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Specific heat ratio of various gases
Gas	°C	k	Gas	°C	k
H₂	−181	1.597	Dry Air	20	1.40
	−76	1.453		100	1.401
	20	1.41		200	1.398
	100	1.404		400	1.393
	400	1.387	CO₂	0	1.310
	1000	1.358		20	1.30
	2000	1.318		100	1.281
He	20	1.66		400	1.235
N₂	−181	1.47	NH₃	15	1.310
N₂	15	1.404	CO	20	1.40
Cl₂	20	1.34	O₂	−181	1.45
Ar	−180	1.76		−76	1.415
Ar	20	1.67		20	1.40
CH₄	−115	1.41		100	1.399
	−74	1.35		200	1.397
	20	1.32		400	1.394

The specific heat ratio of a gas is the ratio of the specific heat at constant pressure, $C_{p}$ , to the specific heat at constant volume, $C_{v}$ . It is sometimes referred to as the adiabatic index or the heat capacity ratio or the isentropic expansion factor or the adiabatic exponent or the isentropic exponent.

Either $\kappa$ (kappa), $k$ (Roman letter k) or $\gamma$ (gamma) may be used to denote the specific heat ratio:

\kappa =k=\gamma ={\frac {C_{p}}{C_{v}}}

where:

C

= the specific heat of a gas

p

= refers to constant pressure conditions

v

= refers to constant volume conditions

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