Solar System Bead Distance Activity

... Our Solar System is immense in size by normal standards. We think of the planets as revolving around the Sun, but rarely consider how far each planet is from the Sun. Furthermore, we fail to appreciate the even greater distances to the other stars. Astronomers use the distance from the Sun to the Ea ...

Chapter 10

... of Ptolemy, they were used to help locate and predict the positions of the Sun, Moon and stars  Using a compass and an astrolabe, they were able to describe the position of any celestial body in relation to the direction North as well as in relation to the horizon. ...

Space 8.1 notes

... amounts of energy and is held together by its own gravity, keeping it intact  Stars are considered luminous because they produce and give off their own light. SUN  The sun is an average sized star, as most stars are significantly larger than our sun  The sun looks large to our eyes because it is ...

File

... Neptune are located and they are the outer planets • These planets are known for their large gaseous bands and cold temperatures • They are also called the gas giants ...

History of Astronomy

... Overcoming the second objection (nature of motion): Galileo’s experiments showed that objects in air would stay with a moving Earth. • Aristotle thought that all objects naturally come to rest. • Galileo showed that objects will stay in motion unless a force acts to slow them down (Newton’s first l ...

History of Astronomy

... astronomers of Julius Caesar convinced him to create the Julian Calendar which adds one day to the calendar every 4 years to account for the time we had skipped. This is known as a “leap year”. ...

SOLAR SYSTEM DEFINITIONS

... REVOLUTION: the path the Earth takes around the sun. The earth revolves around the sun once every 365 days; this combined with the earth’s tilt causes seasons! ORBIT: the path the Earth takes around the sun. The earth orbits the sun once every 365 days in an elliptical shape! ELLIPTICAL: the shape o ...

Planets

... be Galileo’single most important astronomical observaGon. Explain what he observed using sketches and why it was most important. (See pages 29-‐30 in your book) ...

Topic E: Astrophysics

... laws are not required.) Students should also know the names of the planets, their approximate comparative sizes and comparative distances from the Sun, the nature of comets, and the nature and position of the asteroid belt. ...

Timeline, Topics, and Resources for iMovie Projects

... work when it was available. This was not until 1543, the year Copernicus died. As Copernicus' new picture of the universe became more widely known, misgivings arose. The universe had after all been created for mankind, so why wasn't mankind at the center? An intellectual revolutionary called Giorda ...

Semester Review Answers - School District of La Crosse

... 50.Which is not true of astronomy: a person's life depends on the position of stars 51. Ptolemy suggested epicycles to explain: retrograde motion 52. Time is based upon: all can be used 53. Which ONE would not be of the four original forces of the universe? centripetal 54.Matter is made of tiny indi ...

Our Solar System

... a. Inertia – an object at rest stays at rest, an object in motion stays in a straight line motion, until acted on by an outside force. b. Gravity – the attraction of two objects. The strength of gravity depends on the masses each object possess. ...

Models of Our Solar System

... extremely complicated it did match observations fairly well. This model was accepted for nearly 1400 years, and there are actually people who believe it is true today. ...

lesson 1 Solar system - science

... Unit 11 – Science and Humanity Most of the planets travel around the Sun in near-circular orbits. Comets also travel around the Sun but in very elliptical orbits. For most of its orbit, a comet is a long way from the Sun. The head of the comet is a lump of ice and dust a few kilometres ...

Apparent Motions of Celestial Objects

... sky is short (less than 12 hours). ...

Review Unit 1 - Effingham County Schools

... #23 Venus is visible to the naked eye from Earth. Why will we be able to see Venus BETTER at position Q in this picture? More of the visible side of the planet is illuminated at point Q than at point R. ...

astronomy ch 2 - Fort Thomas Independent Schools

... How much force does it take to keep an object moving in a straight line at a constant speed? Unless an object is subject to an outside force, it takes no force at all to keep it moving in a straight line at a constant speed. How does an object’s mass differ when measured on the Earth and on the Moon ...

03_LectureOutlines

... • Model was no more accurate than Ptolemaic model in predicting planetary positions, because it still used perfect circles. ...

Light year - TeacherWeb

...  Light year – the distance light can travel in a year (9.5 trillion km or 5.88 trillion miles / year - that’s 12 “0”s!!!) Just for Interest:  Light travels about 300,000 km (186,000 miles) per second  The North Star is 431 light years from Earth  Our nearest star, Proxima Centauri, is 4.28 light ...

Study Guide 2 - Otterbein University

... 2. Why did Ptolemy have to use epicycles? 3. Why did Copernicus have to use epicycles? Warm-up #13: based on Section 1.2. “The Birth of Modern Astronomy” 1. In which ways were Galileo’s telescopic observations at odds with Aristotelianism? Do not just state some things he observed, but explain why t ...

Rhodri Evans - LA Flood Project

... R. Evans, The Cosmic Microwave Background, Astronomers’ Universe, DOI 10.1007/978-3-319-09928-6_1 ...

models

... -All matter concentrated into one point. -An explosion occurred and things started moving outward ...

Common Misconceptions in Astronomy and History

... never intended their ideas to represent reality, but by the time of the Renaissance, Ptolemy's geocentric model was accepted as a accurate portrayal of the cosmos. Copernicus realized the inexactness of the cumbersome geocentric models to predict accurately planetary positions and borrowed ideas fro ...

Science

... • Model was no more accurate than Ptolemaic model in predicting planetary positions, because it still used perfect circles. ...

File

... Ptolemy – AD 150 he published a summary of all that was known about astronomy. It was used for more than 1,000 years. Ptolemy questioned Aristotle’s model because it did not explain all the observe motion of the planets. For example, Mar’s movement (over a period of weeks) is creates a loop or S sha ...

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Copernican heliocentrism

Copernican heliocentrism is the name given to the astronomical model developed by Nicolaus Copernicus and published in 1543. It positioned the Sun near the center of the Universe, motionless, with Earth and the other planets rotating around it in circular paths modified by epicycles and at uniform speeds. The Copernican model departed from the Ptolemaic system that prevailed in Western culture for centuries, placing Earth at the center of the Universe, and is often regarded as the launching point to modern astronomy and the Scientific Revolution.Copernicus was aware that the ancient Greek Aristarchus had already proposed a heliocentric theory, and cited him as a proponent of it in a reference that was deleted before publication, but there is no evidence that Copernicus had knowledge of, or access to, the specific details of Aristarchus' theory. Although he had circulated an outline of his own heliocentric theory to colleagues sometime before 1514, he did not decide to publish it until he was urged to do so late in his life by his pupil Rheticus. Copernicus's challenge was to present a practical alternative to the Ptolemaic model by more elegantly and accurately determining the length of a solar year while preserving the metaphysical implications of a mathematically ordered cosmos. Thus his heliocentric model retained several of the Ptolemaic elements causing the inaccuracies, such as the planets' circular orbits, epicycles, and uniform speeds, while at the same time re-introducing such innovations as,Earth is one of several planets revolving around a stationary Sun in a determined orderEarth has three motions: daily rotation, annual revolution, and annual tilting of its axisRetrograde motion of the planets is explained by Earth's motionDistance from Earth to the Sun is small compared to the distance to the stars.↑ 1.0 1.1 ↑

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Copernican heliocentrism