What are particle accelerators used for? A particle accelerator is a device that uses electric fields to propel electrically charged particles in a vacuum‚ which approach the speed of light‚ towards each other and collide. The result hopefully being that the kinetic energy in the particles and other energy converted into subatomic particles or various types of nuclear radiation. There is more than one type of particle accelerator; they come in two basic types: • Linear • Circular Linear
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3.09 Particle Accelerator & Fundamental Forces 1. Answer the following: a. Describe the structure of the Large Hadron Collider and what it does. The Large Hadron Collider is a 27km long ring-shaped tunnel that is made mostly of superconducting magnets that sit 100m underground. The Large Hadron Collider accelerates particles. There are two beams of particles involved in the process called ‘hadrons.’ They will be sent speeding around the ring traveling at just about the speed of
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"What is the God particle?" Answer: The "God particle" is the nickname of a subatomic particle called the Higgs boson. In layman’s terms‚ different subatomic particles are responsible for giving matter different properties. One of the most mysterious and important properties is mass. Some particles‚ like protons and neutrons‚ have mass. Others‚ like photons‚ do not. The Higgs boson‚ or “God particle‚” is believed to be the particle which gives mass to matter. The “God particle” nickname grew out
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God Particle Aparajita Srivastava The "God particle" is the nickname of a subatomic particle called the Higgs boson. In layman’s terms‚ different subatomic particles are responsible for giving matter different properties. One of the most mysterious and important properties is mass. Some particles‚ like protons and neutrons‚ have mass. Others‚ like photons‚ do not. The Higgs boson‚ or “God particle‚” is believed to be the particle
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of applications covers such diverse subjects as catalysis and corrosion. Here I’ll concentrate on x-ray lithography‚ which is an especially interesting ap plication. A fascinating sidelight of this application is the production of com mercial accelerators for x-ray lithography. Synchrotron radiation is synonymous with x-rays. From the initial invention of the x-ray tube in 1896 until about 1960‚ the brightness (the log of brilliance in Fig. 1) didn’t change very much. About that time rotating anode
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The Higgs boson is popularly referred to as "the God particle‚" perhaps because of its role in giving other particles their mass. However‚ it’s not the boson itself that gives mass. Back in 1964‚ Peter Higgs proposed a theory that described a universal field (similar to an electric or a magnetic field) that particles interacted with. Don Lincoln‚ a physicist at Fermilab in Illinois‚ explained to ABC News‚ "It’s the Higgs field that gives particles their mass." The boson itself is more like evidence
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Particle Fever directed by Mark Levinson‚ is a documentary about a scientific experiment which took almost twenty years to complete. Although it involved ten thousand engineers from one hundred different countries‚ it depicts the experiences of just a few scientists. In the film‚ each scientist describes the journey that they went through in order to complete the complicated project. Costing up to ten billion dollars‚ it was one of the world’s most expensive science experiments. In addition‚ it caused
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With federal funding from the U.S. Department of Energy‚ a project to carry out a proof-of-principle beam test for the novel vacuum acceleration at Brookhaven National Laboratory’s Accelerator Test Facility (BNL-ATF) has been proposed and approved -- a collaboration among the UCLA Center for Advanced Accelerators‚ of which Cline is principal
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“Spending on science should be focused towards areas that contribute to daily lives not big projects like the Space Program‚ Square Kilometre Array and the Large Hadron Collider” In this current time‚ our focus for spending on science seems to be drifting off farther and farther into space. We are forgetting how many problems we have here on earth‚ in our cities and homes. Though there are many brilliant and insightful projects which are taking place (with examples like the Space Program and the
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1.) One argument for continuing research is that it helps diagnosis injuries and prevent further damaging if diagnosis are early. Not only is this benefit for the patient but it may save the health care system more money as the patient would not need to go for more costly medical treatment if diagnosis are caught early. On the other hand‚ an argument agasint continuing research is that the cost are increasing at an alarming rate (such as the Large Hadron Collider (LHC)‚ the average person may not
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