How long does it take light to travel from the Moon to the Earth, a L

... ____ The Greenhouse eﬀect would no longer act to heat the Earth’s atmosphere ____ At sunset the Sun’s apparent color would be no diﬀerent than the noon"me Sun ...

PPTX - University of Colorado Boulder

... • You must complete at least 5 of the 6 labs to receive a passing grade in this course. ...

May 8, 2012 - Plummer Pumas Science

... Defining the Habitable Zone The presence of liquid water at the surface of a planet appears to be one of the central characteristic that distinguishes whether or not a planet can harbor life. This requires that the planet be at a distance from the central star where the temperature is not too low t ...

s*t*a*r chart - Ontario Science Centre

... FEB 29 Leap day! One revolution of the Earth around the Sun takes approximately 365 days and 6 hours, resulting in an additional 24 hours accumulating every four years. * Impressive or relatively rare astronomical event ...

Earth`s Rotation

... Earth’s actual motion is 15° each hour. Because of this, stars appear to move through the night sky at a rate of 15° / hour. There is one exception to this in the northern hemisphere – Polaris, which always appears in the same place - all night, every night. There are two ways you might see a star t ...

Professor Jonathan Fortney TA Kate Dallas Thursday, February 11

... A) They represent one of the greatest mysteries in the solar system, as no one has suggested a reasonable hypothesis for their formation. B) They were probably carved in Mercury's early history by running water. C) They were probably formed by tectonic stresses when the entire planet shrank as its c ...

Our Place in the Universe

... different zodiac signs. We are in the “age of aquarius” because our axis most closely points to aquarius.** ...

Stars

... Observed motions of the Sun can be described if either 1) The Sun goes around the Earth once per day, or 2) The Earth rotates about its axis. ...

Fig. 16-7, p.363

... Two Kinds of Planets & the Condensation Sequence Era of Heavy Bombardment - Frustration of Life ? Extrasolar Planets & the “Hot Jupiter” Puzzle ...

Revolutions of Earth

... heavens, are a set of spheres layered on top of one another. Each object in the sky is attached to a sphere and moves around Earth as that sphere rotates. From Earth outward, these spheres contain the Moon, Mercury, Venus, the Sun, Mars, Jupiter, and Saturn. An outer sphere holds all the stars. Sinc ...

NASA FACT SHEET: Asteroids, Comets, and NASA Research

... Earth and all the other planets and moons of our Solar System have been continuously pelted by asteroids and comets ever since their formation -- just look at the Moon's craters through a small telescope or a good pair of binoculars. NASA supports several ground-based programs and related technolog ...

Lecture 3 - Night Sky and Motion of the Earth around the Sun

... 1. The orbit of the Earth is an ellipse, not a circle, and the Earth is closer to the Sun in summer than in winter. 2. The rotation of the Earth is tilted relative to its orbit. ...

SNP Quick Tour

... XVI. On-line features Note: You can download the full Starry Night Pro Users guide at www.StarryNight.com/tech_swupdates.html ...

PLEIADES - ISILIMELA - Communicating Astronomy With The Public

... = 35.02km/sec Diameter = 12.100km Temperature = 480degrees C Moons ...

MULTIPLE CHOICE QUESTIONS (50 pts

... B. Venus and Mercury C. Venus and Saturn D. Mars and Saturn E. Saturn and Jupiter 15. The oldest regions on the Martian surface as investigated during Lab #3 are those with A. fault features. B. volcanoes. C. channels. D. many impact craters. E. sand dunes. 16. Halley’s comet is named after Sir Edmu ...

43 Astronomy 43.1 Recall that Earth is one of the many planets in

... o Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune, (Pluto ...

Volcanoes and Igneous Activity Earth

... • Rotation • Turning, or spinning, of a body on its axis • Two measurements for rotation • Mean solar day – the time interval from one noon to the next, about 24 hours • Sidereal day – the time it takes for Earth to make one complete rotation (360°) with respect to a star other than the Sun – 23 hou ...

handout

... A. The planets are orbiting the sun almost exactly in the plane of the _______________. B. The Moon is orbiting _______________ in almost the same plane (Ecliptic) C. Mercury appears at most __________ from the sun. It can occasionally be seen shortly after _______________ in the west or before sunr ...

Chapter 26 Review - geraldinescience

... 3 The seasons are caused by .... A B C D ...

Approximately 14 billion years ago, all matter and energy was

... Comets are small bodies made of rocky and metallic pieces held together by frozen gases. Comets generally revolve about the sun in ...

Detection and Properties of Planetary Systems

... • How do planetary systems form? • Is this a common or an infrequent event? • How unique are the properties of our own solar system? • Are these qualities important for life to form? Up until now we have had only one laboratory to test planet formation theories. We need more! ...

sunmoon - University of Glasgow

... The two end stars are the ‘Pointers’, and point towards the Pole Star, (which is in the Little Bear). ...

Seasons and the Tilted Earth Name TEK 8.7A Date Period _____

... When the Northern hemisphere is pointing at the sun, sunlight falls most directly on it. This is summer in the Northern Hemisphere because direct light causes more heat than indirect. As the Earth moves around to the other side of the Sun the Northern Hemisphere is tilted away from the Sun. Now the ...

Day Starters

... The Earth “wobbles” like a top and moves through a cycle of “North Stars” every 25,000 years. b. The Earth’s axis is “tilted” c. The Earth’s orbit gets larger and smaller d. The “tilt” of the Earth moves between 22.1º and 24.5º 4. An Astronomical Unit is a. The distance around Earth’s orbit b. One l ...

Lecture 12-13: Planetary atmospheres

... o  Trace elements also present in CO2, CH4, N2, H2O, NH3. o  If planet’s gravity not strong enough or surface temperature is too large, these elements escape, leaving planet without an atmosphere. o  Solar wind can also drag material from the atmosphere. o  Relevant for planets without significant m ...

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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