59.1: First Partial Derivatives

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Page ID: 92383

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You've already learned in a calculus course how to take the derivative of a function of one variable. For example, if

\[f(x)=3 x^{2}+7 x^{5}\]

then

\[\frac{d f}{d x}=6 x+35 x^{4}\]

But what if \(f\) is a function of more that one variable? For example, if

\[f(x, y)=5 x^{3} y^{5}+4 y^{2}-7 x y^{6}\]

then how do we take the derivative of \(f\) ? In this case, there are two possible first derivatives: one with respect to \(x\), and one with respect to \(y\). These are called partial derivatives, and are indicated using the "backward-6" symbol \(\partial\) in place of the symbol \(d\) used for ordinary derivatives.

To compute a partial derivative with respect to \(x\), you simply treat all variables except \(x\) as constants. Similarly, for the partial derivative with respect to \(y\), you treat all variables except \(y\) as constants. For example, if \(g(x, y)=3 x^{4} y^{7}\), then the partial derivative of \(g\) with respect to \(x\) is \(\partial g / \partial x=12 x^{3} y^{7}\), since both 3 and \(y^{7}\) are considered constants with respect to \(x\).

As another example, the partial derivatives of Eq. \(\PageIndex{3}\) are

\[
\begin{align}
& \frac{\partial f}{\partial x}=15 x^{2} y^{5}-7 y^{6} \\[8pt]
& \frac{\partial f}{\partial y}=25 x^{3} y^{4}+8 y-42 x y^{5}
\end{align}
\]

Notice that in Eq. \(\PageIndex{4}\), the derivative of the term \(4 y^{2}\) with respect to \(x\) is 0 , since \(4 y^{2}\) is treated as a constant.

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