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12: Functions of Several Variables

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    A function of the form \(y=f(x)\) is a function of a single variable; given a value of \(x\), we can find a value \(y\). Even the vector--valued functions of Chapter 11 are single--variable functions; the input is a single variable though the output is a vector. There are many situations where a desired quantity is a function of two or more variables. For instance, wind chill is measured by knowing the temperature and wind speed; the volume of a gas can be computed knowing the pressure and temperature of the gas; to compute a baseball player's batting average, one needs to know the number of hits and the number of at--bats. This chapter studies multivariable functions, that is, functions with more than one input.

    • 12.1: Introduction to Multivariable Functions
      The graph of a function f of two variables is the set of all points (x,y,f(x,y)) where (x,y) is in the domain of f . This creates a surface in space.
    • 12.2: Limits and Continuity of Multivariable Functions
      We continue with the pattern we have established in this text: after defining a new kind of function, we apply calculus ideas to it. The previous section defined functions of two and three variables; this section investigates what it means for these functions to be "continuous.''
    • 12.3: Partial Derivatives
      A partial derivative of a function of several variables is its derivative with respect to one of those variables, with the others held constant (as opposed to the total derivative, in which all variables are allowed to vary). Partial derivatives are used in vector calculus and differential geometry.
    • 12.4: Differentiability and the Total Differential
      We extend this idea to functions of two variables.
    • 12.5: The Multivariable Chain Rule
      In this section we extend the Chain Rule to functions of more than one variable.
    • 12.6: Directional Derivatives
      Partial derivatives give us an understanding of how a surface changes when we move in the x and y directions.  But what if we didn't move exactly in x or y directions?  Partial derivatives alone cannot measure this. This section investigates directional derivatives, which do measure this rate of change.
    • 12.7: Tangent Lines, Normal Lines, and Tangent Planes
      Derivatives and tangent lines go hand-in-hand. When dealing with functions of two variables, the graph is no longer a curve but a surface. At a given point on the surface, it seems there are many lines that fit our intuition of being "tangent'' to the surface.
    • 12.8: Extreme Values
      Given a function z=f(x,y) , we are often interested in points where z takes on the largest or smallest values.
    • 12.E: Applications of Functions of Several Variables (Exercises)

    Contributors and Attributions

    • Gregory Hartman (Virginia Military Institute). Contributions were made by Troy Siemers and Dimplekumar Chalishajar of VMI and Brian Heinold of Mount Saint Mary's University. This content is copyrighted by a Creative Commons Attribution - Noncommercial (BY-NC) License.

    This page titled 12: Functions of Several Variables is shared under a CC BY-NC 3.0 license and was authored, remixed, and/or curated by Gregory Hartman et al. via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.