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The '''ultracentrifuge''' is a [[centrifuge]] optimized for spinning a rotor at very high speeds, capable of generating acceleration as high as 1,000,000 G (9,800 km/s²) There are two kinds of ultracentrifuges, the preparative and the analytical ultracentrifuge. The second, however, is more theoretically important and we will focus on the discussion of the analytical ultracentrifuge. [[Theodor Svedberg]] invented the analytical ultracentrifuge in [[1923]], and won the [[Nobel Prize in Chemistry]] in [[1926]] for his invention.
With the analytical ultracentrifuge, the sample being spun is observable through an optical detection system that allows the operator to observe the sample concentration in real time during the experiment. With modern instrumentation, these observations are electronically stored
The kinds of information that can be obtained from an analytical ultracentrifuge include the shape of [[macromolecule]]s, the conformational changes in [[macromolecule]]s, subunit [[stoichiometry]] of [[macromolecule]]s, approximate [[molecular weight]]s, and [[chemical equilibrium|equilibrium constant]]s for self associating systems.
Due to the tremendous amount of [[kinetic energy]] stored in the rotor of an operating ultracentrifuge, a catastrophic failure of the rotor's structural integrity (often thought to be caused by the use of improper or unrated rotors) at high speed is capable of causing an extremely violent explosion, sometimes completely destroying the machine. It is good practice
==See also==
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