Specific Heat of pure Polypropylene Glycol = 2500 J/(Kg.K)
Specific Heat of water = 4180 J/(Kg.K)
Now you can calculate it :
Specific Heat of 33% Polypropylene Glycol and 67% water = 3626 J/(Kg.K)
Ethylene Gas - C2H4Temperature
- T -
(K)Specific heat capacity
- cp -
(kJ/kgK)1751.2412001.2602251.3162501.3802751.4533001.5353251.6213501.7093751.7994001.8914502.0635002.2275502.3786002.5196502.6497002.7707502.8838002.9898503.0889003.180
2.43 Kj/Kg, not sure if you meant specific heat capacity but that's that
Specific heat of 99.5% USP propylene glycol is 2.4702 kJ/(kg*K) at 20 degC.
use this link
http://webbook.nist.gov/cgi/cbook.cgi?ID=C107211&Units=SI&Mask=1#Thermo-Gas
The standard enthalpy change of vaporization of ethylene glycol is 56.6 kJ / mol. The enthalpy change of fusion is 9.9 kJ / mol.
The specific heat of pure, 100% liquid, propylene glycol at 453K (355°F) is 3.43 kJ/kg-K (0.82 Btu/lb-°F).
The constant pressure heat capacity at 25 0C is approx. 112 J/mol.K.
In the last century many data for this parameter were published, generally being similar.
2.46g/mol*deg C
specific heat capacity
What is the specific heat capacity of kno3
The heat capacity depends on the mass of a material and is expressed in j/K.The specific heat capacity not depends on the mass of a material and is expressed in j/mol.K.
The specific heat capacity of water does not change much within-phase (ie, as a solid it has one specific heat capacity, as a liquid/gas it has another)
Specific heat is the heat capacity divided by the heat capacity of water, which makes it dimensionless. To obtain molar heat capacity from specific heat for a material of interest, simply multiply the specific heat by the heat capacity of water per gram [1 cal/(g*C)]and multiply by the molecular weight of the substance of interest. For example, to obtain the molar heat capacity of iron Specific heat of iron = 0.15 (note there are no units) Molar heat capacity of iron = 0.15*1 cal/(g*C)*55.85 g /gmole = 8.378 cal/(gmole*C)
specific heat capacity
The specific heat capacity of polyester is 2.35degrees
sand have low specific heat capacity.
No. Metals have a relatively low specific heat.
What is the specific heat capacity of kno3
The specific heat of ethyl alcohol, used in most alcoholic beverages, is ~ 0.6 cal/g/°C.
The heat capacity depends on the mass of a material and is expressed in j/K.The specific heat capacity not depends on the mass of a material and is expressed in j/mol.K.
heat capacity- ML2T-2K-1 Specific Heat Capacity-M0L2T-2K-1
what the specific heat usefull
A calorimeter can be used to calculate specific heat capacity.
heat capacity of sodiumsulphate
The specific heat capacity of water does not change much within-phase (ie, as a solid it has one specific heat capacity, as a liquid/gas it has another)