mating must happen randomly
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
The relationship between the frequencies of three alleles of a gene in a population is that they must add up to 1 (100). This is known as the Hardy-Weinberg equilibrium. The frequencies of the three alleles can be represented as p, q, and r, and the equation p q r 1 must hold true in a population for genetic equilibrium to be maintained.
Yes, once equilibrium is reached, the number of molecules moving in either direction across a semipermeable membrane will be roughly equal. This is because at equilibrium, the concentration of molecules is the same on both sides of the membrane, resulting in an equal likelihood of molecules moving in either direction to maintain balance.
Yes, the interaction of supply and demand between producers and consumers determines the equilibrium price of a good or service in the market. When supply exceeds demand, prices tend to fall, and when demand exceeds supply, prices tend to rise until an equilibrium is reached where both parties are satisfied.
It is TRUE that AEROBIC respiration requires oxygen to occur. It is FALSE that ANAEROBIC respiration requires oxygen to occur. It is FALSE that cells are DEPENDENT on AEROBIC respiration.
mating must happen randomly
mating must happen randomly
mating must happen randomly
No allele can give an advantage
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
True
The relationship between the frequencies of three alleles of a gene in a population is that they must add up to 1 (100). This is known as the Hardy-Weinberg equilibrium. The frequencies of the three alleles can be represented as p, q, and r, and the equation p q r 1 must hold true in a population for genetic equilibrium to be maintained.
No
True
The distribution of alleles does not change from one generation to the next