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Section 15.3 Partial Derivatives. PARTIAL DERIVATIVES If f is a function of two variables, its partial derivatives are the functions f x and f y defined.

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Presentation on theme: "Section 15.3 Partial Derivatives. PARTIAL DERIVATIVES If f is a function of two variables, its partial derivatives are the functions f x and f y defined."— Presentation transcript:

1 Section 15.3 Partial Derivatives

2 PARTIAL DERIVATIVES If f is a function of two variables, its partial derivatives are the functions f x and f y defined by

3 NOTATIONS FOR PARTIAL DERIVATIVES If z = f (x, y), we write

4 RULE FOR FINDING PARTIAL DERIVATIVES OF z = f (x, y) 1.To find f x, regard y as a constant and differentiate f (x, y) with respect to x. 2.To find f y, regard x as a constant and differentiate f (x, y) with respect to y.

5 FUNCTIONS OF MORE THAN TWO VARIABLES There are analogous definitions for the partial derivatives of functions of three or more variables.

6 GEOMETRIC INTERPRETATION OF PARTIAL DERIVATIVES Consider the surface S whose equation is z = f (x, y). The plane y = b intersects this surface in a plane curve C 1. The value of f x (a, b) is the slope of the tangent line T 1 to the curve at the point P(a, b, f(a, b)). Similarly, the plane x = a intersects the surface in a plane curve C 2 and f y (a, b) is the slope of the tangent line T 2 to the curve at the point P(a, b, f(a, b)).

7 SECOND PARTIAL DERIVATIVES If f is a function of two variables, then its partial derivatives f x and f y are also functions of two variables, so we can consider their partial derivatives ( f x ) x, ( f x ) y, ( f y ) x, and ( f y ) y, which are called the second partial derivatives of f.

8 NOTATION FOR THE SECOND PARTIAL DERIVATIVES If z = f (x, y), we use the following notation:

9 CLAIRAUT’S THEOREM Suppose that f is defined on a disk D that contains the point (a, b). If the functions f xy and f yx are both continuous on D, then f xy (a, b) = f yx (a, b)

10 HIGHER ORDER DERIVATIVES If f is a two variable function, partial derivatives of order 3 and higher can be defined. Some examples would be f xxx, f xyx, f xyyx, etc. Using Clairnaut’s Theorem, we can show that f xyy = f yxy = f yyx if these functions are continuous and f xxy = f xyx = f yxx if these functions are continuous.

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