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3.2E: Exercises

  • Page ID
    10898
  • This page is a draft and is under active development. 

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    Exercise \(\PageIndex{1}\)

    For the following exercises, find the linear approximation \(L(x)\) to \(y=f(x)\) near \(x=a\) for the function.

    1) \(f(x)=x+x^4,a=0\)

    2) \(f(x)=\frac{1}{x},a=2\)

    3) \(f(x)=tanx,a=\frac{π}{4}\)

    4) \(f(x)=sinx,a=\frac{π}{2}\)

    5) \(f(x)=xsinx,a=2π\)

    6) \(f(x)=sin^2x,a=0\)

    Answers to even numbered questions

    2. \(L(x)=\frac{1}{2}−\frac{1}{4}(x−2)\)

    4. \(L(x)=1\)

    6. \(L(x)=0\)

    Exercise \(\PageIndex{2}\)

    For the following exercises, compute the values given within 0.01 by deciding on the appropriate \(f(x)\) and \(a\), and evaluating \(L(x)=f(a)+f′(a)(x−a).\) Check your answer using a calculator.

    1) \((2.001)^6\)

    2) \(sin(0.02)\)

    3) \(cos(0.03)\)

    4) \((15.99)^{1/4}\)

    5) \(\frac{1}{0.98}\)

    6) \(sin(3.14)\)

    Answers to even numbered questions

    2. \(0.02\)

    4. \(1.9996875\)

    6. \(0.001593\)

    Exercise \(\PageIndex{3}\)

    For the following exercises, determine the appropriate \(f(x)\) and \(a\), and evaluate \(L(x)=f(a)+f′(a)(x−a).\) Calculate the numerical error in the linear approximations that follow.

    1) \((1.01)^3\)

    2) \(cos(0.01)\)

    3) \((sin(0.01))^2\)

    4) \((1.01)^{−3}\)

    5) \((1+\frac{1}{10})^{10}\)

    6) \(\sqrt{8.99}\)

    Answers to even numbered questions

    2. \(1;\) error, \(~0.00005\)

    4. \(0.97;\) error, \(~0.0006\)

    6. \(3−\frac{1}{600};\) error, \(~4.632×10^{−7}\)

    Exercise \(\PageIndex{4}\)

    For the following exercises, find the differential of the function.

    1) \(y=3x^4+x^2−2x+1\)

    2) \(y=xcosx\)

    3) \(y=\sqrt{1+x}\)

    4) \(y=\frac{x^2+2}{x−1}\)

    Answers to even numbered questions

    2. \(dy=(cosx−xsinx)dx\)

    4. \(dy=(\frac{x^2−2x−2}{(x−1)^2})dx\)

    Exercise \(\PageIndex{5}\)

    For the following exercises, find the differential and evaluate for the given \(x\) and \(dx\).

    1) \(y=3x^2−x+6, x=2, dx=0.1\)

    2) \(y=\frac{1}{x+1},x=1, dx=0.25\)

    3) \(y=tanx,x=0, dx=\frac{π}{10}\)

    4) \(y=\frac{3x^2+2}{\sqrt{x+1}}\), x=0, dx=0.1\)

    5) \(y=\frac{sin(2x)}{x}, x=π, dx=0.25\)

    6) \(y=x^3+2x+\frac{1}{x}, x=1, dx=0.05\)

    Answers to even numbered questions

    2. \(dy=−\frac{1}{(x+1)^2}dx,−\frac{1}{16}\)

    4. \(dy=\frac{9x^2+12x−2}{2(x+1)^{3/2}}dx,−0.1\)

    6. \(dy=(3x^2+2−\frac{1}{x^2})dx, 0.2\)

    Exercise \(\PageIndex{6}\)

    For the following exercises, find the change in volume \(dV\) or in surface area \(dA.\)

    1) \(dV\) if the sides of a cube change from 10 to 10.1.

    2) \(dA\) if the sides of a cube change from \(x\) to \(x+dx\).

    3) \(dA\) if the radius of a sphere changes from \(r\) by \(dr.\)

    4) \(dV\) if the radius of a sphere changes from \(r\) by \(dr\).

    5) \(dV\) if a circular cylinder with \(r=2\) changes height from 3 cm to \(3.05cm.\)

    6) \(dV\) if a circular cylinder of height 3 changes from \(r=2\) to \(r=1.9cm.\)

    Answers to even numbered questions

    2. \(12xdx\)

    4. \(4πr^2dr\)

    6. \(−1.2πcm^3\)

    Exercise \(\PageIndex{7}\)

    For the following exercises, use differentials to estimate the maximum and relative error when computing the surface area or volume.

    1) A spherical golf ball is measured to have a radius of \(5mm,\) with a possible measurement error of \(0.1mm.\) What is the possible change in volume?

    2) A pool has a rectangular base of 10 ft by 20 ft and a depth of 6 ft. What is the change in volume if you only fill it up to 5.5 ft?

    Answer

    \(−100 ft^3\)

    3) An ice cream cone has height 4 in. and radius 1 in. If the cone is 0.1 in. thick, what is the difference between the volume of the cone, including the shell, and the volume of the ice cream you can fit inside the shelf

    Exercise \(\PageIndex{8}\)

    For the following exercises, confirm the approximations by using the linear approximation at \(x=0.\)

    1) \(\sqrt{1−x}≈1−\frac{1}{2}x\)

    2) \(\frac{1}{\sqrt{1−x^2}}≈1\)

    3) \(\sqrt{c^2+x^2}≈c\)

    Answer

    Under Construction

    Contributors and Attributions

    • Gilbert Strang (MIT) and Edwin “Jed” Herman (Harvey Mudd) with many contributing authors. This content by OpenStax is licensed with a CC-BY-SA-NC 4.0 license. Download for free at http://cnx.org.


    3.2E: Exercises is shared under a CC BY-NC-SA license and was authored, remixed, and/or curated by LibreTexts.

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