Oxygen O2 Dynamic Kinematic Viscosity Temperature Pressure
Reference data and engineering information about oxygen o2 dynamic kinematic viscosity temperature pressure for fluid mechanics applications.
oxygendynamickinematicviscosityData Table
Overview
Engineering reference data for Oxygen O2 Dynamic Kinematic Viscosity Temperature Pressure in fluid mechanics.
Key Formulas
Reynolds Number
Ratio of inertial to viscous forces — determines flow regime.
Bernoulli's Equation
Conservation of energy for steady, inviscid, incompressible flow.
Continuity Equation
Conservation of mass for incompressible flow.
Darcy-Weisbach
Pressure drop due to friction in a pipe.
Variables
| Symbol | Description | Unit |
|---|---|---|
| Reynolds number | — | |
| Fluid density | kg/m³ | |
| Flow velocity | m/s | |
| Characteristic dimension | m | |
| Dynamic viscosity | Pa·s | |
| Pressure | Pa | |
| Darcy friction factor | — |
Viscosity Unit Conversions
Dynamic Viscosity Units
| Unit | Equivalent in Other Units |
|---|---|
| 1 cP | |
| 1 lb/(ft h) | |
| 1 lb/(ft s) | |
| 1 kg/(m s) | |
| 1 (N s)/m² |
Kinematic Viscosity Units
| Unit | Equivalent in Other Units |
|---|---|
| 1 cm²/s | 1 \, \text{St} = 100 \, \text{mm^{2}/s} = 100 \, \text{cSt} = 1 \times 10^{-4} \, \text{m^{2}/s} = 0.36 \, \text{m^{2}/h} = 1.07639 \times 10^{-3} \, \text{ft^{2}/s} = 3.875008 \, \text{ft^{2}/h} = 0.1550003 \, \text{in^{2}/s} |
| 1 cSt | 1 \, \text{mm^{2}/s} = 0.01 \, \text{St} = 1 \times 10^{-6} \, \text{m^{2}/s} = 0.0036 \, \text{m^{2}/h} = 1.07639 \times 10^{-5} \, \text{ft^{2}/s} = 0.03875008 \, \text{ft^{2}/h} = 0.001550003 \, \text{in^{2}/s} |
| 1 ft²/h | $2.7778 \times 10^-4 , \ |