Vector-Valued Functions and Multivariable Chain Rule

To simplify the notation for single-variable functions

To generalize the rule for higher-dimensional spaces

To avoid using derivatives

To make the rule applicable only to two-dimensional spaces

It takes in a vector and outputs another vector

It takes in a scalar and outputs a vector

It takes in a scalar and outputs a scalar

It takes in a vector and outputs a scalar

The sum of the derivatives of its components

The vector of the derivatives of its components

The scalar of the derivatives of its components

The product of the derivatives of its components

The multiplication of two scalars

The sum of two vectors

The interaction between two vectors

The combination of two vectors

It serves as the derivative for multivariable functions

It is used to find the maximum value of a function

It is irrelevant in the chain rule

It acts as a constant

The multivariable chain rule is a simpler form

The single-variable chain rule is more complex

The multivariable chain rule is an extension of the single-variable chain rule

They are completely unrelated

The minimum value of the function

The maximum value of the function

The rate of change of the function in a specific direction

The sum of the two vectors