THE EARTH AND MOON

... The Earth has 6 times the amount of gravity than the moon. From the equator is 9.789 m/s2 and from the poles 9.832 m/s2. ...

the solar system and the universe

... four days (Jupiter’s orbit takes twelve years!) This illustrated that exoplanets are quite different to those in our Solar System, and prompted much more research into finding these strange worlds. ...

The planets in the solar system

... are formed during the collapse of a nebula into a thin disk of gas and dust. A proto-star (proto = early) forms at the core, surrounded by a rotating proto-planetary disk. Through a process called accretion (i.e., sticky collision) dust particles in the disk steadily accumulate mass to form ever-lar ...

April 2016

... David Nakamoto gave us a little history lesson of finding new planets after the original 7. (Mercury, Venus, Mars, Jupiter, Saturn, the Moon & Sun, and eventually, the Earth. It took a while to move the sun out of the planet category & replace it with Earth, as Earth was thought to be the center of ...

What is a Red Shift?

... sky for 10 days? What was one difference with the telescope the second time they pointed it at a black area in space? Technology is defined as the use of knowledge gained through science to make new products or tools people can use. What role does technology have in science? ...

Barycenter of Solar System Moon orbits

... • We can use vectors to verify the “only curving inward” nature – And vectors very happily don’t worry about limitations like XY plots to try to illustrate curvature! – And, since we have already calculated the XY positions, we can easily calculate vectors • … and use certain properties of vectors ( ...

FREE Sample Here

... facing them. For different positions of the Moon, ask students how much of the surface of the Moon is lit, and how much of the lit surface can be seen from Earth. Emphasize that half the surface is always receiving light, but we just do not see it all. Before showing Figure 0.13, demonstrate and dis ...

Biology: Unit One Calendar

...  Compare the models of the universe developed by Ptolemy, and Copernicus. (IE, 1k, IE.1n)  Summarize Kepler’s three laws of planetary motion. (IE, 1k)  Describe how Newton explained Kepler’s law of motion. (4b, 5a) Section 27.3 The Inner Planets  Identify the basic characteristics of the inner p ...

Our Solar System

... distances and sizes compared to a scale model. The distances to the planets and the sizes of the planets are shown on the same scale, which is 1 inch = 12,000 miles. At this scale, Jupiter is 1,111 yards from the Sun and is represented by a soccer ball of diameter about 7.33 inches. Pluto is 4.73 mi ...

STARS

... 000 times as massive as Earth • The Sun contains more than 99% of all the mass in the solar system ...

The script - University of Sheffield

... and (if necessary) “smaller” to extract a reasonable number. If nothing sensible emerges after a dozen or so guesses, give up.] About 59 km away – that’s somewhere in Leeds (or whatever town is appropriate for your venue). It takes light four years to reach the nearest star: most of you weren’t even ...

New Earthlike Planet Discovered

... what's in that atmosphere is still a mystery and if it's too thick that could make the planet's surface temperature too hot, Mayor said. However, the research team believes the average temperature to be somewhere between 32 and 104 degrees and that set off celebrations among astronomers. Until now, ...

apparent magnitude

... and crushed into oblivion. Does this tale sound like a horror story? Guess again! Scientists call this phantom a black hole. As a star runs out of fuel, it cools and eventually collapses under the force of its own gravity. If the collapsing star is massive enough, it may shrink to become a black hol ...

Can we prove God Exists? Part 1 How can modern science help us

... observations). So evolution – just as creation – is only a model used to explain the observations in the world as we know it. It is not a fact, not a natural law, not even a scientific theory, but just a model! I would also like to emphasize, that there are only two possible models for the origins o ...

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? ...

The Quest Ahead - Mr. Catt`s Class

... 3. Ancient observers wondered about these objects as we do today along with a number of even more exotic ones. 4. These are but examples through which we will study the basic methods of inquiry of not only astronomy but of all the natural sciences. 5. In our quest to understand the universe we will ...

Basic Astronomical Estimates

Measuring the Sun - Faculty Web Sites

... What did you or your group determine to be the diameter of the Sun? ACCEPTED VALUE 23,891,238 KM 100 EARTH RADII ...

STAR UNIT FLASH BACKS

... away from earth, how many years will it take for its light to reach earth? a.) 1 b.) 100,000,000,000 ...

File

... 29. Which of the following statements about Saturn is correct according to the planetary data table? A. B. C. D. ...

Unit 6: Astronomy

... astronomy. Copernicus examined the sky from a palace tower. He made his observations without any equipment. In the late 1500s, the astronomer Galileo used a telescope and confirmed Copernicus’ ideas. ...

File

... 1601 -- Thomas Harriot (c.1560-1521) proposed the sine law of refraction, which he failed to publish. Tycho Brahe dies at his castle new Prague. Tycho Brahe dies 24 October in Prague and Kepler soon appointed ImperialMathematician on 6 November; Kepler was able to retain Tycho's astronomical data fo ...

clicking here - The Learning Dome

... A. Because we see different amounts of the side of the moon that is being lit up by the sun? B. Because the clouds cover part of the moon? C. Because the Earth is rotating? ...

March 2016

... That would be Venus, the hottest planet in the solar system. A hellish goddess with a mean surface temperature of 900°F due to a 96.5% carbon dioxide atmosphere; the same carbon dioxide that humans are increasingly dumping into the air by burning fossil fuels. It’s a runaway greenhouse effect where ...

Time and Diurnal Motion

... Declination at North point is 90-Latitude (52°) Declination at South point is Latitude-90 (-52°) ...

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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