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This video provides definitions and explanations of various star-related terms such as sunspots, main sequence stars, white dwarfs, supernovas, and more. Learn about the life cycles of stars, from formation to their ultimate fate, in a visually engaging way. Understand how stars evolve and the different paths they may follow. Explore the fascinating world of stellar phenomena and uncover the secrets of the universe through this educational and captivating presentation.
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Definitions • Sun: Star at the center of our solar system. Also another name for any star with a planetary system • Luminosity: measures how bright a star would be in relation to the sun if all stars were the same distance from the observer
Nuclear fusion: the combining of smaller elements to form larger elements with some mass being converted into energy-Solar Fusion • Journey of a Sun Beam • The color of a star is determined by the temperature-blue is the hottest and red is the coolest
Definitions • Sunspots: a darker region of the sun’s visible surface; increased number of sunspots are related to an increase in electromagnetic energy emitted from the sun. Cycle is about 11 years in length
Stefan-Boltzmann Law(Energy directly proportional to temperature) • Our sun burns “slowly” 9 billion years total (4.5 billions years left to go!) • Stefan-Boltzmann Chart: Organizes stars by size, temperature and luminosity
Development of Stars • Stars may follow different paths in this cycle • Life cycle may take billions of years • Some stars created soon after the Big Bang may still exist
Nebula a. a huge, spread out cloud of gas and dust in space. b. The gas in nebulae is mostly hydrogen gas c. Ingredients needed for star formation
Main Sequence/Average Star a. Main sequence stars are the central band of stars on the star diagram. b. Energy comes from nuclear fusion as they convert Hydrogen to Helium. c. The sun is a typical Main Sequence star. d. Most stars (about 90%) are Main Sequence Stars. e. For these stars, the hotter, the brighter
Giant Stars a. Rare stars commonly seen because of their large size and high luminosity b. Low temperature stars c. Represent the late stage in the evolution of main sequence stars
Planetary Nebula • nebula formed by a shell of gas which was sent out from a certain kind of a red giant or supergiant. • As the giant star explodes, the core of the star is exposed. • Planetary nebulae have nothing to do with planets.
White Dwarfs a. Not always white b. Small (around the size of Earth) c. Hot on the surface, low in luminosity d. Represent last stage of low to medium mass stars
Black Dwarf a. When a white dwarf cools and no longer emits much electromagnetic energy b. “Dead” star
Other Path: Super Giants a. Super giant stars can be up to 1000 times larger than the diameter of the sun b. Late stage of evolution c. Usually explode in a supernova d. Blue super giants are the brightest and exhibit the highest temperature
Supernova a. the explosion of most of the material in a star-emits vast amounts of energy. b. Occurs when nuclear fuel is exhausted -star can no longer support itself through fusion
Black Hole • An area of space with a gravitational field so intense that light cannot escape it
Neutron Stars • A celestial body consisting of the dense remains of a massive star that has collapsed, thus leaving only neutrons, and having a powerful gravitational attraction
Movies • Life Cycle of Stars • Another Video of Life Cycle