8: Introducing the Chain Rule

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So far, examples were purposefully chosen to focus on power, polynomial, and rational functions that are each relatively easy to differentiate. We now introduce the differentiation rule that opens up our repertoire to more elaborate examples involving composite functions. This allows us to model more biological processes. We dedicate this chapter to the chain rule and its applications.

8.1: The Chain Rule
Informally, the chain rule states that the change in y with respect to x is a product of two rates of change: (1) the rate of change of y with respect to its immediate input u, and (2) the rate of change of u with respect to its input, x.
8.2: The Chain Rule Applied to Optimization Problems
Armed with the chain rule, we can now differentiate a wider variety of functions, and address problems that were not tractable with the power, product, or quotient rules alone. We return to optimization problems where derivatives require use of the chain rule.
8.3: Summary
8.4: Exercises

Thumbnail: Chain. (Unsplash license; Miltiadis Fragkidis via Unsplash)

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