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∙ 7y agop represents the square root of the frequency of the homozygous genotype AA.
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∙ 7y ago12
As written this is not a graphable thing. I does not represent a graphable equation because there is no "=" sign. Whatever the equation might be, the x intercept is found by setting y=0, which leaves you with an equation for x, which is the intercept.
Let x represent the first integer. The second consecutive integer is then x + 1. The equation can be written as x + (x + 1) = 71.
M= slope (rise/run) B= Y-intercept (where the line intercepts the y-axis)
Let's represent the first "something" as x and the second "something" as y. The equation can be written as 2x + 3y = 16. To solve for x and y, we would need additional information or another equation.
p and q represent the frequencies of two types of alleles.
The frequency of the homozygous dominant genotype.
p represents the square root of the frequency of the homozygous genotype AA.
p is the value of an allele frequency.
12
The p and q variables in the Hardy-Weinberg equation represent the frequencies of the two alleles in a population. The equation is often written as p^2 + 2pq + q^2 = 1, where p and q represent the frequencies of the dominant and recessive alleles, respectively.
As written this is not a graphable thing. I does not represent a graphable equation because there is no "=" sign. Whatever the equation might be, the x intercept is found by setting y=0, which leaves you with an equation for x, which is the intercept.
Let x represent the first integer. The second consecutive integer is then x + 1. The equation can be written as x + (x + 1) = 71.
A correctly balanced chemical equation shows that atoms are not lost because the number of each type of atom is the same on both sides of the equation. This conservation of mass principle ensures that no atoms are created or destroyed during a chemical reaction.
M= slope (rise/run) B= Y-intercept (where the line intercepts the y-axis)
The chemical symbol for fluorine is F. It is a halogen element with atomic number 9. It is written as F2 in its diatomic form.
The enthalpy of formation equation for Ethanol (CH3CH2OH) can be written as: CH3CH2OH (l) -> C2H5OH (l) + 3/2 O2 (g) This equation represents the formation of 1 mol of Ethanol from its elements in their standard states at 25°C and 1 atm pressure.