low-temperature vessel - ορισμός. Τι είναι το low-temperature vessel
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Τι (ποιος) είναι low-temperature vessel - ορισμός

STUDY OF THE PRODUCTION AND BEHAVIOUR OF MATERIALS AT VERY LOW TEMPERATURES
Cryogen; Low temperature; Cryogenically; Low-temperature; Low temperature physics; Low-Temperature Phenomena; Cryogenation; Low Temperature; Cryotechnology; Cryogenic; Cyrogenic; Cyrogenics; Kryogenics; Low-temperature physics; Revival (life); Cryophysics; Low Temperature Physics; Cryogenic temperature; Low temperatures; Draft:Cryogenicist; Cryogenicist; Draft:Low Temperature Physicist
  • This is a diagram of an infrared space telescope, that needs a cold mirror and instruments. One instrument needs to be even colder, and it has a cryocooler. The instrument is in region 1 and its cryocooler is in region 3 in a warmer region of the spacecraft (see [[MIRI (Mid-Infrared Instrument)]] or [[James Webb Space Telescope]]).
  • A medium-sized dewar is being filled with liquid nitrogen by a larger cryogenic storage tank.
  • Nitrogen is a liquid under -195.8 degrees Celsius (77K).
  • access-date=11 June 2015}}</ref>

Timeline of low-temperature technology         
ASPECT OF HISTORY
Timeline of low temperature technology; Timeline of cryogenics
The following is a timeline of low-temperature technology and cryogenic technology (refrigeration down to –273.15 °C, –459.
Absolute Temperature         
  • '''Figure 2.5''' This simulation illustrates an argon atom as it would appear through a 400-power optical microscope featuring a reticle graduated with 50-micron (0.05&nbsp;mm) tick marks. This atom is moving with a velocity of 14.43 microns per second, which gives the atom a kinetic temperature of one-trillionth of a kelvin. The atom requires 13.9 seconds to travel 200 microns (0.2&nbsp;mm). Though the atom is being invisibly jostled due to zero-point energy, its translational motion seen here comprises all its kinetic energy.
  • '''Figure 7''' Water's temperature does not change during phase transitions as heat flows into or out of it. The total heat capacity of a mole of water in its liquid phase (the green line) is 7.5507&nbsp;kJ.
  • [[Joseph Louis Gay-Lussac]]
  • [[Guillaume Amontons]]
  • [[Johann Heinrich Lambert]]
  • [[Jacques Alexandre César Charles]]
  • [[Macquorn Rankine]]
ABSOLUTE MEASURE OF TEMPERATURE
Absolute temperature; Absolute Temperature; Thermodynamic temperature scale; Kelvin temperature; Temperature (thermodynamic); Atoms can have zero kinetic velocity and simultaneously be vibrating due to zero-point energy
Temperature reckoned from absolute zero (see "Zero, Absolute"). It is obtained by adding for the centigrade scale 273, and for the Fahrenheit scale 459, to the degree readings of the regular scale.
absolute temperature         
  • '''Figure 2.5''' This simulation illustrates an argon atom as it would appear through a 400-power optical microscope featuring a reticle graduated with 50-micron (0.05&nbsp;mm) tick marks. This atom is moving with a velocity of 14.43 microns per second, which gives the atom a kinetic temperature of one-trillionth of a kelvin. The atom requires 13.9 seconds to travel 200 microns (0.2&nbsp;mm). Though the atom is being invisibly jostled due to zero-point energy, its translational motion seen here comprises all its kinetic energy.
  • '''Figure 7''' Water's temperature does not change during phase transitions as heat flows into or out of it. The total heat capacity of a mole of water in its liquid phase (the green line) is 7.5507&nbsp;kJ.
  • [[Joseph Louis Gay-Lussac]]
  • [[Guillaume Amontons]]
  • [[Johann Heinrich Lambert]]
  • [[Jacques Alexandre César Charles]]
  • [[Macquorn Rankine]]
ABSOLUTE MEASURE OF TEMPERATURE
Absolute temperature; Absolute Temperature; Thermodynamic temperature scale; Kelvin temperature; Temperature (thermodynamic); Atoms can have zero kinetic velocity and simultaneously be vibrating due to zero-point energy
¦ noun a temperature measured from absolute zero in kelvins.

Βικιπαίδεια

Cryogenics

In physics, cryogenics is the production and behaviour of materials at very low temperatures.

The 13th IIR International Congress of Refrigeration (held in Washington DC in 1971) endorsed a universal definition of "cryogenics" and "cryogenic" by accepting a threshold of 120 K (or –153 °C) to distinguish these terms from the conventional refrigeration. This is a logical dividing line, since the normal boiling points of the so-called permanent gases (such as helium, hydrogen, neon, nitrogen, oxygen, and normal air) lie below 120K while the Freon refrigerants, hydrocarbons, and other common refrigerants have boiling points above 120K. The U.S. National Institute of Standards and Technology considers the field of cryogenics as that involving temperatures below -153 Celsius (120K; -243.4 Fahrenheit)

Discovery of superconducting materials with critical temperatures significantly above the boiling point of nitrogen has provided new interest in reliable, low cost methods of producing high temperature cryogenic refrigeration. The term "high temperature cryogenic" describes temperatures ranging from above the boiling point of liquid nitrogen, −195.79 °C (77.36 K; −320.42 °F), up to −50 °C (223 K; −58 °F).

Cryogenicists use the Kelvin or Rankine temperature scale, both of which measure from absolute zero, rather than more usual scales such as Celsius which measures from the freezing point of water at sea level or Fahrenheit which measures from the freezing point of a particular brine solution at sea level.