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x^{2}-\frac{13}{4}x-\frac{7}{8}=0

All equations of the form ax^{2}+bx+c=0 can be solved using the quadratic formula: \frac{-b±\sqrt{b^{2}-4ac}}{2a}. The quadratic formula gives two solutions, one when ± is addition and one when it is subtraction.

x=\frac{-\left(-\frac{13}{4}\right)±\sqrt{\left(-\frac{13}{4}\right)^{2}-4\left(-\frac{7}{8}\right)}}{2}

This equation is in standard form: ax^{2}+bx+c=0. Substitute 1 for a, -\frac{13}{4} for b, and -\frac{7}{8} for c in the quadratic formula, \frac{-b±\sqrt{b^{2}-4ac}}{2a}.

x=\frac{-\left(-\frac{13}{4}\right)±\sqrt{\frac{169}{16}-4\left(-\frac{7}{8}\right)}}{2}

Square -\frac{13}{4} by squaring both the numerator and the denominator of the fraction.

x=\frac{-\left(-\frac{13}{4}\right)±\sqrt{\frac{169}{16}+\frac{7}{2}}}{2}

Multiply -4 times -\frac{7}{8}.

x=\frac{-\left(-\frac{13}{4}\right)±\sqrt{\frac{225}{16}}}{2}

Add \frac{169}{16} to \frac{7}{2} by finding a common denominator and adding the numerators. Then reduce the fraction to lowest terms if possible.

x=\frac{-\left(-\frac{13}{4}\right)±\frac{15}{4}}{2}

Take the square root of \frac{225}{16}.

x=\frac{\frac{13}{4}±\frac{15}{4}}{2}

The opposite of -\frac{13}{4} is \frac{13}{4}.

x=\frac{7}{2}

Now solve the equation x=\frac{\frac{13}{4}±\frac{15}{4}}{2} when ± is plus. Add \frac{13}{4} to \frac{15}{4} by finding a common denominator and adding the numerators. Then reduce the fraction to lowest terms if possible.

x=-\frac{\frac{1}{2}}{2}

Now solve the equation x=\frac{\frac{13}{4}±\frac{15}{4}}{2} when ± is minus. Subtract \frac{15}{4} from \frac{13}{4} by finding a common denominator and subtracting the numerators. Then reduce the fraction to lowest terms if possible.

x=-\frac{1}{4}

Divide -\frac{1}{2} by 2.

x=\frac{7}{2} x=-\frac{1}{4}

The equation is now solved.

x^{2}-\frac{13}{4}x-\frac{7}{8}=0

Quadratic equations such as this one can be solved by completing the square. In order to complete the square, the equation must first be in the form x^{2}+bx=c.

x^{2}-\frac{13}{4}x-\frac{7}{8}-\left(-\frac{7}{8}\right)=-\left(-\frac{7}{8}\right)

Add \frac{7}{8} to both sides of the equation.

x^{2}-\frac{13}{4}x=-\left(-\frac{7}{8}\right)

Subtracting -\frac{7}{8} from itself leaves 0.

x^{2}-\frac{13}{4}x=\frac{7}{8}

Subtract -\frac{7}{8} from 0.

x^{2}-\frac{13}{4}x+\left(-\frac{13}{8}\right)^{2}=\frac{7}{8}+\left(-\frac{13}{8}\right)^{2}

Divide -\frac{13}{4}, the coefficient of the x term, by 2 to get -\frac{13}{8}. Then add the square of -\frac{13}{8} to both sides of the equation. This step makes the left hand side of the equation a perfect square.

x^{2}-\frac{13}{4}x+\frac{169}{64}=\frac{7}{8}+\frac{169}{64}

Square -\frac{13}{8} by squaring both the numerator and the denominator of the fraction.

x^{2}-\frac{13}{4}x+\frac{169}{64}=\frac{225}{64}

Add \frac{7}{8} to \frac{169}{64} by finding a common denominator and adding the numerators. Then reduce the fraction to lowest terms if possible.

\left(x-\frac{13}{8}\right)^{2}=\frac{225}{64}

Factor x^{2}-\frac{13}{4}x+\frac{169}{64}. In general, when x^{2}+bx+c is a perfect square, it can always be factored as \left(x+\frac{b}{2}\right)^{2}.

\sqrt{\left(x-\frac{13}{8}\right)^{2}}=\sqrt{\frac{225}{64}}

Take the square root of both sides of the equation.

x-\frac{13}{8}=\frac{15}{8} x-\frac{13}{8}=-\frac{15}{8}

Simplify.

x=\frac{7}{2} x=-\frac{1}{4}

Add \frac{13}{8} to both sides of the equation.