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Chapter 13: Problem 24

Evaluate the following integrals as they are written. $$\int_{0}^{\ln 2} \int_{e^{x}}^{2} d y d x$$

Short Answer

Expert verified

The result of the double integral is $$2\ln 2 - 1$$.

Step by step solution

01

Evaluate the inner integral with respect to y

First, let's consider the inner integral. Treat x as a constant while integrating with respect to y. $$\int_{e^x}^{2} dy$$ As the integrand has no y dependence and is just constant "1", we simply compute the difference between the upper and lower limits. $$\int_{e^x}^{2} dy = 2 - e^x$$ Now, we have the result of the inner integral.

02

Evaluate the outer integral with respect to x

Next, we will use the result from Step 1 to evaluate the outer integral with respect to x. $$\int_{0}^{\ln 2} (2 - e^x) dx$$ Now, integrate the expression with respect to x: $$\int_{0}^{\ln 2} (2 - e^x) dx = \left[ 2x - e^x \right]_{0}^{\ln 2}$$ Now, substitute the limits of integration and subtract: $$\left[ 2(\ln 2) - e^{\ln 2} \right] - \left[ 2(0) - e^{0} \right] = 2\ln 2 - 2 - (0 - 1) = 2\ln 2 - 1$$ So, the result of the double integral is: $$\int_{0}^{\ln 2} \int_{e^{x}}^{2} dy dx = 2\ln 2 - 1$$

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Most popular questions from this chapter

A cylindrical soda can has a radius of \(4 \mathrm{cm}\) and a height of \(12 \mathrm{cm} .\) When the can is full of soda, the center of mass of the contents of the can is \(6 \mathrm{cm}\) above the base on the axis of the can (halfway along the axis of the can). As the can is drained, the center of mass descends for a while. However, when the can is empty (filled only with air), the center of mass is once again \(6 \mathrm{cm}\) above the base on the axis of the can. Find the depth of soda in the can for which the center of mass is at its lowest point. Neglect the mass of the can and assume the density of the soda is \(1 \mathrm{g} / \mathrm{cm}^{3}\) and the density of air is \(0.001 \mathrm{g} / \mathrm{cm}^{3}\)

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