quantities of distances in pars ...

Astronomy Review

... Astronomy Earth Science ...

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Comparative planetary science

Comparative planetary science or comparative planetology is a branch of space science and planetary science in which different natural processes and systems are studied by their effects and phenomena on and between multiple bodies. The planetary processes in question include geology, hydrology, atmospheric physics, and interactions such as impact cratering, space weathering, and magnetospheric physics in the solar wind, and possibly biology, via astrobiology.Comparison of multiple bodies assists the researcher, if for no other reason than the Earth is far more accessible than any other body. Those distant bodies may then be evaluated in the context of processes already characterized on Earth. Conversely, other bodies (including extrasolar ones) may provide additional examples, edge cases, and counterexamples to earthbound processes; without a greater context, studying these phenomena in relation to Earth alone may result in low sample sizes and observational biases.

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Comparative planetary science