isothermal - traduction vers français
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isothermal - traduction vers français

THERMODYNAMIC PROCESS IN WHICH THE TEMPERATURE REMAINS CONSTANT
Isothermal; Isothermic reaction; Isothermally; Isothermal expansion; Isothermic process; Isothermic
  • '''Figure 1.''' Several isotherms of an ideal gas on a p-V diagram, where p for pressure and V the volume.
  • '''Figure 3.''' Isothermal expansion of an ideal gas.  Black line indicates continuously reversible expansion, while the red line indicates stepwise and nearly reversible expansion at each incremental drop in pressure of 0.1 atm of the working gas.
  • work]] for this isothermal change.

isothermal      
isothermal, pertaining to an isotherm, of a line which connects areas with the same average temperatures (Meteorology)
isotherme         
n. isotherm, line on a meteorological map connecting areas with the same average temperatures; curve made up of dots representing the same temperature (Physics)
isotherme      
isothermal, pertaining to an isotherm, of a line which connects areas with the same average temperatures (Meteorology)

Définition

Isothermal
·adj Relating to equality of temperature.
II. Isothermal ·adj Having reference to the geographical distribution of temperature, as exhibited by means of isotherms; as, an isothermal line; an isothermal chart.

Wikipédia

Isothermal process

In thermodynamics, an isothermal process is a type of thermodynamic process in which the temperature T of a system remains constant: ΔT = 0. This typically occurs when a system is in contact with an outside thermal reservoir, and a change in the system occurs slowly enough to allow the system to be continuously adjusted to the temperature of the reservoir through heat exchange (see quasi-equilibrium). In contrast, an adiabatic process is where a system exchanges no heat with its surroundings (Q = 0).

Simply, we can say that in an isothermal process

  • T = constant {\displaystyle T={\text{constant}}}
  • Δ T = 0 {\displaystyle \Delta T=0}
  • d T = 0 {\displaystyle dT=0}
  • For ideal gases only, internal energy Δ U = 0 {\displaystyle \Delta U=0}

while in adiabatic processes:

  • Q = 0. {\displaystyle Q=0.}