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at 2:11 p.m. Apr, 29, 2025
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Brian_BH
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Give the equation for Henry's Law of Solubility
{{c1::\(C = k_H \cdot P_g \)}}
{{c1::\(C = k_H \cdot P_g \)}}
Extra
C = concentration of the gas in the liquid
kH = Henry's law constant (depends on gas and temperature)
Pg = partial pressure of the gas above the liquid
The concentration of a gas dissolved in a liquid is directly proportional to the partial pressure of that gas above the liquid.
If the pressure exerted by the gas on the solvent increases (or decreases), the amount of gas dissolved in the solvent will also increase (or decrease) by the same factor.
Also, remember that Pressure (P) and Volume (V) are inversely proportional.
For example, if V ↑ then P ↓ and thus C ↓
kH = Henry's law constant (depends on gas and temperature)
Pg = partial pressure of the gas above the liquid
The concentration of a gas dissolved in a liquid is directly proportional to the partial pressure of that gas above the liquid.
If the pressure exerted by the gas on the solvent increases (or decreases), the amount of gas dissolved in the solvent will also increase (or decrease) by the same factor.
Also, remember that Pressure (P) and Volume (V) are inversely proportional.
For example, if V ↑ then P ↓ and thus C ↓
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