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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)
p represents the square root of the frequency of the homozygous genotype AA.
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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.
p and q represent the frequencies of two types of alleles.
Let x represent the first integer. The second consecutive integer is then x + 1. The equation can be written as x + (x + 1) = 71.
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The Atomic Number*******************2nd Opinion ******************Nope. The answer is a chemical formula.
M= slope (rise/run) B= Y-intercept (where the line intercepts the y-axis)
p represents the square root of the frequency of the homozygous genotype AA.
The frequency of the homozygous dominant genotype.
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This is the Schrodinger equation from 1925-1926.