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an implicitly defined function, substitute in the first derivative in order to write the second derivative in terms of x and y.

       When you substitute the first derivative into the second derivative, be prepared to further simplify.

      408–413 Use implicit differentiation to find math.

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      414–417 Use implicit differentiation to find math.

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       418–422 Find the equation of the tangent line at the indicated point.

      418. math at math

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      Applications of Derivatives

      What good are derivatives if you can’t do anything useful with them? Well, don’t worry! There are tons and tons of useful applications involving derivatives. This chapter illustrates how calculus can help solve a variety of practical problems, including finding maximum and minimum values of functions, approximating roots of equations, and finding the velocity and acceleration of an object, just to name a few. Without calculus, many of these problems would be very difficult indeed!

      This chapter has a variety of applications of derivatives, including

       Approximating values of a function using linearization

       Approximating roots of equations using Newton’s method

       Finding the optimal solution to a problem by finding a maximum or minimum value

       Determining how quantities vary in relation to each other

       Locating absolute and local maxima and minima

       Finding the instantaneous velocity and acceleration of an object

       Using Rolle’s theorem and the mean value theorem

      This chapter presents a variety of applications and word problems, and you may have to be a bit creative when setting up some of the problems. Here are some tips:

       Think about what your variables represent in the optimization and related-rates problems; if you can’t explain what they represent, start over!

       You’ll have to produce equations in the related-rates and optimization problems. Getting started is often the most difficult part, so just dive in and try different things.

       Remember that linearization is just a fancy way of saying “tangent line.”

       Although things should be set up nicely in most of the problems, note that Newton’s method doesn’t always work; its success depends on your starting value.

       423–425 Find the differential dy and then evaluate dy for the given values of x and dx.

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       426–428 Find the linearization L(x) of the function at the given value of a.

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      428. Скачать книгу