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Chapter 25. Section 1: STARS. Patterns of stars: Constellations. Ancient cultures used mythology or everyday items to name constellations . Constellations: Patterns of stars in the night sky. Modern Astronomy Studies 88 Constellations (Most named long ago). Circumpolar Constellations.
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Chapter 25 Section 1: STARS
Patterns of stars: Constellations • Ancient cultures used mythology or everyday items to name constellations. • Constellations: Patterns of stars in the night sky
Modern Astronomy Studies 88 Constellations (Most named long ago)
Circumpolar Constellations • Stars in the northern sky that appear to • circle Polaris in 24 hours • are visible all year Polaris or Northern Star located at end Of Little Dipper in Constellation Ursa Minor
Some constellations are not visible during winter, only the summer (and vise versa). example – Orion Can not see b/c daytime side is facing it.
Absolute Magnitude • measure of the amount of light a star actually gives off.
Apparent Magnitude • measure of the amount of a star’s light received on Earth
Fifth closest star Brightest star in N. Hemisphere Canis Major Sirius
Rigel • Absolute magnitude much higher than Sirius but apparent magnitude is lower because it is further away from Earth
- Characteristics of Stars Parallax • Parallax is the apparent change in position of an object when you look at it from different places.
- Characteristics of Stars Measuring Distances to Stars • Astronomers use parallax to measure distances to nearby stars.
Space Measurement • Astronomers measure a star’s parallax • Need to know angle that the star’s position changes and size of Earth’s orbit
Distance is measured in light-years • Light year: distance light travels in a year. • 300,000 km/s or 9.5 trillion kilometers/yr
Star Properties • Color indicates temperature • Hot stars are blue (hottest)-white • Cool stars are orange – red (coolest) • Average stars are yellow
Also known as Sol (Roman God) The Sun’s official symbol.
- Characteristics of Stars Star Size • Stars vary greatly in size. Giant stars are typically 10 to 100 times larger than the sun and more than 1,000 times the size of a white dwarf.
THE SUN Closest star to the Earth
Sun’s Energy • Fusion reaction – when to atoms are fused into one
Sun’s layers • energy created in the core moves outward through the radiation zone and convection zone into the Sun’s atmosphere. How is energy created in core?
Sun’s Atmosphere • Photosphere: lowest layer gives off light and is about 6,000 K. (10,340.33 °F) • “surface”
Sun’s Atmosphere • Chromosphere: above photosphere, extends 2,000 km above photosphere
Sun’s Atmosphere • Corona – extends (millions of km) into space, the 2 million K (3,599,540.33 °F) • releases charged particles as solar wind.
Surface Features • sunspots: dark areas cooler than their surroundings. • Temporary features which come and go over days, weeks, or months • Increase and decrease in a 10 to 11 year pattern called solar activity cycle.
Sun’s rotation • Studying sunspots showed the Sun has differential rotation • faster at equator – 25 days • Slower at poles – 35 days
Sun’s Surface Features • Prominences: huge, arching gas columns possibly caused by magnetic fields
Coronal Mass Ejections (CMEs): When large amounts of electrically – charged particles are ejected form the corona 2-3 times a day
Highly charged solar wind particles can disrupt radio signals, damage satellites that orbit Earth.
Near Earth’s polar areas solar wind material can create light called an aurora.
Middle-aged / average star • Typical absolute magnitude with yellow light. • Takes 8 min. to get here • Unusual: Sun is not part of a multiple star system or cluster (only 1 star near us!)
Star Systems • Binary System – two stars orbit each other • Triple Star System – when 3 stars orbit each other • Star Cluster – many stars relatively close to each other, gravity is strong
Hertzsprung – Russell DiagramH-R diagram • higher temperatures = brighter absolute magnitude • Main sequence – group of stars running diagonally across diagram; most stars fit into this band (90%) • Hot, blue, bright in upper left • Cool, red, dim stars in the lower right • Yellow like our sun is in between
White dwarfs – hot but not bright • Located in lower left corner of H-R diagram • Same size as Earth • Giants or red giants – bright but not hot • Located in upper right corner of H-R diagram • Supergiants – bright but not hot • Located in upper right of H-R diagram
Giants and Red Giants Red giant Mira Red Giant Mira and its companion When two stars orbit each other it is called?
How do stars shine? • Same as Sun NUCLEAR FUSION • Energy given off as visible, infrared, and UV light • Only small amounts make it to Earth
E=MC² • Albert Einstein • Mass can be converted into energy • E = energy • M = mass • C = speed of light • Small amounts of mass “lost” during fusion can be converted into large amounts of energy
Fusion in core • 2 H nuclei collide • 1 proton decays to neutron energy • 1 more proton fuses to He energy • Another He isotope combines with the other and fuse • Helium nucleus forms 2 protons break away energy