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Calculus 1 : Other Differential Functions

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Example Question #71 : How To Find Differential Functions

Differentiate $\small f(x)=\frac{cos(x)}{x^2}$

Possible Answers:

$\small f'(x)=-\frac{xsin(x)+2cos(x)}{x}$

$\small f'(x)=\frac{2cos(x)-xsin(x)}{x^3}$

$\small f'(x)=\frac{2cos(x)+xsin(x)}{x^3}$

$\small f'(x)=-\frac{xsin(x)+2cos(x)}{x^3}$

Correct answer:

$\small f'(x)=-\frac{xsin(x)+2cos(x)}{x^3}$

Explanation:

The Quotient Rule applies when differentiating quotients of functions. Here, $\small f(x)$ equals the quotient of two functions, $\small cos(x)$ and $\small x^2$ . Let $\small l(x)=x^2$ and $\small h(x)=cos(x)$ . (Think: $\small l(x)$ is the "low" function or denominator and $\small h(x)$ is the "high" function or numerator.) The Quotient Rule tells us to multiply the "low" function by the derivative of the "high" function, subtract the product of the "high" function and the derivative of the "low" function, and then divide the result by the square of the "low" function. In other words,

$\small \small f'(x)=\frac{l(x)h'(x)-h(x)l'(x)}{[l(x)]^2}$

Here, $\small l(x)=x^2$ so $\small \small l'(x)=2x$ . Similarly, $\small h(x)=cos(x)$ so $\small h'(x)=-sin(x)$ .

Then

$\small f'(x)=\frac{x^2(-sin(x))-cos(x)(2x)}{(x^2)^2}$

$\small f'(x)=\frac{-x^2sin(x)-2xcos(x)}{x^4}$

Factoring out $\small -x$ from the numerator gives

$\small f'(x)=\frac{-x(xsin(x)+2cos(x))}{x^4}$

Which simplifies to

$\small \small f'(x)=-\frac{xsin(x)+2cos(x)}{x^3}$

$\small f'(x)=\frac{2cos(x)+xsin(x)}{x^3}$ inverts the order of the numerator, subtracting $\small l(x)h'(x)$ from $\small h(x)l'(x)$ .

$\small f'(x)=\frac{2cos(x)-xsin(x)}{x^3}$ adds the products in the numerator, rather than subtracting them.

$\small f'(x)=-\frac{xsin(x)+2cos(x)}{x}$ fails to square the denominator.

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Example Question #72 : How To Find Differential Functions

Find the derivative of the following function:

$\bigg(\frac{ln(x)}{3x^2+2}\bigg)^{4}$

Possible Answers:

$4\bigg(\frac{ln(x)}{3x^2+2}\bigg)^3$

$\frac{4ln^3(x)(3x^2-6x^2ln(x)+2)}{x(3x^2+2)^5}$

$12\bigg(\frac{ln(x)}{3x^2+2}\bigg)^2\bigg(\frac{1}{6x^3}\bigg)$

$\frac{8ln^3(x)(6x^2+6x^2ln(x)+5)}{x(3x^2+2)^5}$

$\frac{3x^2-6x^2ln(x)+2}{(3x^2+2)^2}$

Correct answer:

$\frac{4ln^3(x)(3x^2-6x^2ln(x)+2)}{x(3x^2+2)^5}$

Explanation:

This problem tests the knowledge of two concepts needed to compute the derivative of the function above – the chain rule and the quotient rule. The first step of the chain rule is the application of the power rule to the entire function, yielding the term:

$4\bigg(\frac{ln(x)}{3x^2+2}\bigg)^3$

To complete the chain rule, this term must then be multiplied by the derivative of only the function within the parentheses, which requires the application of the quotient rule. Remember the quotient rule is the bottom function times the derivative of the top function minus the top function times the derivative of the bottom function all over the bottom function squared. This yields the complete derivative of the function, with the first factor being the term above, and the second factor being the derivative of only the equation in parentheses:

$4\bigg(\frac{ln(x)}{3x^2+2}\bigg)^3$ $\frac{(1/x)(3x^2+2)-6xln(x)}{(3x^2+2)^2}$

Multiplying the equation by x/x and simplifying, this equation becomes that given by answer choice

$\frac{4ln^3(x)(3x^2-6x^2ln(x)+2)}{x(3x^2+2)^5}$

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Example Question #73 : How To Find Differential Functions

Use implicit differentiation to find for the following equation:

7y^2+sin(3x)=12-y^4

Possible Answers:

$y'=\frac{cos(3x)}{4y(4y^2+7)}$

$y'=\frac{3sin(3x)}{2y(2y^2+7)}$

$y'=-\frac{3cos(3x)}{2y(2y^2+7)}$

$y'=\frac{3cos(3x)-sin(3x)}{4y^2-7}$

$y'=-\frac{3sin(x)}{4y(4y^2+7)}$

Correct answer:

$y'=-\frac{3cos(3x)}{2y(2y^2+7)}$

Explanation:

Applying implicit differentiation to the equation, we differentiate with respect to x, treating the variable y as a function of x:

14yy'+3cos(3x)=-4y^3y'

Rearranging the equation and factoring out y', we get:

y'(4y^3+14y)=-3cos(3x)

Finally, dividing and factoring out a 2y from the denominator gives us:

$y'=-\frac{3cos(3x)}{2y(2y^2+7)}$

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Example Question #74 : How To Find Differential Functions

Determine all values which result in critical points for the following function:

$f(x)=e^{x^3-2x^2-7x}$

Possible Answers:

$x=-\frac{7}{3},x=1$

$x=\frac{7}{3}, x=-1$

x=3, x=-1

$x=-2, x=\frac{1}{5}$

$x=2,x=-\frac{1}{5}$

Correct answer:

$x=\frac{7}{3}, x=-1$

Explanation:

The critical points of the function are those at which its slope is 0, so to find the critical points we must first take the derivative of the function:

$f'(x)=(3x^2-4x-7)e^{x^3-2x^2-7x}$

The points where the slope of the function is 0 are those where the derivative is 0, so we then factor the first term in the equation above to make it easier to see at what values of x the slope of the function is 0:

$f'(x)=(3x-7)(x+1)e^{x^3-2x^2-7x}$

We can see from the equation for our derivative that only the first and second terms can make the slope equal zero, so we set each of these terms equal to zero and solve for x to find where our critical points would be:

$3x-7=0\rightarrow x=\frac{7}{3}$

$x+1=0\rightarrow x=-1$

Remember critical points are the coordinate pair (x, f(x)) we would need to plug in our x values into the original function to find the cooresponding y values. However, this question only asks to find the x values of the critical points.

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Example Question #73 : How To Find Differential Functions

Find the derivative of the following function:

$f(x)=\ln(x)+4x(x+2)$

Possible Answers:

$\frac{1}{x}+8x+8$

$\ln(x)+4x$

$\frac{1}{x}+4x+8$

$\ln(x)+8x+8$

Correct answer:

$\frac{1}{x}+8x+8$

Explanation:

To take the derivative of this function lets first distribute the 4x through the binomial.

$f(x)=\ln(x)+4x^2+8x$

From here we use the power rule which states when,

$f(x)=x^n\rightarrow f'(x)=nx^{n-1}$ .

We also need to remember,

$\frac{d}{dx}\ln(x)=\frac{1}{x}$ .

Therefore our derivative becomes,

$f'(x)=\frac{1}{x}+8x+8$ .

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Example Question #76 : How To Find Differential Functions

Find the derivative of the following function:

$f(x) = \sin^2(x) - \sin(\cos(x))$

Possible Answers:

None of these answers are correct.

$f(x) = \cos^2(x) + \cos(x)\sin(x)$

$f(x) = 2\sin(x)\cos(x) + \cos(\cos(x))\sin(x)$

$f(x) = 2\sin(x) + \cos(x)\sin(x)$

Correct answer:

$f(x) = 2\sin(x)\cos(x) + \cos(\cos(x))\sin(x)$

Explanation:

To find the derivative of the function, we must use the Chain Rule. Since $\sin(x)$ and $\cos(x)$ are both functions, we can

$\frac{dy}{dx}[x^2] = 2x$

$\frac{dy}{dx}[\sin(x)] = \cos(x)$

$\frac{dy}{dx}[\cos(x)] =- \sin(x)$

Knowing this we can differentiate the function

$\frac{dy}{dx} = 2\sin(x)\cdot \frac{dy}{dx}[\sin(x)] -\cos(\cos(x))\cdot\frac{dy}{dx}[cos(x)]$

$\frac{dy}{dx} = 2\sin(x)\cos(x) +\cos(\cos(x))\sin(x)$

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Example Question #77 : How To Find Differential Functions

Find the derivative of the following function

$f(x) = \sin(x^2+5x)\cos(x)$

Possible Answers:

${f}'(x) = \cos(x^2+5x)(2x+5)\cos(x)-\sin(x)\sin(x^2+5x)$

${f}'(x) = (2x-5)\cos(x^2+5x)\cos(x)-\sin(x)\sin(x^2+5x)$

${f}'(x) = \cos(x^2+5x)\cos(x)-\sin(x)\sin(x^2+5x)$

${f}'(x) = (2x+5)\sin(x^2)\sin(5x)\cos(x)-\sin(x)\sin(x^2+5x)$

Correct answer:

${f}'(x) = \cos(x^2+5x)(2x+5)\cos(x)-\sin(x)\sin(x^2+5x)$

Explanation:

We must use the Product Rule and the Chain Rule to find the derivative of this function. If we let

$h(x) = \sin(x^2+5x)$

g(x) = cos(x)

f'(x) = h'(x)g(x)+h(x)g'(x)

Now we can find the derivative of the two parts using the Chain Rule

$h'(x) = \cos(x^2+5x)(2x+5)$

$g'(x) = -\sin(x)$

Combining everything together gives us

$f'(x) = \cos(x^2+5x)(2x+5)(\cos(x))-\sin(x))(\sin(x^2+5x))$

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Example Question #78 : How To Find Differential Functions

Find the derivative of the following function

$f(x) = \frac{\sin(x^2)}{2x^3}$

Possible Answers:

$f'(x) = \frac{\cos(x^2)(4x^4)+6x^2\sin(x^2)}{4x^6}$

$f'(x) = \frac{\cos(x^2)(2x^4)-6x^2\sin(x^2)}{4x^6}$

$f'(x) = \frac{\cos(x^2)(2x^4)-6x^2\sin(x^2)}{2x^6}$

$f'(x) = \frac{\cos(x^2)(4x^4)-6x^2\sin(x^2)}{4x^6}$

Correct answer:

$f'(x) = \frac{\cos(x^2)(4x^4)-6x^2\sin(x^2)}{4x^6}$

Explanation:

To find the derivative of the function we must use the Chain Rule and the Quotient Rule.

The Quotient Rule is

$f'(x) = \frac{h'(x)g(x) - h(x)g'(x)}{(g(x))^2}$

The Chain Rule is

$f'(x) = h'(g(x))\cdot g(x)$

If $h(x) = \sin(x^2)$ and g(x) = 2x^3

Using the Chain Rule on the numerator of the function gives us,

$h'(x) = \cos(x^2)*(2x)$

Taking the derivative of the denominator gives us

$g'(x) = (3\cdot 2)x^{3-1} = 6x^2$

Now we can combine all of the pieces into the Quotient Rule to find the derivative of the entire function

$f'(x) = \frac{\cos(x^2)(2x)(2x^3)-6x^2\sin(x^2)}{(2x^3)^2}$

Simplifying this gives us

$f'(x) = \frac{\cos(x^2)(4x^4)-6x^2\sin(x^2)}{4x^6}$

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Example Question #79 : How To Find Differential Functions

Find the derivative of the following function

$f(x) = x^2\sin\left(\frac{1}{x}\right)$

Possible Answers:

$f'(x) = 2x\sin\left(\frac{1}{x}\right) - \cos\left(\frac{1}{x}\right)\textup{}$

$f'(x) = 2x\sin\left(\frac{1}{x}\right) + x^2\sin\left(\frac{1}{x}\right)$

$f'(x) = 2x\sin\left(\frac{1}{x}\right) - \sin\left(\frac{1}{x}\right)$

$f'(x) = 2x\sin\left(\frac{1}{x}\right) - x^2\cos\left(\frac{1}{x}\right)$

Correct answer:

$f'(x) = 2x\sin\left(\frac{1}{x}\right) - \cos\left(\frac{1}{x}\right)\textup{}$

Explanation:

To find the derivative of this function, we must use the Product Rule and the Chain Rule.

The equation for the Product Rule is

f'(x) = h'(x)g(x)+h(x)g'(x)

The equation for the Chain Rule is

$f(x) = h(g(x))\rightarrow f'(x) = h'(g(x))\cdot g'(x)$

Applying the Chain Rule to $\sin\left(\frac{1}{x}\right)$ gives

$\cos\left(\frac{1}{x}\right)\left(\frac{-1}{x^2}\right)$

Using the Product Rule, we can now find the derivative of the entire function. If h(x) = x^2 and $g(x) = \sin\left(\frac{1}{x}\right)$ then the derivative of the function will be,

$f'(x) = (2x)\sin\left(\frac{1}{x}\right)+x^2\cos\left(\frac{1}{x}\right)\left(\frac{-1}{x^2}\right) = 2x\sin\left(\frac{1}{x}\right)-\cos\left(\frac{1}{x}\right)$

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Example Question #80 : How To Find Differential Functions

Find the derivative of the following function

$f(x) = 2\cos^2(\sin(x^2))$

Possible Answers:

$f'(x) = -8x\cos^2(\sin^2(\sin(x^2))$

$f'(x) = -8x\cos(\sin(x^2))\sin(\sin(x^2))\cos(x^2)$

$f'(x) = 2\cos(\sin(x^2))\sin(\sin(x^2))\cos(x^2)$

$f'(x) = -8x\cos(\sin(x^2))\sin(\sin(x^2))\cos(x^2)(2x)$

Correct answer:

$f'(x) = -8x\cos(\sin(x^2))\sin(\sin(x^2))\cos(x^2)$

Explanation:

To find the derivative of this equation, we must use the Chain Rule.

$f(x)= h(g(x)) \rightarrow f'(x) = h'(g(x))\cdot g'(x)$

Applying this to the function we are given gives us

$f'(x) = 4\cos(\sin(x^2))(-\sin(\sin(x^2)))\cos(x^2)(2x) \rightarrow$

$f'(x) = -8x\cos(\sin(x^2))\sin(\sin(x^2))\cos(x^2)$

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Calculus 1 : Other Differential Functions

Study concepts, example questions & explanations for Calculus 1

All Calculus 1 Resources

Example Questions

Example Question #71 : How To Find Differential Functions

Example Question #72 : How To Find Differential Functions

Example Question #73 : How To Find Differential Functions

Example Question #74 : How To Find Differential Functions

Example Question #73 : How To Find Differential Functions

Example Question #76 : How To Find Differential Functions

Example Question #77 : How To Find Differential Functions

Example Question #78 : How To Find Differential Functions

Example Question #79 : How To Find Differential Functions

Example Question #80 : How To Find Differential Functions

All Calculus 1 Resources

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