6 Scale Model of the Solar System

... based upon the assumption that the Sun-to-Pluto average distance in Astronomical Units (which is already entered into the table, above) is represented by 100 yards, or goal-line to goal-line, on the football field. To determine similar scalings for each of the planets, you ...

Celestial Motions - Stony Brook Astronomy

... A.  The Earth’s orbit around the Sun B.  Earth spinning on its axis C.  Our solar system moving in the Milky Way ...

Astronomy - cloudfront.net

... solar system, which of the following would be most surprising to observe in an extrasolar system of planets? A. The planets nearest to the star have a lower density than the planets farther out. B. Several planets show large tilts of their rotation axis compared to the plane of their ...

ASTR 105 Intro Astronomy: The Solar System

... A.  The Earth’s orbit around the Sun B.  Earth spinning on its axis C.  Our solar system moving in the Milky Way ...

Our Solar System

... Asteroids are rocky, metallic objects orbiting the Sun. They range in size from a few feet . in diameter to hundreds of miles in diameter. Most asteroids are found between Mars and Jupiter. Some have orbits that cross the Earth’s path, and in the past, some have even crashed into Earth. Asteroids ...

Formation of the Solar System

... • II. Coolest, most massive (J,S) collect H,He by gravity • III. More Collisions => heating, differentiation of interiors • IV. Flushing of remnants by solar radiation, wind; planetary collisions, ejection • V. Evolution of atmospheres Apr 24, 2006 ...

The Basics of the Universe

... The start of everything was about 15 billion years ago. Most scientists agree on a theory called the ‘Big Bang’. They came up with this theory using their knowledge of the universe. The universe is expanding, so it would be contracting if you were to view time in reverse. Eventually, everything woul ...

Earth Science Library wk 2 (WP)

... Working independently, two scientists, Adams in England and Le Verrier in France, used Newtonian mechanics to predict the location of the unknown ...

Our Universe SPA-4101

... of dense interstellar gas clouds. One of the closest star forming regions to the Sun is the Orion nebula – which glows because the hydrogen gas is heated by an embedded cluster of recen ...

Revolutions of Earth

... Certainly no one today doubts that Earth orbits a star, the Sun. Photos taken from space, observations made by astronauts, and the fact that there has been so much successful space exploration that depends on understanding the structure of the solar system all confirm it. But in the early 17th centu ...

Motions of the Night Sky - d_smith.lhseducators.com

... side of the moon always faces the earth. This means that the moon rotates on its axis at exactly the same rate at which it orbits the earth. We call this “locked” rotation synchronous rotation.  Later, this synchronous rotation will give us a clue about the construction of the moon’s interior. ...

4550-15Lecture35

... Other variations relate to oxygen fugacity. Since H2 is the principal reductant and it dominates the gas, while O constitutes a significant fraction of condensed matter, variation in oxygen fugacity most likely reflects variation in the ratio of gas to dust. In addition, there must have been signifi ...

Samenvatting ANW SPU set 3 Chapter 2: The Earth What are

... sun, you go slower. - Kepler’s Third Law: The time it takes for each planet to orbit the sun (T) is related to its average distance from the sun (R) What is the epicycle theory? When Ptolemy observed the planets in the sky he realized that the movement of the planets could not be explained by the ge ...

Cosmic Distance Ladder

... provides information that can be used to determine the distances at the next higher rung. • Calibration ...

Lab 2 - TCNJ

... Northern Hemisphere rotate. The North Star, also called Polaris, is located almost exactly at this point in the sky. If you go out at night and find the north star, you will notice that it does not move during the course of the night, while all the other stars do move, they rotate from east to west ...

Skinner Chapter 2

... 42. What were the three laws of planetary motion discovered by Johannes Kepler, and what does each one state? 43. What are the four terrestrial planets? Why are they called "terrestrial"? 44. Why is it considered likely that a nearby supernova had something to do with the solar system's formation? 4 ...

Natural Climate Variability

... • These oscillations, from more elliptic to less elliptic, are of prime importance to glaciation • The oscillation alters the distance from the Earth to the Sun, thus changing the distance the Sun's short wave radiation must travel to reach Earth • This reduces or increases the amount of radiation r ...

B. protostar - University of Maryland Astronomy

... 6. Cepheid variable stars could be used to determine distance after Henrietta Leavitt established a correlation between_____________________________ using a sample of these stars found in the Magellanic Clouds. A. luminosity and absolute magnitude B. apparent and absolute magnitudes C. red shift an ...

Chapter 2: The Science of Life in the Universe

... 58. How do Einstein's and Newton's ideas about gravity differ? A) Einstein was able to explain what gravity is while Newton was only able to explain how gravity works B) Newton was able to explain what gravity is while Einstein was only able to explain how gravity works C) Einstein's and Newton's id ...

1 - Physics

... SHORT ANSWER QUESTIONS: Each are worth 15 points. Be sure to answer all parts of all questions fully (I can’t give points if you don’t answer). 1) What happens to the core of a star once it starts to form Iron? Why? The core collapses because the core can no longer generate energy from fusion (fusi ...

HERE

... 1. planetary orbits are roughly circular 2. planets are isolated 3. planetary orbits are roughly coplanar 4. planetary orbits are prograde (all) 5. moons’ orbits are prograde 6. … but not all 7. planetary rotations are prograde 8. … but not all 9. cometary orbits have high a, e, i 10. many moons are ...

Your Birthday on Another Planet

... the Sun. If we could live on another planet, our birthdays would occur more or less frequently depending on the planet’s revolution period (the time taken to complete one full trip around the Sun). On a few planets, we couldn’t even celebrate our first birthday because we wouldn’t live long enough t ...

Harmony of the Worlds

... we want to think the Middle Ages was like ...

Taylor - St. Brigid

... Seventeen moons ‫ ﮐ‬It has One Million rings ‫ ﮐ‬One year equals 29.5 Earth years ‫ ﮐ‬One day equals 10.7 hours ...

PHYS 390 Lecture 31 - Kinematics of galaxies 31

... That the mass enclosed within Ro is about 1011 solar masses is at once both comforting and disturbing. Comforting, in that it is the correct order of magnitude, as the mass of visible matter in the Milky Way is about 1011 solar masses, as previously mentioned. However, not all of this mass lies with ...

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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