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| − | <span class="exam">Find the derivatives of the following functions. Do not simplify. | + | <span class="exam"> Find the derivatives of the following functions. Do not simplify. |
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| − | ::<span class="exam">a)<math>f(x)=\sin\bigg(\frac{x^{-3}}{e^{-x}}\bigg)</math>
| + | <span class="exam">(a) <math style="vertical-align: -16px">f(x)=\sin\bigg(\frac{x^{-3}}{e^{-x}}\bigg)</math> |
| − | ::<span class="exam">b)<math>g(x)=\sqrt{\frac{x^2+2}{x^2+4}}</math>
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| − | ::<span class="exam">c)<math>h(x)=(x+\cos^2x)^8</math>
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| | + | <span class="exam">(b) <math style="vertical-align: -18px">g(x)=\sqrt{\frac{x^2+2}{x^2+4}}</math> |
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| | + | <span class="exam">(c) <math style="vertical-align: -6px">h(x)=(x+\cos^2x)^8</math> |
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| | {| class="mw-collapsible mw-collapsed" style = "text-align:left;" | | {| class="mw-collapsible mw-collapsed" style = "text-align:left;" |
| | !Foundations: | | !Foundations: |
| | |- | | |- |
| − | |'''1.''' Chain Rule | + | |'''1.''' '''Chain Rule''' |
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| | + | | <math>\frac{d}{dx}(f(g(x)))=f'(g(x))g'(x)</math> |
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| | + | |'''2.''' '''Quotient Rule''' |
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| − | |'''2.''' Quotient Rule | + | | <math>\frac{d}{dx}\bigg(\frac{f(x)}{g(x)}\bigg)=\frac{g(x)f'(x)-f(x)g'(x)}{(g(x))^2}</math> |
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| | !Step 1: | | !Step 1: |
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| − | | | + | |First, using the Chain Rule, we have |
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| − | | | + | | <math>f'(x)=\cos\bigg(\frac{x^{-3}}{e^{-x}}\bigg)\bigg(\frac{x^{-3}}{e^{-x}}\bigg)'.</math> |
| | |} | | |} |
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| | !Step 2: | | !Step 2: |
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| − | | | + | |Now, using the Quotient Rule and Chain Rule, we have |
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| | + | <math>\begin{array}{rcl} |
| | + | \displaystyle{f'(x)} & = & \displaystyle{\cos\bigg(\frac{x^{-3}}{e^{-x}}\bigg)\bigg(\frac{x^{-3}}{e^{-x}}\bigg)'}\\ |
| | + | &&\\ |
| | + | & = & \displaystyle{\cos\bigg(\frac{x^{-3}}{e^{-x}}\bigg)\bigg(\frac{e^{-x}(x^{-3})'-x^{-3}(e^{-x})'}{(e^{-x})^2}\bigg)}\\ |
| | + | &&\\ |
| | + | & = & \displaystyle{\cos\bigg(\frac{x^{-3}}{e^{-x}}\bigg)\bigg(\frac{e^{-x}(-3x^{-4})-x^{-3}(e^{-x})(-x)'}{(e^{-x})^2}\bigg)}\\ |
| | + | &&\\ |
| | + | & = & \displaystyle{\cos\bigg(\frac{x^{-3}}{e^{-x}}\bigg)\bigg(\frac{e^{-x}(-3x^{-4})-x^{-3}(e^{-x})(-1)}{(e^{-x})^2}\bigg).} |
| | + | \end{array}</math> |
| | |} | | |} |
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| | !Final Answer: | | !Final Answer: |
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| − | |'''(a)''' | + | | '''(a)''' <math>\cos\bigg(\frac{x^{-3}}{e^{-x}}\bigg)\bigg(\frac{e^{-x}(-3x^{-4})-x^{-3}(e^{-x})(-1)}{(e^{-x})^2}\bigg)</math> |
| | |- | | |- |
| | | '''(b)''' <math>\frac{1}{2}\bigg(\frac{x^2+2}{x^2+4}\bigg)^{-\frac{1}{2}}\bigg(\frac{(x^2+4)(2x)-(x^2+2)(2x)}{(x^2+4)^2}\bigg)</math> | | | '''(b)''' <math>\frac{1}{2}\bigg(\frac{x^2+2}{x^2+4}\bigg)^{-\frac{1}{2}}\bigg(\frac{(x^2+4)(2x)-(x^2+2)(2x)}{(x^2+4)^2}\bigg)</math> |
Find the derivatives of the following functions. Do not simplify.
(a) 
(b) 
(c) 
| Foundations:
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| 1. Chain Rule
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| 2. Quotient Rule
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Solution:
(a)
| Step 1:
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| First, using the Chain Rule, we have
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| Step 2:
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| Now, using the Quotient Rule and Chain Rule, we have
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(b)
| Step 1:
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| First, using the Chain Rule, we have
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| Step 2:
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| Now, using the Quotient Rule, we have
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(c)
| Step 1:
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| First, using the Chain Rule, we have
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| Step 2:
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| Now, using the Chain Rule again we get
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| Final Answer:
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(a) 
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(b) 
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(c) 
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