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Differentiate w.r.t. w
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\frac{5\left(w-7\right)}{\left(w-7\right)\left(w+1\right)}+\frac{8\left(w+1\right)}{\left(w-7\right)\left(w+1\right)}
To add or subtract expressions, expand them to make their denominators the same. Least common multiple of w+1 and w-7 is \left(w-7\right)\left(w+1\right). Multiply \frac{5}{w+1} times \frac{w-7}{w-7}. Multiply \frac{8}{w-7} times \frac{w+1}{w+1}.
\frac{5\left(w-7\right)+8\left(w+1\right)}{\left(w-7\right)\left(w+1\right)}
Since \frac{5\left(w-7\right)}{\left(w-7\right)\left(w+1\right)} and \frac{8\left(w+1\right)}{\left(w-7\right)\left(w+1\right)} have the same denominator, add them by adding their numerators.
\frac{5w-35+8w+8}{\left(w-7\right)\left(w+1\right)}
Do the multiplications in 5\left(w-7\right)+8\left(w+1\right).
\frac{13w-27}{\left(w-7\right)\left(w+1\right)}
Combine like terms in 5w-35+8w+8.
\frac{13w-27}{w^{2}-6w-7}
Expand \left(w-7\right)\left(w+1\right).
\frac{\mathrm{d}}{\mathrm{d}w}(\frac{5\left(w-7\right)}{\left(w-7\right)\left(w+1\right)}+\frac{8\left(w+1\right)}{\left(w-7\right)\left(w+1\right)})
To add or subtract expressions, expand them to make their denominators the same. Least common multiple of w+1 and w-7 is \left(w-7\right)\left(w+1\right). Multiply \frac{5}{w+1} times \frac{w-7}{w-7}. Multiply \frac{8}{w-7} times \frac{w+1}{w+1}.
\frac{\mathrm{d}}{\mathrm{d}w}(\frac{5\left(w-7\right)+8\left(w+1\right)}{\left(w-7\right)\left(w+1\right)})
Since \frac{5\left(w-7\right)}{\left(w-7\right)\left(w+1\right)} and \frac{8\left(w+1\right)}{\left(w-7\right)\left(w+1\right)} have the same denominator, add them by adding their numerators.
\frac{\mathrm{d}}{\mathrm{d}w}(\frac{5w-35+8w+8}{\left(w-7\right)\left(w+1\right)})
Do the multiplications in 5\left(w-7\right)+8\left(w+1\right).
\frac{\mathrm{d}}{\mathrm{d}w}(\frac{13w-27}{\left(w-7\right)\left(w+1\right)})
Combine like terms in 5w-35+8w+8.
\frac{\mathrm{d}}{\mathrm{d}w}(\frac{13w-27}{w^{2}+w-7w-7})
Apply the distributive property by multiplying each term of w-7 by each term of w+1.
\frac{\mathrm{d}}{\mathrm{d}w}(\frac{13w-27}{w^{2}-6w-7})
Combine w and -7w to get -6w.
\frac{\left(w^{2}-6w^{1}-7\right)\frac{\mathrm{d}}{\mathrm{d}w}(13w^{1}-27)-\left(13w^{1}-27\right)\frac{\mathrm{d}}{\mathrm{d}w}(w^{2}-6w^{1}-7)}{\left(w^{2}-6w^{1}-7\right)^{2}}
For any two differentiable functions, the derivative of the quotient of two functions is the denominator times the derivative of the numerator minus the numerator times the derivative of the denominator, all divided by the denominator squared.
\frac{\left(w^{2}-6w^{1}-7\right)\times 13w^{1-1}-\left(13w^{1}-27\right)\left(2w^{2-1}-6w^{1-1}\right)}{\left(w^{2}-6w^{1}-7\right)^{2}}
The derivative of a polynomial is the sum of the derivatives of its terms. The derivative of a constant term is 0. The derivative of ax^{n} is nax^{n-1}.
\frac{\left(w^{2}-6w^{1}-7\right)\times 13w^{0}-\left(13w^{1}-27\right)\left(2w^{1}-6w^{0}\right)}{\left(w^{2}-6w^{1}-7\right)^{2}}
Simplify.
\frac{w^{2}\times 13w^{0}-6w^{1}\times 13w^{0}-7\times 13w^{0}-\left(13w^{1}-27\right)\left(2w^{1}-6w^{0}\right)}{\left(w^{2}-6w^{1}-7\right)^{2}}
Multiply w^{2}-6w^{1}-7 times 13w^{0}.
\frac{w^{2}\times 13w^{0}-6w^{1}\times 13w^{0}-7\times 13w^{0}-\left(13w^{1}\times 2w^{1}+13w^{1}\left(-6\right)w^{0}-27\times 2w^{1}-27\left(-6\right)w^{0}\right)}{\left(w^{2}-6w^{1}-7\right)^{2}}
Multiply 13w^{1}-27 times 2w^{1}-6w^{0}.
\frac{13w^{2}-6\times 13w^{1}-7\times 13w^{0}-\left(13\times 2w^{1+1}+13\left(-6\right)w^{1}-27\times 2w^{1}-27\left(-6\right)w^{0}\right)}{\left(w^{2}-6w^{1}-7\right)^{2}}
To multiply powers of the same base, add their exponents.
\frac{13w^{2}-78w^{1}-91w^{0}-\left(26w^{2}-78w^{1}-54w^{1}+162w^{0}\right)}{\left(w^{2}-6w^{1}-7\right)^{2}}
Simplify.
\frac{-13w^{2}+54w^{1}-253w^{0}}{\left(w^{2}-6w^{1}-7\right)^{2}}
Combine like terms.
\frac{-13w^{2}+54w-253w^{0}}{\left(w^{2}-6w-7\right)^{2}}
For any term t, t^{1}=t.
\frac{-13w^{2}+54w-253}{\left(w^{2}-6w-7\right)^{2}}
For any term t except 0, t^{0}=1.