Unit Review Name

... how development in one area leads to advancement in the other. You have taken part in a number of activities that required creative solutions to a variety of problems. Many of the activities have resulted in a number of different solutions for the same problem. These solutions may have involved diff ...

Earth, Moon and the Sun

... What have you seen, other than pictures from space, that indicates Earth’s shape? Think about walking toward someone over a hill. First, you see the top of the person’s head, and then you can see more and more of that person. Similarly, if you sail toward a lighthouse, you first see the top of the l ...

Spring `03 final exam study guide

... 20. What is a blink comparator and for what is it used? 21. Is it probable that Pluto is a former moon of Neptune? Why or why not? 22. Draw a sketch of a comet, labeling its coma, nucleus, and tail. 23. Please distinguish among meteoroids, meteors, and meteorites. 24. Describe the nature and types o ...

PowerPoint Presentation - Planetary Configurations

... • A bundle of light strikes falls across much land at the poles; the same amount of light (and energy) is concentrated into less land at the equator. • Whether Earth is tilted toward or away from the Sun changes how a bundle of light is concentrated on land at a given latitude over the course of a y ...

light years - Physics and Astronomy

... - Distance to next nearest star (Proxima Centauri): 270,000 AU = 4.3 "light years" (light year: distance light travels in one year, 9.5 x 1012 km. Speed of light c = 3 x 108 m/sec) ...

brock university answers

... (b) hydrostatic equilibrium. (c) magnetohydrodynamics. (d) * nuclear reactions that convert hydrogen into helium. 12. The distance from the Sun to Neptune, the farthest known planet, is about (a) * 30 AU. (b) 30 light years. (c) 30 parsecs. (d) 30 kWh. 13. The Sun is (a) significantly larger than av ...

Physics@Brock - Brock University

... (b) hydrostatic equilibrium. (c) magnetohydrodynamics. (d) nuclear reactions that convert hydrogen into helium. 12. The distance from the Sun to Neptune, the farthest known planet, is about (a) 30 AU. (b) 30 light years. (c) 30 parsecs. (d) 30 kWh. 13. The Sun is (a) significantly larger than averag ...

Gravity Review

... A planet is orbiting a star that is about 10 times the size of our sun. If the star were to collapse and become a black hole, what would happen to the gravitational attraction between the star and the planet? A. smaller B. larger C. the same ...

Seasonal Visibility of Stars, and Visibility of Planets in 2014

... another the Earth, and others the five other planets. Be sure to have all students take a turn at representing the Earth. That student will do more than just stand in place, but will rotate as well, to determine planet visibility at dusk, in middle of night, and at dawn. These two charts of the orbi ...

Document

... How many did you guess n the correct order? ________ (out of 13) How many definitions were correct? _________ (out of 13) Organize Your Space Questions (Cornell Note Style with summary) 1. Name and briefly describe the theory that explains the beginning of the Universe (pg. 454-455) 2. How are the g ...

Lecture 1: The Scale of the Cosmos - Ohio

... from the Tech Depot on the ground floor of Baker Center. • Tech Depot staff will be available to toruble-shoot clickers (if necessary) and replace batteries for free. ...

Document

... Sun’s rays must pass through. Winter is colder than summer because the Sun is lower in winter which means the Sun’s rays aren’t directly hitting Earth and have more atmospheres to pass through. In summer the Sun is higher which means the Sun’s rays are directly hitting the Earth and have fewer atmo ...

Exoplanets and Tides

... Venus, an inferior planet, very rarely transits the face of the Sun as seen from Earth. This happened most recently in 2012, as shown here (the black dot on the Sun’s face) ...

Distances in Space

... Earth. How many astronomical units is Pluto from the Sun? 3. Earth is 149.6 million km from the Sun. If Saturn is 1,434 million km from the Sun. How many astronomical units is Saturn from the Sun? 4. Sunlight reaches Earth in 8.33 min. How long, in minutes, would it take sunlight to reach Pluto? ...

Patterns in the Sky

... - Different cultures named the same constellations differently as they used their imagination to group the stars. - Orion (a great hunter), named by the Greeks, was also named as a canoe by the First Nations peoples of North America. - Official constellations have names from the Greeks and Arabic my ...

Chapter 3 Section 2 (pgs 68-73) the sun`s outer atmosphere – this is

... Earth we call this a day. A revolution is when a planet or moon orbits around either the sun (planet) or another planet (moon); here on Earth we call this a year when the Earth orbits around the sun and a month when the moon goes around the Earth once. Orbit is simply the path of the object. What ar ...

Solar System

... The planets in our solar system are: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune and Pluto ...

Bad Astronomy

... gravitational pull more than twice as effective as the sun's. ...

Teachers Notes - Edinburgh International Science Festival

... movements of objects across the sky and suggest theories which would explain these movements. One theory, which was popular for a long time, was the geocentric or Earth centred model. Scientists suggested that the sun, moon, planets and stars were in orbit around the Earth to explain the movements t ...

Space - No Brain Too Small

... The planets are (in order, moving away from the Sun): Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune and Pluto. A mnemonic may be useful to help you name the planets in order. Eg. My Very Easy Method Just Speeds Up Naming Planets. The planets (except Pluto) have elliptical (almost cir ...

Bella Nicole and Calli

... hot firey ball of gas that makes its own light and heat. The Sun is 27,000,000 degrees. More than 100 earths can fit across it. ...

Astronomy and the Universe - Department of Physics and Astronomy

... – A set of hypotheses that have withstood observational or experimental tests ...

The Case against Copernicus

... In contrast, the motion of celestial bodies such as stars and planets was easy to explain—astronomers since the time of Aristotle had postulated that celestial bodies were made of a special aethereal substance that was not found on Earth. This substance had a natural tendency toward rapid circular m ...

The Solar System

...  The Solar System is located within one of the outer arms of Milky Way  which contains about 200 billion stars.  For many thousands of years, humanity, with a few notable exceptions,  did not recognize the existence of the Solar System.  People believed the Earth to be stationary at the centre ...

SYLLABUS Spring 2012 SCIE 3304, SECTION 001 ASTRONOMY

... of the planets, asteroids, meteoroids, comets, and the discovery of extrasolar planets, study of the Sun as a star, measurement of different properties of stars, birth, evolution and death of stars, strange states of matter (neutron stars and black holes), Milky Way Galaxy, study of the Universe bey ...

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Geocentric model

In astronomy, the geocentric model (also known as geocentrism, or the Ptolemaic system) is a description of the cosmos where Earth is at the orbital center of all celestial bodies. This model served as the predominant cosmological system in many ancient civilizations such as ancient Greece including the noteworthy systems of Aristotle (see Aristotelian physics) and Ptolemy. As such, they believed that the Sun, Moon, stars, and naked eye planets circled Earth.Two commonly made observations supported the idea that Earth was the center of the Universe. The stars, the sun, and planets appear to revolve around Earth each day, making Earth the center of that system. The stars were thought to be on a celestial sphere, with the earth at its center, that rotated each day, using a line through the north and south pole as an axis. The stars closest to the equator appeared to rise and fall the greatest distance, but each star circled back to its rising point each day. The second observation supporting the geocentric model was that the Earth does not seem to move from the perspective of an Earth-bound observer, and that it is solid, stable, and unmoving.Ancient Roman and medieval philosophers usually combined the geocentric model with a spherical Earth. It is not the same as the older flat Earth model implied in some mythology, as was the case with the biblical and postbiblical Latin cosmology. The ancient Jewish Babylonian uranography pictured a flat Earth with a dome-shaped rigid canopy named firmament placed over it. (רקיע- rāqîa').However, the ancient Greeks believed that the motions of the planets were circular and not elliptical, a view that was not challenged in Western culture until the 17th century through the synthesis of theories by Copernicus and Kepler.The astronomical predictions of Ptolemy's geocentric model were used to prepare astrological and astronomical charts for over 1500 years. The geocentric model held sway into the early modern age, but from the late 16th century onward was gradually superseded by the heliocentric model of Copernicus, Galileo and Kepler. There was much resistance to the transition between these two theories. Christian theologians were reluctant to reject a theory that agreed with Bible passages (e.g. ""Sun, stand you still upon Gibeon"", Joshua 10:12 – King James 2000 Bible). Others felt a new, unknown theory could not subvert an accepted consensus for geocentrism.

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Geocentric model