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IMPLICIT Differentiation.

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Presentation on theme: "IMPLICIT Differentiation."— Presentation transcript:

1 IMPLICIT Differentiation

2 Total Recall We write the derivative of a function as:
In general, the means to take the derivative with respect to “x.” We will now work with functions where this is NOT exactly possible.

3 Something Different How would be computed for
Since this curve is NOT a function, the derivative still makes sense because the slope of the tangent line will be on the curve When a curve is expressed in terms the independent & dependent variable, it is an IMPLICIT function.

4 The METHOD Step1: Step 2: Step 3: Step 4:
take the derivative of each side of the equation implicitly Step 2: Rearrange the equation so the terms containing are on one side and the other terms are on the other side Step 3: Factor out , and then Step 4: SOLVE for

5 EXAMPLE Find the derivative:

6 EXAMPLE Find the derivative:
In this example, the derivative of y with respect to x is

7 EXAMPLE Find the derivative:

8 EXAMPLE Find the derivative: Notice the derivative of y2 has 2y and

9 EXAMPLE So in our ORIGINAL example:

10 EXAMPLE Find the derivative:

11 EXAMPLE Find the derivative:

12 EXAMPLE Find the derivative:

13 SUMMARY Remember, just like explicitly defined functions, the derivative may NOT always exist. If the graph of a curve has a corner, cusp, or vertical tangent line at a point, then it does not make sense to compute a derivative Remember, the derivative is the SLOPE of the tangent like to a curve

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