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Chapter 2: Q 33. (page 237)

Fill in the blank:
$\frac{d}{d x} (s e c^{- 1} x) = - - -$

Short Answer

Expert verified

$\frac{d}{d x} (s e c^{- 1} x) = \frac{1}{|x| \sqrt{x^{2} - 1}}$

Step by step solution

Given Information

The given expression is $\frac{d}{d x} (s e c^{- 1} x)$

Simplification

Differentiation of $s e c^{- 1} x$ is $\frac{1}{|x| \sqrt{x^{2} - 1}}$

$鈬� \frac{d}{d x} (s e c^{- 1} x) = \frac{1}{|x| \sqrt{x^{2} - 1}}$

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Most popular questions from this chapter

For each function $f (x)$ and interval localid="1648297458718" $[a, b]$ in Exercises localid="1648297462718" $81 - 86$ , use the Intermediate Value Theorem to argue that the function must have at least one real root on localid="1648297466951" $[a, b]$ . Then apply Newton鈥檚 method to approximate that root.

localid="1648297471865" $f (x) = x^{3} - 3 x + 1, [a, b] = [1, 2]$

For each function $f$ graphed in Exercises 65-68, determine the values of $x$ at which $f$ fails to be continuous and/or differentiable. At such points, determine any left or right continuity or differentiability. Sketch secant lines supporting your answers.

Use the definition of the derivative to find the equations of the lines described in Exercises 59-64.

The line tangent to the graph of $y = 4 x + 3$ at the point $(- 2, - 5)$

Use the definition of the derivative to find $f$ for each function $f$ in Exercises $39 - 54$

$f (x) = \frac{1}{x^{2} - 1}$

Find the derivatives of the functions in Exercises 21鈥�46. Keep in mind that it may be convenient to do some preliminary algebra before differentiating.

$f (x) = \frac{{(1 + \sqrt{x})}^{2}}{3 x^{2} - 4 x + 1}$

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Fill in the blank:ddxsec-1x=---

Short Answer

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Fill in the blank:
$\frac{d}{d x} (s e c^{- 1} x) = - - -$