1. A hemoglobin molecule can bind 4 0, molecules. Assume that E is the energy of each bound O2. relative to O2 at rest at infinite distance. Let λ denote the absolute activity exp(wkbT) of the fr...
1. A hemoglobin molecule can bind 4 0, molecules. Assume that E is the energy of each bound O2. relative to O2 at rest at infinite distance. Let λ denote the absolute activity exp(wkbT) of the free -fin solution). A) Write the partition function for this model. B) What is the probability that one and one only O2 is adsorbed on a hemoglobin molecule? C) What is the probability that three and only three O2 are adsorbed?
1. A hemoglobin molecule can bind 4 0, molecules. Assume that E is the energy of each bound O2. relative to O2 at rest at infinite distance. Let λ denote the absolute activity exp(wkbT) of the free -fin solution). A) Write the partition function for this model. B) What is the probability that one and one only O2 is adsorbed on a hemoglobin molecule? C) What is the probability that three and only three O2 are adsorbed?