Lecture 6: Properties of Stars The Constellations The Constellations

... o  Stellar distances are measured using parallax. o  Distant stars used as reference points. Closer star appears to move relative to distant stars during Earth’s orbit about Sun. o  Parallax angle: p ~ 1 AU / d => d = ~ 1 AU / p ...

NASA Training Activity 2 Astronomy

... The Universe - 93 billion light years in _____________________________________ o The Milky Way Galaxy - 100,000 light years in diameter  Our Solar System - the Sun's gravity extends out to around 2 light years. So it is about 4 light years in diameter.  Earth – 3rd planet to our Sun ...

Constellations

... Winter ...

Inverse Square Law

... Earth so that bA = bB. How can we figure the ratio of the luminosities? We begin with equation 1 and set the left dis of the equation to 1 giving us the expression below which we solve for the ratio of the luminosities. ...

Analemma - Stony Brook University

... •Aldebaran: The Follower (rises after the Pleiades) •Algol: The Ghoul (the demon star) •Antares: Rival of Ares (Mars) •Betelgeuse: Armpit of the central one (Orion) •Fomalhaut: Mouth of the Southern Fish •Rigel: left leg (of Orion) ...

Star Constellations - rosedalegrade9astronomy

JPL Small-Body Database Browser

... somewhat arcane. From hottest to coolest, they are: ...

The night sky - Mr. Champion

HNRS 227 Lecture #2 Chapters 2 and 3

... Young star clusters give insight into star formation and evolution  Newborn stars may form an open or galactic cluster  Stars are held together in such a cluster by gravity  Occasionally a star moving more rapidly than average will escape, or leave the cluster  A stellar association is a group ...

astronomy - Mr. Barnard

... At approximately which position is Earth’s solar system located? (1) A (3) C (2) B (4) D __2__7. The Milky Way galaxy is best described as (1)a constellation visible to everyone on Earth (2)a spiral-shaped formation composed of billions of stars (3)a region in space between the orbits of Mars and Ju ...

Chapter 29 Notes

... distance to stars • Constellations: Groups of stars in the same part of the sky • Clusters: groups of stars bound together by gravity • Binaries: two stars that orbit a common center of mass ...

Star Questions 2008 - Fort Thomas Independent Schools

... How do stars form? What does it mean for a star to have a life cycle? Explain what it means for a star to be on the main sequence. Which two pressures act upon any star on the main sequence? Why a star remains roughly the same diameter when on the main sequence. Explain the following relationships: ...

2009 Assessment Schedule (90764)

... less luminous than the sun, and spectral type of B – F. (The Sun is a main sequence star / other stars are not main sequence stars so are at different stages in their life cycles) (a) ...

Constellations - Mayo Dark Sky Park

... knows what stories are ancestors here created when they saw this giant in the night sky? Let your imagination wander as you learn about the patterns of stars forming constellations and the legends and myths that have been attached to them over thousands of years. ...

Navigation by the North Star - Science

Ordinary Stars - Edgewood High School

... As the temperature of a star increases, the peak of its radiation is shifted toward shorter (blue) wavelengths Stefan-Boltzmann Law As the temperature of a star increases, the total energy output increases as the 4th power of the temperature ...

Lucas - WordPress.com

... Auriga is located north of the celestial equator. Its name is the Latin word for "charioteer", associating it with various mythological charioteers, including Erichthonius and Myrtilus. Auriga is most prominent in the northern Hemisphere winter sky, along with the five other constellations that have ...

Society News - Bristol Astronomical Society

... small telescopes, the primary is a magnitude +2.2 K-class yellow-orange giant, it’s companion is a magnitude +2.5 yellow G-class star. The two stars are separated by 4.4 arcseconds. The rear and tail of the lion is formed by a trio of stars consisting of beta (β) (Denebola), delta (δ) (Zosma) and th ...

Sydney Observatory night sky map June 2014

... June evenings are great for seeing the brightest part of the Milky Way high overhead. June 21st is the shortest day of the year (winter solstice; 9 hours and 48 minutes of daylight) when the Sun is at its most northerly position in the sky. Saturn is located towards the east in Libra. Mars can be se ...

11.1 Stars - St John Brebeuf

... Large high mass stars often explode as supernovas, spreading elements throughout the universe. ...

Observing the Universe 1

... 14. The diagram in Figure 4 shows the movement of an object seen in the sky from November 2005 to January 2006. Is this object likely to be (a) a planet (b) a star ? (The lines show a grid of latitude and longitude on the star sphere) ...

Conceptual Physics

... 1. On the diagram below, perform each of the following tasks: Note: you may use the margins if ...

Stars and Galaxies

... And then there’s M31, the Andromeda galaxy — the most distant object that’s readily visible to human eyes. This great amalgamation of stars stands almost directly overhead late this evening. When viewed from a dark skywatching location, far from city lights, it looks like a faint, fuzzy blob. But th ...

33-3 - Fremont Peak Observatory

... the super giant star Rigel to its east; however the object is technically within the boundaries of the constellation Eridanus, “The River”. It is thought that what we see is the remnant of an ancient super nova explosion some 900 light-years from Earth. In this tour of deep sky object viewed in the ...

1 Ay 124 Winter 2014 – HOMEWORK #2 Problem 1

... Due Friday, Jan 31, 2014 by 5pm, in Steidel’s mailbox in 249 Cahill ...

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Perseus (constellation)

Perseus, named after the Greek mythological hero Perseus, is a constellation in the northern sky. It was one of 48 listed by the 2nd-century astronomer Ptolemy and among the 88 modern constellations defined by the International Astronomical Union (IAU). It is located in the northern celestial hemisphere near several other constellations named after legends surrounding Perseus, including Andromeda to the west and Cassiopeia to the north. Perseus is also bordered by Aries and Taurus to the south, Auriga to the east, Camelopardalis to the north, and Triangulum to the west.The galactic plane of the Milky Way passes through Perseus but is mostly obscured by molecular clouds. The constellation's brightest star is the yellow-white supergiant Alpha Persei (also called Mirfak), which shines at magnitude 1.79. It and many of the surrounding stars are members of an open cluster known as the Alpha Persei Cluster. The best-known star, however, is Algol (Beta Persei), linked with ominous legends because of its variability, which is noticeable to the naked eye. Rather than being an intrinsically variable star, it is an eclipsing binary. Other notable star systems in Perseus include X Persei, a binary system containing a neutron star, and GK Persei, a nova that peaked at magnitude 0.2 in 1901. The Double Cluster, comprising two open clusters quite near each other in the sky, was known to the ancient Chinese. The constellation gives its name to the Perseus Cluster (Abell 426), a massive galaxy cluster located 250 million light-years from Earth. It hosts the radiant of the annual Perseids meteor shower—one of the most prominent meteor showers in the sky.

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Perseus (constellation)