absolute zero

listen to the pronunciation of absolute zero
Englisch - Türkisch
mutlak sıfır

Mutlak sıfır, mümkün olan en düşük sıcaklıktır. - Absolute zero is the lowest possible temperature.

mutlak sıfır noktası
(Askeri) MUTLAK SIFIR: Her türlü termik etki veya sıcaklık etkisinin ortadan kalktığı teorik hava sıcaklığı; ortalama -273.16°C, -459.69°F, 0°K ve 0°R; ısıda mutlak sıfır noktası (-273°C)
saltık sıfır
mutlâk sıfır noktası ( 273 c)
mutlak sıfır phys., chem
salt sıfır
Englisch - Englisch
The coldest possible temperature, zero on the Kelvin scale, or approximately −273.15 °C, −459.67 °F
A person or thing of absolutely no consequence
The temperature limit at which no further cooling of a substance can occur, and at which the motion of the molecules is at a minimum (or, more accurately, at the minimum allowed by Quantum Mechanics) The energy associated with this minimum motion is called "zero point energy" by physicists
The lowest temperature ever reachable in the Universe: 0 Kelvin (0K), equivalent to minus 273 degrees Celsius (-273ºC) In laboratories on Earth physicists can get very close to that temperature, but it is impossible to achieve the absolute zero
67 Fahrenheit
The minimum point in thermodynamic temperature scale (-273 16° C or -459 69+B15F) B47
The temperature (-273 15C or 0K) at which the volume and pressure of an ideal gas extrapolate to zero
The temperature at which all heat action ceases, -273 16 °C, 0 K
temperature at which it is believed that all molecular activity ceases (-273.16 degrees Celsius/-459.69 degrees Fahrenheit)
The temperature at which the motion of all atoms and molecules stops and no heat is given off Absolute zero is reached at 0 degrees Kelvin or -273 16 degrees Celsius
The zero point on the absolute temperature scale; -273 15°C or 0 K; theoretically, the temperature at which molecular motion ceases
(cryogenics) the lowest temperature theoretically attainable (at which the kinetic energy of atoms and molecules is minimal); 0 Kelvin or -273 15 Centigrade or -459 67 Fahrenheit
The temperature (-273 15oC or 0 K) at which the volume and pressure of an ideal gas extrapolate to zero
(cryogenics) the lowest temperature theoretically attainable (at which the kinetic energy of atoms and molecules is minimal); 0 Kelvin or -273
The state in which molecules of matter are not moving at all Though scientists have come very close to cooling matter that far, they cannot reach it The temperature at which matter would reach absolute zero is -273° Celsius (or 0° Kelvin)
Considered to be the point at which theoretically no molecular activity exists or the temperature at which the volume of a perfect gas vanishes It is also the zero point of the Kelvin Temperature Scale The value is -273 16 degrees Kelvin, -273 degrees Celsius and -459 6 degreees Fahrenheit
Temperature at which thermal energy is at a minimum Defined as 0 Kelvin, calculated to be -273 15°C or -459 67°F
A hypothetical temperature at which all thermal motion of atoms ceases A total absence of heat
Considered to be the point at which theoretically no molecular activity exists or the temperature at which the volume of a perfect gas vanishes The value is 0° Kelvin, -273 15° Celsius and -459 67° Fahrenheit
Temperature of - 273 15 degrees Celsius At this temperature atomic motion stops
The temperature at which the volume of a gas theoretically becomes zero and all thermal motion ceases Generally accepted as being -273 16°C or -459 69°F
The temperature of a body at which the kinetic energy of its molecules is at a minimum; OoK or -273 16 oC
Absolute zero is a theoretical temperature that is thought to be the lowest possible temperature. The theoretical temperature at which substances possess no thermal energy, equal to -273.15°C, or -459.67°F. the lowest temperature that is believed to be possible. Temperature at which a thermodynamic system (see thermodynamics) has the lowest energy, 0 kelvin (K). It corresponds to -459.67°F (-273.15°C) and is the lowest possible temperature theoretically achievable by a system. A gas at constant pressure contracts as the temperature is decreased. A perfect gas would reach zero volume at absolute zero. However, a real gas condenses to a liquid or a solid at a temperature higher than absolute zero. At absolute zero, the system's molecular energy is minimal and none is available for transfer to other systems. The Kelvin temperature scale has absolute zero as its zero point, and its fundamental unit is the kelvin
A temperature of -273 Celsius or 0 kelvins (K) The temperature at which an atom would have no energy of motion
15 Centigrade or -459
The lower limit of temperature -459 69°F (0301)
The theoretical lowest possible temperature, corresponding to a complete absence of molecular motion Approximately -273 1°C, or -459 8°F
459 67°F or -273 15°C or 0 Kelvin The temperature where thermal energy is at minimum
0 Kelvin (-273o C); the temperature at which all molecular movement ceases
The zero value of thermodynamic temperature, or 0 Kelvin (K), also equivalent to -273 15 Celsius (C) on the Centigrade Temperature Scale or -459 67 Fahrenheit (F) on the Fahrenheit Temperature Scale
Temperature at which thermal energy is at a minimum Defined as 0 Kelvin, calculated to be -273 15 °C or -459 67°F
The lowest possible temperature according to the kinetic theory; all molecular motions cease
The lowest possible temperature in the universe, at which all atomic activity ceases Equal to -273 degrees Celsius (- 459 degrees Fahrenheit) Used as a benchmark for measuring temperature
absolute zeros
plural form of absolute zero
absolute zero
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