Jacoby is studying a population of diploid single-celled Eukaryotic parasites that live inside mouse blood cells. He finds that a gene, H, has two alleles, H1 and H2, which show codominance. Looking under a microscope, Jacoby can count the parasite cells that have each phenotype. He finds that 2% of the cells have the phenotype associated with H1H1 and 1% of the cells have the phenotype associated with H1H2. Which of the following are accurate? There are 4 correct answers. f(H2H2) = 1.0 - 0.01 -0.02 = f(H1) = 0.02 +0.5 * 0.01 f(H2H2) = (0.97)2 The population is not in Hardy Weinberg Equilibrium with respect to the H gene. The population is in Hardy Weinberg Equilibrium with respect to the H gene Hardy Weinberg Equilibrium model predicts that f(H1H1) = f(H1)2 = The Hardy Weinberg Equilibrium model predicts that f(H2) = f(H2H2) + 0.5 * f(H1H2)