HHMI Force and Motion

... The Earth moves in two different ways in space. It rotates or spins counterclockwise on its axis, which is an imaginary line that runs in a straight line from the South Pole through the Earth to the North Pole. The Earth’s axis is tilted 23.5 and always points towards the North Star, Polaris. It ta ...

2015 Final Semester Exam Review

... 8. A __________________ is a region so dense that nothing, not even light, can escape its gravity field. 9. A sequence of star colors from hottest to coolest is ________________________________. 10. A measure of the amount of the light given off by a star is its ___________________________. 11. A me ...

Stars - etpt2020s11

... The Big Dipper is very identifiable from Earth. It is so bright, that even from a city, it is easily identifiable. It is part of the constellation Ursa Major, the Big Bear. The big dipper is made up of many stars: ...

Star Formation

... Laws of Motion 1st law of motion: object @ rest (in constant motion) will stay that way unless an outside force acts on it (Law of Inertia) ...

star

... Orbit = path that a planet follows as it travels around sun Period of revolution = the time it takes for a planet to make one trip in its orbit around the sun = the length of that planet’s year Planets revolve around the sun counter-clockwise if watching from Polaris ...

wdtoc1

... The Moon Telescopes have revealed a wealth of lunar detail since their invention in the 17th century, and spacecraft have contributed further knowledge since the 1950s. Earth’s Moon is now known to be a slightly egg-shaped ball composed mostly of rock and metal. It has no liquid water, virtually no ...

Page 1 of 5

... m C. the crater traps creatures who accidentally wander into it m D. it carries an unusual amount of the element osmium, which is highly poisonous m E. it changes the Earth's orbit very significantly 23. The reason that asteroids have not collected to form a planet is because m A. their parent b ...

Name________________ Final Ms. Bailey Period ______ October

... 8. Base your answer on the accompanying diagram, which shows the tilt of Earth on its axis in relation to the Sun on one particular day. Points A through E are locations on Earth's surface. Point D is located in New York State. The dashed line represents Earth's axis. What is the latitude of locatio ...

What moon phase is shown in each picture

... 60. Which planet has the largest magnetosphere? 61. How is Jupiter’s magnetic field generated? 62. Io, Europa, Ganymede, and Callisto are referred to as what type of moons? 63. Which moon is the most geologically active body in the solar system? 64. Which of Jupiter’s moons most likely has a liquid ...

24-2 Characteristics of Stars

... • Light year – distance that light travels in one year (9.5 million million km) ...

Galaxy - Bama.ua.edu

... • Concluded such a big sun couldn’t circle earth. ...

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) ...

Milankovitch Cycles and Glaciation

... seasonal contrasts. At present, the Earth is at perihelion very close to the winter solstice. ...

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 ...

Chapter 9

... trying to explain what gravity is, and relate it to the other forces somehow  Visualized a gravitational field as a geometrical warping of four-dimensional space and time  “Don’t try. I can’t do it either.” -Einstein  His ideas explained Black Holes before they were found to exist ...

Astronomy 110: Survey of Astronomy Homework #2

... a. Mars orbits the Sun at an average distance of 1.5 AU. Use Kepler’s third law to determine how many years it takes Mars to complete one orbit around the Sun. (Be sure to show all work.) b. Pluto orbits the sun every 250 years. Use Kepler’s third law to determine how far (on average) Pluto is from ...

Astr 40 Final Exam Review ()

... 8. A star is about 5300 light years away from us. If this star underwent a supernova explosion right now, approximately how long would it be until we found out about it? 5300 years. 9. The most important reason for measuring the parallax of a star is to help us find the stars intrinsic brightness (a ...

Intro Lecture: Stars - University of Redlands

... Mizar, 88 light years distant, is the middle star in the handle of the Big Dipper. It was the first binary star system to be imaged with a telescope. Spectroscopic observations show periodic Doppler shifts in the spectra of Mizar A and B, indicating that they are each binary stars. But they were too ...

angular measure - Empyrean Quest Publishers

... – The star we call the Sun and all the celestial bodies that orbit the Sun  including Earth  the other eight planets  all their various moons  smaller bodies such as asteroids and comets ...

October 2007

... atmosphere! (it could have vanished) • “Positive” and “negative” have a colloquial and a scientific meaning ...

SAP_Paper1_FutureOfUniverse

... a more distant orbit. The most studied system of this type is the Earth-Moon system and the effects are very visible as the moon’s rotation is the same length as its orbit, causing the same face to be directed toward us at all times. In 50 billion years, if the sun has not engulfed the Earth-Moon sy ...

(Earth-like) planets

... on the Earth that came from Mars. One fell in Nakhla, Egypt, in 1911. It weighed 10 kg. The most famous one (ALH84001) was discovered in the Allan Hills of Antarctica. It is dated to be 4.5 billion years old. In a remarkable paper published in 1996, geologists claimed that this meteorite had evidenc ...

Chapter 25 - OG

... Are visible ALL YEAR LONG Other constellations come and go in the sky due to Earth’s revolution around Sun. ...

January

... Morning Stars - Venus and Jupiter. Evening Stars - Saturn, Mars and Mercury. Special Events Anticipated: METEOR SHOWERS - Quadrantid Meteor Showers the first week of the month. Best seen after midnight and early morning and conditions are expected to be ideal. However, the number of meteors are expe ...

Name

... geology or mineralogy will tell you everything you ever wanted to know about these minerals.) Almost all rocks are made of silicon and oxygen mixed with other elements such as calcium, aluminum, and iron. Mantle rock contains particularly large amounts of iron and magnesium. The mantle is also divid ...

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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