// multi-utility computation suite · offline · instant · precise
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│ [c] calcalyst_ │
│ computation suite │
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sci.Henry-law-gas-solubility Calculator
Calculates the solubility of gases in liquids from Henry's law: C = H × p, where H is the Henry constant and p is partial pressure. Oxygen solubility in water at 20 °C is 9.1 mg/L at 1 atm — hyperbaric oxygen therapy at 3 atm delivers ~56 mg/L dissolved O₂, bypassing haemoglobin entirely.
Inputs
H Mol L Atm
Reference formula or conversion factor shown for context.
P Gas Atm
Force per unit area (Pa). Atmospheric pressure at sea level: 101,325 Pa. Check whether gauge or absolute pressure is required.
T K
Thermal state of the substance. Check whether the formula needs Celsius, Fahrenheit, or Kelvin (K = °C + 273.15).
Results
dissolved gas concentration (mol/L)
The proportional relationship between two quantities.
for CO₂: concentration (mg/L)
The proportional relationship between two quantities.
C = H·P (Henry law)
Sample size or count used in the calculation.
temperature-corrected H at T
The value at the specified point or condition.
CO₂ in water at 400 ppm atm CO₂
The value at the specified point or condition.
application
Recommended use case or application for this configuration or result.