/*! This file is auto-generated */ .wp-block-button__link{color:#fff;background-color:#32373c;border-radius:9999px;box-shadow:none;text-decoration:none;padding:calc(.667em + 2px) calc(1.333em + 2px);font-size:1.125em}.wp-block-file__button{background:#32373c;color:#fff;text-decoration:none} Problem 13 Evaluate the following iterated ... [FREE SOLUTION] | 91Ó°ÊÓ

91Ó°ÊÓ

Log out

Learning Materials

Features

Discover

Chapter 13: Problem 13

Evaluate the following iterated integrals. $$\int_{0}^{\ln 2} \int_{0}^{1} 6 x e^{3 y} d x d y$$

Short Answer

Expert verified
Question: Evaluate the iterated integral $$\int_{0}^{\ln 2} \int_{0}^{1} 6 x e^{3 y} d x d y$$. Answer: The value of the iterated integral is 7.

Step by step solution

01

Integrate with respect to x

First, we need to integrate the function \(6xe^{3y}\) with respect to \(x\) on the interval \([0, 1]\). Since \(y\) can be treated as a constant during this integration, we can simply integrate \(6x\): $$\int_{0}^{1} 6xe^{3y} d x = e^{3y}\int_{0}^{1} 6x dx$$ Integrating \(6x\) with respect to \(x\) gives us \(3x^2\). Now evaluate this antiderivative from 0 to 1: $$3x^2\Big|_{0}^{1} = 3(1)^2 - 3(0)^2 = 3$$ So, the inside integral becomes: $$e^{3y}(3) = 3e^{3y}$$
02

Integrate with respect to y

Now, we need to integrate the resulting expression \(3e^{3y}\) with respect to \(y\) on the interval \([0, \ln 2]\): $$\int_{0}^{\ln 2} 3e^{3y} dy$$ Integrating \(3e^{3y}\) with respect to \(y\) gives us \(e^{3y}\). Evaluate this antiderivative from 0 to \(\ln 2\): $$e^{3y}\Big|_{0}^{\ln 2} = e^{3\ln 2} - e^{3 \cdot 0} = e^{\ln 8} - e^{0} = 8 - 1 = 7$$
03

Final Answer

Thus, the value of the iterated integral is 7: $$\int_{0}^{\ln 2} \int_{0}^{1} 6 x e^{3 y} d x d y = 7$$

Unlock Step-by-Step Solutions & Ace Your Exams!

  • Full Textbook Solutions

    Get detailed explanations and key concepts

  • Unlimited Al creation

    Al flashcards, explanations, exams and more...

  • Ads-free access

    To over 500 millions flashcards

  • Money-back guarantee

    We refund you if you fail your exam.

Over 30 million students worldwide already upgrade their learning with 91Ó°ÊÓ!

One App. One Place for Learning.

All the tools & learning materials you need for study success - in one app.

Get started for free

Most popular questions from this chapter

Use spherical coordinates to find the volume of the following solids. That part of the ball \(\rho \leq 4\) that lies between the planes \(z=2\) and \(z=2 \sqrt{3}\)

Let \(D\) be the solid bounded by the ellipsoid \(x^{2} / a^{2}+y^{2} / b^{2}+z^{2} / c^{2}=1,\) where \(a>0, b>0,\) and \(c>0\) are real numbers. Let \(T\) be the transformation \(x=\)au, \(y=b v, z=c w\) Find the volume of \(D\)

A thin (one-dimensional) wire of constant density is bent into the shape of a semicircle of radius \(a\). Find the location of its center of mass. (Hint: Treat the wire as a thin halfannulus with width \(\Delta a,\) and then let \(\Delta a \rightarrow 0\).)

Changing order of integration If possible, write iterated integrals in spherical coordinates for the following regions in the specified orders. Sketch the region of integration. Assume that \(f\) is continuous on the region. $$\begin{aligned}&\int_{0}^{2 \pi} \int_{0}^{\pi / 4} \int_{0}^{4 \sec \varphi} f(\rho, \varphi, \theta) \rho^{2} \sin \varphi d \rho d \varphi d \theta \text { in the orders }\\\&d \rho d \theta d \varphi \text { and } d \theta d \rho d \varphi\end{aligned}$$

Improper integrals arise in polar coordinates when the radial coordinate \(r\) becomes arbitrarily large. Under certain conditions, these integrals are treated in the usual way: $$\int_{\alpha}^{\beta} \int_{a}^{\infty} f(r, \theta) r d r d \theta=\lim _{b \rightarrow \infty} \int_{\alpha}^{\beta} \int_{a}^{b} f(r, \theta) r d r d \theta$$ Use this technique to evaluate the following integrals. $$\iint_{R} \frac{d A}{\left(x^{2}+y^{2}\right)^{5 / 2}} ; R=\\{(r, \theta): 1 \leq r < \infty, 0 \leq \theta \leq 2 \pi\\}$$
See all solutions

Recommended explanations on Math Textbooks

Pure Maths

Read Explanation

Applied Mathematics

Read Explanation

Mechanics Maths

Read Explanation

Geometry

Read Explanation

Statistics

Read Explanation

Discrete Mathematics

Read Explanation
View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Study anywhere. Anytime. Across all devices.