Science Astronomy Name

... up the universe. 2. The universe is very big. It may extend to infinity. 3. Most astronomers believe that the universe began as an explosion called the “Big Bang.” 4. A constellation is a group of stars that seems to make a pattern in the sky. 5. The North Star is over the North Pole in the Little D ...

The History of Astronomy

...  Believed Heraclides’ geocentric model of the solar system to be correct  His model seemed to adequately explain the motion of the planets, but it was complicated. ...

File

... 2. _______ - thin spikes of matter C. ___________ 1. The upper ___________ of the Sun 2. During a total eclipse, __________ lines appear 3. __ ________ K !! Seems to contradict common sense.. Energy transferred as magnetism & ”sound” 4. Corona can be studied using _______ D. The Solar Wind 1. The st ...

Introduction to Astronomy

... Motion of the Sun • On any given day, the sun’s motion is essentially the same as that of a star (rises in the east, sets in the west). • The sun’s motion doesn’t quite keep up with the stars: It completes a 360º circle in 24 hours. • With respect to the stars, the sun appears to move once a year ...

Returning to Solar Returns— Sidereal Prognostications

... within one degree are very powerful and always find expression. The Sun is by far the most important body in a solar return, just as the moon is in a monthly lunar return. Please note, however, that it is important to specify the geographic location the person occupies when the return takes place. I ...

Solar System

... Located roughly between the orbits of Mars ...

Early Astronomers

... away for life, his ideas were shared in books ...

*Students will be required to draw and label the solar system.

... The planets in order from the sun are planets in relationship to the sun? Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune. Pluto is still in the solar system but no longer considered a planet. 3. How can models be used to We can draw a picture of the solar explain how our solar syst ...

Astronomy Objective 1 1. An asteroid is a small, rocky object that

... own gravity, and has cleared the neighborhood around its orbital path. 19. Revolution is the motion of a body that travels around another body in space; one complete trip along an orbit. 20. Rotation is the spin of a body on its axis. 21. A solar eclipse is the passing of the moon between Earth and ...

The Sun – “Our” Star

... thermonuclear reactions in its core. Currently the Sun exists in a stable state. The immense outward pressure generated by energy released in the Sun’s core is balanced by the immense inward pressure produced by gravity. The Sun is the dominant object in the Solar System, with 330,000 times Earth’s ...

Integrative Studies 410 Our Place in the Universe

... What time is it? • Depends on where you are on the Earth! • Time zones ensure that the noon is really noon, i.e. sun is at highest point • To avoid confusion, use universal time (UT), the time at the meridian in Greenwich UT = EST + 5 hrs • Daylight savings adds one hour in spring, so UT = EDT+ 4 h ...

geocentric - Hewlett

... Models of the Solar System 1. Geocentric Model of the Solar System  Geo- Greek word for Earth  Centric-Greek word for center In a Geocentric Model of the Solar System, Earth is at the center of the Universe. So the Sun, Moon, Stars and Planets are all revolving around Earth. In the Geocentric Mode ...

07 September: The Solar System in a Stellar Context

... the size of the solar system • Inner solar system is light minutes in extent • Outer solar system is light hours to a light day ...

2. Kepler a. They observed the sun, moon, and stars move across

... In the geocentric model of the solar system, _EARTH__ is in the center and the sun and planets orbit around it. Which choice is a reason why people believed in the geocentric model of the solar system? ...

Chapter 16: Our Solar System

... _____ 11. Which of the following terrestrial planets has retrograde rotation? a. Mercury b. Venus c. Earth d. Mars _____ 12. Which of the following planets in the outer solar system is tipped on its side? a. Jupiter c. Uranus b. Saturn d. Neptune _____ 13. Which of the following moons of Jupiter is ...

Astronomy

... Behavior of moving objects ...

Essay One - Physics & Astronomy

... 1 light year = 10,000,000,000,000 km  6,000,000,000,000 miles ...

The Sun`s Energy Study Guide Module 16 • The sun is the to the

... The earth is about 5,000 Km and you could fit 100 _____________________________ across the sun and over a 1,000,000 earth’s _____________________ the sun to equal it’s size! The sun obtains it’s energy through a process called Nuclear __________________. Nuclear fission powers ______________________ ...

The Sun, the closest star - University of Iowa Astrophysics

... What is the meaning of this huge range in the intrinsic brightness (absolute magnitudes) of stars? ...

Planetary Motion

... Rotation – the spinning of an object around it’s axis. Axis runs North to South. ...

Earth-Space Vocabulary

... Rotate, Rotation • The spin of something on its axis. • It takes the Earth one day to make one rotation. (23 hours, 56 minutes) ...

Studying Space

... • Aids scientists in measuring distance. • It is the apparent shift of a star over a 6 month period. • It is just like when you shut 1 eye & look at an object; then open the other & the object appears to have moved. ...

SE 1.0 - Edquest

... Copernicus proposed a different model to explain planetary motion. His model, called the Heliocentric model. Galileo Galilei later confirmed his model, in his observations with one of the first telescope. But it was this Johannes Kepler, who put in place what was missing from Copernicus’ model. He r ...

Solar System - Physics Rocks!

... Kepler’s 1st Law: Planets will orbit in elliptical orbits with the Sun at one of the focii Eccentricity: a measure of how elliptical an orbit is. Venus is the least eccentric planetary orbit ...

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Tropical year

A tropical year (also known as a solar year), for general purposes, is the time that the Sun takes to return to the same position in the cycle of seasons, as seen from Earth; for example, the time from vernal equinox to vernal equinox, or from summer solstice to summer solstice. Because of the precession of the equinoxes, the seasonal cycle does not remain exactly synchronized with the position of the Earth in its orbit around the Sun. As a consequence, the tropical year is about 20 minutes shorter than the time it takes Earth to complete one full orbit around the Sun as measured with respect to the fixed stars (the sidereal year).Since antiquity, astronomers have progressively refined the definition of the tropical year. The Astronomical Almanac Online Glossary 2015 states:year, tropical:the period of time for the ecliptic longitude of the Sun to increase 360 degrees. Since the Sun's ecliptic longitude is measured with respect to the equinox, the tropical year comprises a complete cycle of seasons, and its length is approximated in the long term by the civil (Gregorian) calendar. The mean tropical year is approximately 365 days, 5 hours, 48 minutes, 45 seconds.An equivalent, more descriptive, definition is ""The natural basis for computing passing tropical years is the mean longitude of the Sun reckoned from the precessionally moving equinox (the dynamical equinox or equinox of date). Whenever the longitude reaches a multiple of 360 degrees the mean Sun crosses the vernal equinox and a new tropical year begins"". (Borkowski 1991, p. 122)The mean tropical year on January 1, 2000, was about 365.2421897 ephemeris days according to the calculation of Laskar (1986); each ephemeris day lasting 86,400 SI seconds. By 2010 this had decreased to 365.2421891 (365 ephemeris days, 5 hours, 48 minutes and 45.14 seconds). This is about 365.242181 mean solar days, though the length of a mean solar day is constantly changing.

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Tropical year