PowerPoint
PowerPoint

Arguments for the presence of a distant large undiscovered Solar
Arguments for the presence of a distant large undiscovered Solar

... the Sun for the first time after perturbation by the unknown object. If this is the case, then examination of the aphelion longitudes and periods of the comets in Table 1 might give a clue to the present position of the object. The longitude Lh of the hypothetical planet may be taken, to a first app ...
Arguments for the presence of a distant large undiscovered Solar
Arguments for the presence of a distant large undiscovered Solar

... the Sun for the first time after perturbation by the unknown object. If this is the case, then examination of the aphelion longitudes and periods of the comets in Table 1 might give a clue to the present position of the object. The longitude Lh of the hypothetical planet may be taken, to a first app ...
Venus1
Venus1

Unit 6
Unit 6

... If you watch the sky each evening over several months, you will discover that new constellations appear in the eastern sky and old ones disappear from the western sky. For example, across most of North America, Europe, and Asia on an early July evening, the constellation Scorpius will be visible in ...
On the Permissible Numerical Value of the
On the Permissible Numerical Value of the

... bigger than 01′′ . Simple algebra shows that this takes place for R = 160, 000, 000 radii of the Earth’s orbit. In the case of a similar radius of the space curvature, light would travel around the whole space, along the path πR, in 8,000 years. However the size of the respective elliptic space is a ...
ph709-15
ph709-15

... Super-Earths with orbital periods less than 100 days are extremely abundant around Sun-like stars. It is unlikely that these planets formed at their current locations. Rather, they likely formed at large distances from the star and subsequently migrated inward. Kepler-10b is the first confirmed terr ...
MSci Astrophysics 210PHY412 - Queen's University Belfast
MSci Astrophysics 210PHY412 - Queen's University Belfast

... star if it were placed at a distance of 10 pc m – M = 5 log(d/10) - 5 where d is in pc (note: log10 ) • Magnitudes are measured in some wavelength band e.g. UBV. To compare with theory it is more useful to determine bolometric magnitude – defined as absolute magnitude that would be measured by a bol ...
ziggynotes
ziggynotes

... The moon drops by 60 degrees in 120 hours. It must thus take 720 hours (30 days) to complete its orbit around Ziggy. The Two Blue Things. These blue objects are moving pretty fast across the sky. They cover roughly two moon diameters per hour. Given than the moon appears twice as large as the Earth’ ...
ReviewJeopardy
ReviewJeopardy

... “Sun” Stuff 100 ...
The Royal Arch of the Heavens
The Royal Arch of the Heavens

... here reminded that they symbolically follow the path of the Sun which, from an earthly point of view, travels in an ellipse. Many Lodges around the world have the Sun and moon hanging or painted on the wall behind the Master in the East, or stars painted on the ceiling, or even miniature lights in t ...
powerpoint - High Energy Physics at Wayne State
powerpoint - High Energy Physics at Wayne State

... trillionth ...
EXPLORATION OF THE KUIPER BELT BY HIGH
EXPLORATION OF THE KUIPER BELT BY HIGH

... modulus of VI is 4.5, and the moduli of VI for the three events are, respectively, 5.6, 7.2, and 5.3. Having shown that the events are neither related to the observation’s conditions nor to the Earth’s atmosphere, we compare them to diffraction profiles of interplanetary objects. The synthetic prof ...
Great Migrations & other natural history tales
Great Migrations & other natural history tales

... A disk of cold gas and dust fuels a black hole (BH). 300 light-years across, the disk is tipped by 60 deg, to provide a clear view of the bright inner disk. The dark, dusty disk represents a cold outer region which extends inwards to an ultra-hot accretion disk with a few AU from the BH. This disk f ...
13 Unit 8 5th Grade Science
13 Unit 8 5th Grade Science

... to understand the characteristics of it. Students should explain their choices, using differences in the models to illustrate their point. Ask students to suggest a different way that a model of the Sun could be created that better illustrates its components. Challenge students to create a new and b ...
LAB #3 - GEOCITIES.ws
LAB #3 - GEOCITIES.ws

... Because what we know about stars is due solely to our analysis of their light, it is very important to develop further the idea of stellar magnitude, or how bright a star is. When the Greeks scientist Hipparcos determined the magnitude scale, he did it "by eye." The first stars that "came out" at ni ...
name: :________period
name: :________period

... b. heliocentric system. c. geocentric system. d. Copernican system. ____ 15. The heliocentric system gained support when Galileo observed that a. one side of the moon always faces Earth. b. most of the smaller planets are closer to the sun. c. Venus goes through phases similar to those of Earth's mo ...
Explosion of Sun - Scientific Research Publishing
Explosion of Sun - Scientific Research Publishing

... The core of the Sun is considered to extend from the center to about 0.2 solar radii. It has a density of up to 150,000 kg/m3 (150 times the density of water on Earth) and a temperature of close to 13,600,000 kelvins (by contrast, the surface of the Sun is close to 5785 kelvins (1/2350th of the core ...
moon phases and eclipses - Morehead Planetarium and Science
moon phases and eclipses - Morehead Planetarium and Science

Editorial Introduction: Planetary geosciences, the Dutch contribution
Editorial Introduction: Planetary geosciences, the Dutch contribution

... core formation in the Earth and the other terrestrial planets (and larger asteroids), but the authors show that a much larger experimental database will be required to be able to translate these sample measurements to quantitative information on core formation in the early solar system. We then trav ...
Earth Chakras - Sophia Foundation
Earth Chakras - Sophia Foundation

Gravitation 4, and the Waltz of the Planets
Gravitation 4, and the Waltz of the Planets

... Like the Sun and Moon, all of the planets rise in the east and set in the west once a day. And like the Sun and Moon, from night to night the planets slowly move on the celestial sphere, that is, with respect to the background of stars. However, the charac ter of this motion on the celestial sphere ...
Astonomy-Space The Final Frontier
Astonomy-Space The Final Frontier

...  Explain how Kepler’s laws allow us to construct a scale model of the solar system, and explain the technique used to determine the actual size of the planetary orbits.  Be able to state Newton’s laws of gravitation and explain how they account for Kepler’s laws.  Explain how the law of gravitati ...
Lecture 13.1
Lecture 13.1

... • Suppose light travels at speed c • Turn argument about – is there a value of M/R for some star which will not allow light photons to escape ? • Need M/R = c2/2G  density = 1027 kg/m3 for object with R = 1m approx • Need very high densities – possible for collapsed stars Physics 215 – Fall 2014 ...
slides - Relativity Group
slides - Relativity Group

... • NASA’s Stardust and Deep Impact missions have contributed to our understanding of a comet’s ...

Astronomical unit

The astronomical unit (symbol au, AU or ua) is a unit of length, roughly the distance from the Earth to the Sun. However, that distance varies as the Earth orbits the Sun, from a maximum (aphelion) to a minimum (perihelion) and back again once a year. Originally conceived as the average of Earth's aphelion and perihelion, it is now defined as exactly 7011149597870700000♠149597870700 meters (about 150 million kilometers, or 93 million miles). The astronomical unit is used primarily as a convenient yardstick for measuring distances within the Solar System or around other stars. However, it is also a fundamental component in the definition of another unit of astronomical length, the parsec.