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Bose-Einstein condensate is a state of matter that forms at extremely low temperatures when a group of boson particles collapse into the same quantum state, behaving as a single entity. It exhibits unique properties, such as superfluidity and coherence on a macroscopic scale.
Bose-Einstein condensate was first experimentally observed by Carl Wieman and Eric Cornell in 1995 at the University of Colorado. They were able to cool a gas of rubidium atoms to a temperature close to absolute zero, resulting in the formation of a condensate with unique quantum mechanical properties.
An inverted steam trap works by allowing condensate to flow out of the system while preventing steam from escaping. When condensate builds up, the trap closes and prevents steam from passing through until the condensate is released. This helps maintain efficient operation by removing unwanted condensate and maintaining steam within the system.
Yes, the atoms in a Bose-Einstein condensate do move, but they move as a single quantum mechanical entity rather than individual particles. This movement is described by a single wave function that characterizes the entire condensate.
The specific gravity of steam condensate is typically very close to 1.00, which means it is very close to the density of pure water at the same temperature. This is because steam condensate is essentially just water that has cooled and condensed from its gaseous form.
Bose-Einstein condensate is a state of matter that forms at extremely low temperatures when a group of boson particles collapse into the same quantum state, behaving as a single entity. It exhibits unique properties, such as superfluidity and coherence on a macroscopic scale.
A Bose-Einstein Condensate may be considered as a gas in which the particles have only one degree of freedom. But it is not the gas of familiar :solid, liquid, gas; trichotomoty. It is a different form of matter. Since it is already in the lowest energy form, it cannot be changed from that without altering its energy. That's the best I can do in unravelling.
MEASUREMENT
Naphtha is a petroleum condensate, therefore it is a condensate, therefore they are both condensate.
Rubidium in itself is not an example of a Bose-Einstein condensate. The Bose-Einstein condensate is the fifth state of matter. Bose-Einstein condensate is a state of matter that only exists near absolute zero (zero degrees Kelvin) temperatures. Currently Rubidium is one of the only materials that scientists have caused to become a Bose-Einstein condensate. So Rubidium isn't an example of a Bose-Einstein condensate, its just an element that has been able to change state and become a Bose-Einstein condensate. Another one is Neutron star wich is the dead remains of a star that has exploded as a supernova. It is like a giant, dense, heavy nucleus of mostly neurons.
A condensate is a liquid that is formed from the process of condensation. An example of a condensate is the water that forms on the outside of a glass filled with water and ice on a very hot day.
Because all you need to do is heat the condensate up and it will evaporate again.
The gas condensate is acidic. The acidity in the gas corrodes, therefore, forming sulphurised condensate droplets. Heating desulphurised the gas condensate.
Condensate is a noun.
No! A Bose Einstein Condensate only occurs at, or within billionths of a degree of, absolute zero. Batteries are generally a room temperature which is far too hot for a BEC to occur.
Yes. Dew is a condensate.
What type of condensate are you asking about? air conditioning