5-ETHYLIDENE-2-NORBORNENE  Thermodynamic & Transport Properties
CAS Number
Name
Category
Pure Or Mix Name
English Full Name
Chemical Formula
Molecular Weight
Synonym Ethylidenenorbornylene,Ethylidene_Camphene,5-Eid=-2Norbornene,5-Ethylidinenorbornene,5-Ethylidene-2-Norbornene,Bicyclo(2,2,1)hept-2-Ene,_5-Ethylidene-;5-ethylidenenorborn-2-ene; 5-ETHYLENE-2-NORBORENE; Bicyclo(2.2.1)hept-2-ene, 5-ethylidene-; 2-ethylidenenorbornene; 5-Ethylidene-2-norbornene; 5-ethylidene-2-norbornen; 2-ethylidenebicyclo<2.2.1>hept-5-ene; 5-Ethylidene-2-norbornene,mixt. of endo- and exo-isomers,stabilized; Ethylidene Norbornene; ETHYLIDENE NORBORNENE; 5-Ethylidene-2-norbornen; 5-Ethylidenebicyclo[2.2.1]hept-2-ene; ETHYLIDENE-2-NORBORNENE; 5-ethylidene-norbornene; 5-ethylidene-5-norbornene; ethylidenenorbornene; enb;
Molecular Weight
Normal Boiling PointNormal Boiling Point
Critical Temperature Critical temperature
Acentric FactorAcentric Factor
Dipole Momentdipole moment
Heat of Formation J/mol
Heat of Combustion J/mol
Composition
5-ETHYLIDENE-2-NORBORNENE :Introduction
Single Value
Calculation Model :
Based on Mars Model
Temperature =
Pressure =
Specific Enthalpy =
Specific Entropy =
Reference
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5-ETHYLIDENE-2-NORBORNENE :Thermodynamic & Transport Properties Calculated Result
Physical State:
Molecular Weight=
Celsius,Fahrenheit,Reaumur & Thermodynamic Temperature ConversionTemperature=
absolute pressure & gauge pressurePressure=
Density=
specific volumespecific volume=
Specific EnthalpySpecific Enthalpy=
Specific Entropy Specific Entropy =
Composition=



Saturated Vapor Pressure, boiling point (dew point), latent heat of vaporizationare are saturated properties, just enter One parameter to calculate them!
Saturated Vapor Pressure=
Boiling Point=
Latent Heat of VaporizationLatent Heat of Vaporization=
Specific Heat at Constant PressureSpecific Heat(Cp)=
Specific Heat(Cv)=
Adiabatic ExponentCp/Cv=
QualityVapor Quality=
Compression FactorCompression Factor=
Thermal conductivityThermal Conductivity=
Thermal Diffusion CoefficientThermal Diffusivity=
Kinematic ViscosityKinematic Viscosity=
Dynamic ViscosityDynamic Viscosity=
Surface TensionSurface Tension=
Prandtl NumberPrandtl Number=

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