* \quad .
* @f]
* As was previously mentioned, if each of the primitive operations $f_{n}$ is smooth and
- * differentiable, then the chain can be universally employed to compute the total derivative of $f$,
+ * differentiable, then the chain-rule can be universally employed to compute the total derivative of $f$,
* namely $\dfrac{d f(x)}{d \mathbf{x}}$. What distinguishes the "forward" from the "reverse" mode
* is how the chain-rule is evaluated, but ultimately both compute the total derivative
* @f[
* use ADOL-C numbers.
* - adolc_product_types.h: Defines some product and scalar types that allow the use of
* ADOL-C numbers in conjunction with the Tensor and SymmetricTensor classes.
- * - sacado_math.h: Extension of the sacado math operations that allow these numbers to be used
+ * - sacado_math.h: Extension of the Sacado math operations that allow these numbers to be used
* consistently throughout the library.
* - sacado_number_types.h: Implementation of the internal classes that define how we
* use the supported Sacado numbers.