s at a body temperature of 310K is u(O2) = -.6 eV. The energy o noglobin adsorption site is 0 when it is empty, -0.7 eV when occupie n O2 molecule, and -0.85 eV when it is occupied by a CO molecule. First, consider the case of when there is no C0 present in the air. Wha is the Gibbs sum for the hemoglobin site, and what is the probabilit that a hemoglobin site in the lungs is occupied by an O2 molecule? Now suppose there is CO present in the air at an abundance of 1/10 of that of O2. Estimate the value of the chemical potential ' for CC in the gir at 31 0 K (vou can 2ssumo that the massos of CO and O

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molecule). Suppose that the chemical potential of O, in the air in the lungs at a body temperature of 310 K is u(O2) = -.6 eV. The energy of a hemoglobin adsorption site is 0 when it is empty, -0.7 eV when occupied by an O2 molecule, and -0.85 eV when it is occupied by a CO molecule. (a) First, consider the case of when there is no CO present in the air. What is the Gibbs sum for the hemoglobin site, and what is the probability that a hemoglobin site in the lungs is occupied by an O2 molecule? (b) Now suppose there is CO present in the air at an abundance of 1/100 of that of O2. Estimate the value of the chemical potential u' for CO in the air at 310 K (you can assume that the masses of CO and O2 molecules are approximately equal). (c) What is the Gibbs sum and the probability that a hemoglobin is occu- pied by an O2 molecule?