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Question

At 37C and 0.80 atm partial pressure, the solubility of N2 was found to be 5.6×104molL1. A deep sea diver breathes compressed air where the partial pressure of N2 is 4.0 atm. The total volume of blood in his body is 5.0 L. After sometime he comes back to the surface of the water where the total pressure of N2 is 0.80 atm. If the volume of N2 that escapes during his return to the surface, at 37C and 1 atm, is x, find the value of x (two decimal places).

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Solution

By Henry's Law: KH=pCw
Henry's law constant for nitrogen would be:
KH=0.85.6×104
Solubility of nitrogen at 4 atm =4KH.
Moles of N2 dissolved at 4 atm in 5L blood:
=5.6×104×40.8×5=5.6×5×5×104mols... (i)
Moles of N2 dissolved on return to the surface - 0.8 atm in 5L =5.6×5×104mols... (ii)
Moles escaped (i) - (ii): 5.6×4×5×104mols=112×104moles
Vol. of N2 (X) at 37C escaped at 1 atm (using the ideal gas law) = 112×104×0.082×310=0.2847L

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