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Transcript
Our Star, the Sun What processes control the Sun’s appearance? What is the temperature of the Sun’s atmosphere? What is the solar cycle? The Atmosphere of the Sun The atmosphere of the Sun is low density compared to the interior: It is transparent! Measured directly: • Photosphere • Chromosphere • Corona • Solar wind Galileo and Sunspots Galileo Galilei was the first to recognize sunspots as features in the Sun’s atmosphere. He used the motion of sunspots to measure the rotation of the Sun: approximately 1 month. The Sun’s Surface The Sun has no solid surface. The features we see on the Sun are located where the Sun goes from opaque to transparent. This layer is known as the “photosphere”. The layers below are dense enough that light must scatter many, many times to flow outward. The Sun’s interior is opaque. The photosphere and the layers above are much lower density and light can escape from the Sun’s inner layers. This gas is about 5800 Kelvin. The Solar Atmosphere The photosphere is also the bottom layer of the Sun’s atmosphere. The layers above are hotter than the photosphere. The layer above is called the chromosphere. This is the layer that contains the bright red storms visible during a solar eclipse. The temperature in the chromosphere ranges from 6,000 to 50,000 Kelvin. The Solar Atmosphere Above the chromosphere is the corona, the faint halo visible around the Sun during an eclipse. The corona is extremely hot: 1 million Kelvin. But it is also very low density. It does not produce much light of its own, but scatters sunlight very strongly. (Image credit: Fred Espenak) Rank these parts of the Sun’s atmosphere in order of temperature, from hottest to coolest: A. photosphere, chromosphere, corona B. corona, chromosphere, photosphere C. chromosphere, corona, photosphere D. photosphere, corona, chromosphere The Sun’s Magnetic Field It is now believed that the intense magnetic field of the Sun transports heat from the Sun’s interior out through the photosphere to the corona. The process is not yet fully understood, but there is a wealth of data to study. This image shows tubes of hot gas and magnetic field lying close to the photosphere. This hot gas glows in ultraviolet and x-rays. Sunspots and Magnetic Fields Dark regions in the photosphere (left) are strongly magnetic (right: bright x-rays). Sunspots are regions of intense magnetic activity! (below): visible light image (right): x-ray image Sunspots Sunspots can appear as individuals or in a group. Typical sunspots are about the size of Earth. They appear dark because they are cooler: 5000 K. Sunspot Cycle The number of sunspots varies on an 11-year cycle. The amount of sunlight and magnetic activity on the Sun increases and decreases every 11 years. What generates sunspots? A. solar “acne” B. intense magnetic fields C. large variations in the Sun’s gravity D. sinking blobs of cold gas Coronal Mass Ejections Portions of the corona can be ejected in what is called a coronal mass ejection or CME. If this gas strikes Earth’s magnetic field, it can trigger auroras all around the world. Rank these parts of the Sun’s atmosphere in order of temperature, from hottest to coolest: A. photosphere, chromosphere, corona B. corona, chromosphere, photosphere C. chromosphere, corona, photosphere D. photosphere, corona, chromosphere The Solar Wind The gas in the Sun’s corona is so hot it can escape the Sun’s gravity far from the photosphere. This stream of hot gas from the corona is known as the solar wind. It is often “gusty” as it is hit with shock waves from solar flares and coronal mass ejections. At 1 AU from the Sun, the solar wind is typically moving between 300-800 kilometers per second. It contains 1-100 protons and electrons per cubic centimeter. A fast, low-density plasma! What part of the Sun’s atmosphere flows away as the solar wind? A. the photosphere B. the corona C. the chromosphere Why do particles in the corona escape to form the solar wind? A. Because the Sun’s gravity is so weak there. B. Because of the large number of neutrinos there. C. Because the gas is so hot there. Blowing Bubbles The solar wind blows a bubble into the gas that fills the space between the stars. Pushing out on this interstellar gas makes the solar wind slow and eventually stop. Into Interstellar Space The 4 most distant spacecraft are close to the edge: Pioneer 10: 107 AU from Earth Pioneer 11: 87 AU (Both Pioneers dead.) Voyager 1: 122 AU Voyager 2: 100 AU (Both Voyagers alive.) (15 light-hours) Into Interstellar Space Update as of October 2012: Data from the last 12 months show a dramatic change in radiation environment around Voyager 1. low-energy protons from the Sun Into Interstellar Space high-energy protons from supernovas and other sources Stay tuned… NASA may announce soon that Voyager 1 has left the Solar System. Into Interstellar Space For comparison, here’s same data for Voyager 2: high-energy protons from supernovas and other sources (mostly constant) low-energy protons from Sun (decreasing, but slowly)
