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Our Sun!

Our Sun!. Health Warning: Avoid Direct Eye Contact. How can we learn about something as hot as the Sun?. Humans have sent spacecraft up to study our star. The SOHO spacecraft has been in operation since 1996 .

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Our Sun!

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  1. Our Sun! Health Warning: Avoid Direct Eye Contact

  2. How can we learn about something as hot as the Sun? • Humans have sent spacecraft up to study our star. The SOHO spacecraft has been in operation since 1996. • The craft orbits the Sun in step with Earth but closer to it. SOHO has sent back amazing images. • Onboard instruments have also sent back mountains of data. The data is mostly about the sun's outer layers.

  3. The Sun • Our sun is a star, a sphere of plasma held together by gravity. • It is an ordinary star that is extraordinarily important. The sun provides light and heat to our planet. This star supports almost all life on Earth.

  4. The sun is the center of the solar system, which includes all of the planets and other bodies that orbit it. It is by far the largest part of the solar system. • Added together, all of the planets make up just 0.2 percent of the solar system's mass. The sun makes up the remaining 99.8 percent of all the mass in the solar system!  The sizes of the planets relative to the sun, if the sun was the size of a basketball.

  5. Surface Features • Large explosions on the Sun’s surface can disrupt the high-precision GPS systems that are used by airlines. • Radars and long-range radio communications may also be temporarily lost. • The Sun’s surface features are quite visible, but only with special equipment. • For example, sunspots are only visible with special light-filtering lenses.

  6. Sunspots • The most noticeable surface features of the Sun are cooler, darker areas known as sunspots. • Sunspots are located where loops of the Sun’s magnetic field break through the surface and disrupt the smooth transfer of heat from lower layers of the Sun, making them cooler, darker, and marked by intense magnetic activity. (a) Sunspots; (b) A close-up of a sunspot taken in ultraviolet light

  7. Solar Flares • There are other types of interruptions of the Sun's magnetic energy. • If a loop of the sun's magnetic field snaps and breaks, it creates solar flares, which are violent explosions that release huge amounts of energy. Magnetic activity leads up to a small solar flare. https://www.youtube.com/watch?v=3ul_6TjNcsw

  8. Solar Prominences • Another highly visible feature on the Sun are Solar Prominences. • If plasma flows along a loop of the Sun’s magnetic field from sunspot to sunspot, it forms a glowing arch that reaches thousands of kilometers into the Sun’s atmosphere. • Prominences can last lengths of time ranging from a day to several months. Prominences are also visible during a total solar eclipse. https://www.youtube.com/watch?v=QrmUUcr4HXg

  9. The video above was taken from the SDO, the most advanced spacecraft ever designed to study the Sun.  • During its five-year mission, SDO will examine the Sun's magnetic field and also provide a better understanding of the role the Sun plays in Earth's atmospheric chemistry and climate.  • Since just after its launch on February 11, 2010, SDO is providing images with clarity 10 times better than high-definition television and will return more comprehensive science data faster than any other solar-observing spacecraft. https://www.youtube.com/watch?v=NVJxNmX9Dx0

  10. The Outer Layers of the Sun • What can you see during a solar eclipse? • A solar eclipse is kind of like a field trip to the Sun from Earth. You can see something (with special tinted glasses) that you don't usually see. The sun has a remarkable ring of light around it. This is the corona. If you have a chance to see a solar eclipse, you should do it!

  11. Three outer layers of the sun are its atmosphere. • The layers are, from inside to outside, the… • Photosphere • Chromosphere • Corona

  12. The Photosphere • The photosphere is the visible surface of the sun. It's the part that we see shining. Surprisingly, the photosphere is also one of the coolest layers of the sun. It is only about 6,000 degrees C. • The Chromosphere • The chromosphere lies above the photosphere. It is about 2,000 km thick. The thin chromosphere is heated by energy from the photosphere. • Temperatures range from about 4,000 degrees C to about 10,000 degrees C. The chromosphere is not as hot as other parts of the sun, and it glows red. • Jets of gas sometimes fly up through the chromosphere. With speeds up to 72,000 km per hour, the jets can fly as high as 10,000 kilometers.

  13. The Corona • The corona is the outermost part of the sun's atmosphere. It is the sun’s halo, or “crown.” • With a temperature of 1 to 3 million degrees Celsius, the corona is much hotter than the photosphere. The corona extends millions of kilometers into space. • Sometime you should try to see a total solar eclipse. If you do, you will see the sun’s corona shining out into space.

  14. The Inner Layers • The Sun is a sphere, composed almost entirely of the elements hydrogen and helium. The Sun is not solid, nor is it a typical gas. • Most atoms in the Sun exist as plasma, a fourth state of matter made up of superheated gas with a positive electrical charge.

  15. The Sun’s central core is plasma with a temperature around 27 millionoC. • At such high temperatures hydrogen combines to form helium by nuclear fusion, a process that releases vast amounts of energy. • This energy moves outward, towards the outer layers of the Sun. • The radiative zone, just outside the core, has a temperature of about 7 millionoC. The energy released in the core travels extremely slowly through the radiative zone. • In the convection zone, hot material from near the radiative zone rises, cools at the Sun’s surface, and then plunges back downward to the radiative zone. Convective movement helps to create solar flares and sunspots.

  16. But what would happen if the Sun…Disappeared? http://www.youtube.com/watch?v=rltpH6ck2Kc

  17. In Summary… • The sun is an ordinary star. It supports nearly all life on Earth. • The sun is at the center of the solar system. • The sun makes up almost all of the mass of the solar system. • Sunspots occur in pairs because each is one side of a loop of the Sun's magnetic field that reaches the Sun's surface. These spots are cooler and darker than the rest of the Sun's surface and they are marked by intense magnetic activity. • Solar prominences are the plasma loops that connect two sunspots. • Solar flares and coronal mass ejections are eruptions of highly energetic particles that can erupt from the Sun's surface and cause problems with power grids and communications on Earth.

  18. Sunspots occur in pairs because each is one side of a loop of the Sun's magnetic field that reaches the Sun's surface. These spots are cooler and darker than the rest of the Sun's surface and they are marked by intense magnetic activity. • Solar prominences are the plasma loops that connect two sunspots. • Solar flares and coronal mass ejections are eruptions of highly energetic particles that can erupt from the Sun's surface and cause problems with power grids and communications on Earth. • The Sun is made mostly of plasma, a fourth state of matter made up of superheated gas with a positive electrical charge. • At the Sun's center is plasma, where nuclear fusion takes place. The radiative zone is outside the core. The convection zone, where convection takes place, is located outward from that. • The photosphere is the visible surface of the Sun, where sunlight is emitted from. The reddish chromosphere is heated by the photosphere and the outer corona is the Sun's crown.

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