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Q:
11. \( \int x^{2}(1+2 x) d x \)
Q:
(a) Find the gradient of the curve \( \cos (4 x y)=\tan \left(x y^{2}\right)-3 y \) at the point where \( x=0 \). (b) Given \( x^{2} y=\sin \left(2 x^{2}+\pi\right) \). Show that \( 2 y\left(1+8 x^{4}\right)+4 x \frac{d y}{d x}+x^{2} \frac{d^{2} y}{d x^{2}}=4 \cos \left(2 x^{2}+\pi\right) \).
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9. \( \int \frac{(x \sqrt{x}-3)^{2}}{x^{3}} d x \)
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Question For the equation given below, one could use Newton's method as a way to approximate the solution. Find Newton's formula as \( x_{n+1}=F\left(x_{n}\right) \) that would enable you to do so. \[ \ln (x)-9=-7 x \] Sorry, that's incorrect. Try again? \( x_{n+1}=\square \)
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1. Use Part 1 of the Fundamental Theorem of Calculus to find the derivative of the functions: (a) \( F(r)=\int_{0}^{r} \sqrt{x^{2}+4} d x \)
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Question Use Newton's method to approximate the solution to the equation \( \frac{5}{x-10}=x+6 \). Use \( x_{0}=-5 \) as your starting value to find the approximation \( x_{2} \) rounded to the nearest thousandth. Sorry, that's incorrect. Try again? \[ x_{2} \approx \square \]
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Approximate the area under the graph of \( f(x) \) and above the \( x \)-axis using \( n \) rectangles. \( f(x)=2 x+3 \) from \( x=0 \) to \( x=2 ; n=4 \); use right endpoints A. 11 B. 13 C. 17 D. 15
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A certain tranquilizer decays exponentially in the bloodstream and has a half-life of 22 hours. How long with it take for the drug to decuy to \( 82 \% \) of the original dose? a) step 1 : Find \( K \) (Round to four decimalpleas) b) step 2 : Use \( k \) to determine how longlinhours) it will take for the drug to decay to \( 82 \% \) of the original dose. (Round to one decinalplace)
Q:
A certain tranquilizer decays exponentially in the bloodstrean and has a half-life of 22 hours. How long with it take for the drug to decuy to \( 82 \% \) of the original dose? a) step 1 : Find K (Round to four decinal pleces) b) step \( 2: \) Use \( k \) to determine how longlinhours) it will take for the devg to decay to \( 82 \% \) of the original dose. (Round to one decinalplace)
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Question Approximate the \( x \)-value of the local minimum value of the function given below. Use Newton's method with the specified initial approximation \( x_{0} \) to find \( x_{2} \). Round your answer to the nearest thousandth. \[ f(x)=\frac{5}{6} x^{3}+\frac{5}{2} x^{2}-5 x+2, \quad x_{0}=3 \] Provide your answer below: \[ \] \( x_{2} \approx \square \)

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