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Plasma: The Fourth State of Matter

Plasma: The Fourth State of Matter. By: McCall Robinson & Megan Reeves. What is plasma?. An electrically neutral, highly ionized gas composed of ions, electrons, and neutral particles. It is NOT the same plasma that is found in blood. Who discovered plasma?.

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Plasma: The Fourth State of Matter

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  1. Plasma: The Fourth State of Matter By: McCall Robinson & Megan Reeves

  2. What is plasma? • An electrically neutral, highly ionized gas composed of ions, electrons, and neutral particles. It is NOT the same plasma that is found in blood.

  3. Who discovered plasma? • Irving Langmuir was the first scientist to give a complete and appropriate theory of ionized gases, and was also the first on using the name 'Plasma' to refer to this new medium or state of matter. This happened by 1920's, when some other scientists were also studying ionized gases. By that time other physicists realized the presence and importance of ionized gases in outer space, as well as the role they play in nuclear fusion reactions in star nuclei, increasing the relevance of Plasma Physics on understanding nature.

  4. Irving Langmuir

  5. Where can plasma be found? • Plasma is what makes up stars, solar wind, nebulae, and everything in between planets and stars. This type of plasma is called Space and Astrophysical plasma. • Terrestrial plasmas are the plasmas that make up lightening and the Aurora Borealis • Plasma can also be found in Plasma TVs, fluorescent lamps, and neon signs.

  6. Early plasma research • Langmuir worked for the General electric company where he worked with electric devices based on ionized gases. • These studies led to research of cool and dense plasma • From these studies braches of plasma research started to expand in different directions. • Three of the most important things that developed for this research were the discovery of the ionosphere, a better understanding of astrophysical plasma, and interest in nuclear fusion.

  7. The Ionosphere • The ionosphere is a very weak ionized plasma just above the Earth’s atmosphere. • It is made by the reactions of solar wind and solar radiation with the Earth's atmosphere and geomagnetic field.

  8. Astrophysical Plasma • Astrophysical plasma is the plasma that makes up the stars, the sun, and everything in between. • The properties of this plasma are studied in astrophysics. • Astrophysical plasmas are influenced by magnetic fields. Since they’re electrically neutral, electric fields play less of a role and any charge is readily neutralized.

  9. The Stars • The stars are really just gigantic, shining balls of plasma held together by gravity. • Plasma in the stars and in the space between them make up over 99% of the visible universe and most of that which is not even visible.

  10. The Sun • Our Sun is almost entirely an ionized ball made of plasma which consists of electrons and ions, in which there is barely any gas at all. The movement of the plasma produces strong magnetic fields and corresponding electric currents. • Even though it’s quite common to hear the Sun being referred to as a gaseous body, a more specific description is that it is made of plasma. In this case, the plasma consists of hydrogen and helium ions, together with the electrons that were liberated when those ions were produced

  11. Lightning • Lightning strikes when the molecules in air change from a gas to plasma. Air molecules are quite stable, so this change takes a lot of energy. • Plasma is also used in tubes to simulate lightening.

  12. The Aurora Borealis • The Sun is the source of the auroras. A "cloud" of plasma is given off from the Sun. This stream of plasma is known as a solar wind. As the solar wind interacts with the outer edge of the Earth's magnetic field, the particles are "shocked" into flowing around the Earth. Some of the particles are trapped by the earth's magnetic field. They follow the magnetic lines of force down to the ionosphere where the particles react the gases in it, causing them to glow. The colors match up to the different gases in the ionosphere. Oxygen atoms give off red and green light, depending on how high they are in the ionosphere. Nitrogen molecules give off blue and violet light.

  13. Artificial plasmas • Artificially made plasmas have many practical uses. • Most artificial plasmas are generated by the application of magnetic and electric fields. Plasma can be generated in a laboratory setting and for industrial use.

  14. Plasma TVs • They are called Plasma televisions because the pixels rely on plasma cells, or basically what are commonly known as fluorescent lamps. 

  15. Neon Signs • Plasma is also found inside of neon signs. Just like a fluorescent light, neon signs are glass tubes filled with gas. When the sign is turned on, electricity flows throughout the tube. The electricity charges the neon gas and creates plasma inside of the tube. The plasma glows a special color depending on the kind of gas that is inside. 

  16. Jobs with plasma • Many welders work with plasma. There is a special welding process called arc welding. Arc welding uses electric energy to produce the high energies needed to join pieces of metal. • NASA also uses plasma. Ion rockets use plasma fuels for trips through space. Ion rockets use the electric power to expel charged ion particles.

  17. Arc Welding Ion Rocket

  18. The future of plasma • Much research is going into the advancement of plasma TVs. They are trying to develop more specialty features and a higher quality picture. • New developments of plasma are going on everyday even studies in using plasma in dentistry. • Scientists hope to someday generate electric power by using plasmas to control the process of nuclear fusion.

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