Name

... Astronomy 100, Optional Exam #5 4) A planet is 4 Astronomical Units from the Sun. What is the planet’s orbital period around the Sun? A) the square of 4, which equals 16 years B) the square root of 4, which equals 2 years C) the square root of 64, which equals 8 years D) the square of 9, which equa ...

Name

... No notes, No books; You can use calculators The letter at the top of the test needs to correspond to letter at top of the answer sheet. Constants that you may need to know: • c = 3 x 108 m/s • G = 6.67 x 10-11 m3/(kg-s2) • h = 6.626 x 10-34 J-s • g = 9.8 m/s2 • σ = 5.7 x 10-8 W/(m2-K4) • 1 parsec = ...

Chapter 10

... of gravity reaches far beyond the surface of Earth and affects all celestial bodies  This force causes the bodies to remain in orbit around larger bodies  Invented the reflecting telescope which allowed more ...

Here

... • On any given night, you can see about 3000 stars without a telescope, provided the sky is dark. ...

PDF format

... every day ...

Venus

... 243 days (retrograde) 224 days, 17 hours 12,104 km 5.24 g/cm3 464* C 91% of Earth’s ...

Document

... • On any given night, you can see about 3000 stars without a telescope, provided the sky is dark. ...

Here

... • On any given night, you can see about 3000 stars without a telescope, provided the sky is dark. ...

Introductory Physics I (54

... 48) Kepler's third law allows us to find the average distance to a planet from observing its period of rotation on its axis. A) True B) False 49) A comet is in a highly elliptical orbit about the Sun. The speed of the comet is slowest when it is A) nearest the Sun. B) farthest from the Sun. C) it tr ...

Planetarium Key Points

...  Constellation shape changes with epoch and their visibility changes with epoch and observer position; shape is not for ever because of star’s proper motion, but no detectable change is observable during human life, at naked eye  Constellations and asterisms; we use structures invented by assirian ...

Due: January 3, 2014 Name

... c. Summer sunlight contains more of the infrared light that warms the Earth. d. The yearly precession of the Earth's axis causes the days to lengthen in the summer. ...

Venus - Uplift Education

... steady bright white light. Its physical dimensions are rather similar to that of Earth and is referred to as the Earth's sister planet. Venus rotates very slowly on its axis once every 243 Earth days, longer than the duration it orbits the Sun, every 225 days. It also rotates retrograde, or spin in ...

The REAL OCCULT - Montgomery College

... YEAR: originally a revolution of the sun around the earth through the ecliptic, now a repeat of the earth around sun in its orbit. A decade, century, millennium: different bundling of years PRECESSION CYCLE: originally motion of the first day of a season around the ecliptic, now cycle of the rotatio ...

Introduction to Astronomy (high school)

... Yale Star Catalog, and The Henry Draper Catalog published by Harvard College Observatory are all widely used by astronomers. The Supernova of 1987 (Supernova 1987a), one of the major astronomical events of this century, was identified with the star named SK -69 202 in the very specialized catalog, t ...

Astronomy Curriculum

... Astronomy is an observational science that deals with the origin, evolution, and interactions of our universe, galaxies, our solar system, and the various objects found therein. Astronomy is a high level elective, with elements of physics and mathematics, intended for those students who wish to furt ...

dtu7ech01 - Fort Thomas Independent Schools

... Constellations Constellations make star locating easy.  Constellation : a region and a group of stars  Night sky is divided into 88 regions (constellations)  Astronomers, requiring more accuracy, now use a coordinate system as well (right ascension and declination: see the celestial sphere) ...

Quiz # 1

Astronomical distances and Stellar magnitudes

Planetarium Key Points

...  Constellation shape change with epoch and observer position; shape is not for ever becouse of star’s proper motion, but no detectable change during human life at naked eye  Constellations and asterisms; we use structures invented by assirian priests in XII century BC: Orion, Ursa Major, Ursa Mino ...

Astronomy in Korea - Royal Asiatic Society

... as one was found in each of the tombs previously mentioned, Wang Hsii and Painted Basket A set consisted of two boards, a square one symbolizing the earth, and a circular one above it representing heaven. The Wang Hsii volume has a reconstructed drawing to represent the original, (Figure 10) which r ...

"WITH THE STARS" i - Royal Astronomical Society of Canada

... tion of the Sun and Moon, Venus is the brightthe source of Earth's life and energy. Only a est object in the sky when suitably placed for stone's throwaway as astronomical. distances observation. This brilliance is due largely to go, the "Sun's light, travelling 186,000miles a its dense atmosphere a ...

Sun - Midlandstech

... Note that the following lectures include animations and PowerPoint effects such as ...

Northern Hemisphere – December 2012

... month and about 02:30 at the end. Its brightness rises from +0.7 to +0.6 during December, while its angular diameter increases from 15.7 to 16.1". Its rings now cover around twice that diameter as they have now opened out to around 18-19 degrees from the line of sight, the greatest angle for six yea ...

Constellations

... As the earth rotates on its axis the constellations move. They rotate around Polaris counter clockwise. The earth’s axis points toward the N. Star Pg. 617 (fig. 28.2) ...

A Sense of Scale and The Motions of Earth The guitar player

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Archaeoastronomy

Archaeoastronomy (also spelled archeoastronomy) is the study of how people in the past ""have understood the phenomena in the sky, how they used these phenomena and what role the sky played in their cultures."" Clive Ruggles argues it is misleading to consider archaeoastronomy to be the study of ancient astronomy, as modern astronomy is a scientific discipline, while archaeoastronomy considers symbolically rich cultural interpretations of phenomena in the sky by other cultures. It is often twinned with ethnoastronomy, the anthropological study of skywatching in contemporary societies. Archaeoastronomy is also closely associated with historical astronomy, the use of historical records of heavenly events to answer astronomical problems and the history of astronomy, which uses written records to evaluate past astronomical practice.Archaeoastronomy uses a variety of methods to uncover evidence of past practices including archaeology, anthropology, astronomy, statistics and probability, and history. Because these methods are diverse and use data from such different sources, integrating them into a coherent argument has been a long-term difficulty for archaeoastronomers. Archaeoastronomy fills complementary niches in landscape archaeology and cognitive archaeology. Material evidence and its connection to the sky can reveal how a wider landscape can be integrated into beliefs about the cycles of nature, such as Mayan astronomy and its relationship with agriculture. Other examples which have brought together ideas of cognition and landscape include studies of the cosmic order embedded in the roads of settlements.Archaeoastronomy can be applied to all cultures and all time periods. The meanings of the sky vary from culture to culture; nevertheless there are scientific methods which can be applied across cultures when examining ancient beliefs. It is perhaps the need to balance the social and scientific aspects of archaeoastronomy which led Clive Ruggles to describe it as: ""...[A] field with academic work of high quality at one end but uncontrolled speculation bordering on lunacy at the other.""

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Archaeoastronomy