Chapter 5: Problem 17
Sketch the region bounded by the graphs of the algebraic functions and find the area of the region. $$ y=x, \quad y=2-x, \quad y=0 $$
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Use the integration capabilities of a graphing utility to approximate the volume of the solid generated by revolving the region bounded by the graphs of the equations about the \(x\) -axis. $$ y=2 \arctan (0.2 x), \quad y=0, \quad x=0, \quad x=5 $$
In Exercises \(49-52,\) find the accumulation function \(F\). Then evaluate \(F\) at each value of the independent variable and graphically show the area given by each value of \(F\). $$ F(x)=\int_{0}^{x}\left(\frac{1}{2} t+1\right) d t \quad \text { (a) } F(0) \quad \text { (b) } F(2) \quad \text { (c) } F(6) $$
Sketch the region bounded by the graphs of the functions, and find the area of the region. $$ f(x)=\sin x, g(x)=\cos 2 x,-\frac{\pi}{2} \leq x \leq \frac{\pi}{6} $$
The integrand of the definite integral is a difference of two functions. Sketch the graph of each function and shade the region whose area is represented by the integral. $$ \int_{-\pi / 3}^{\pi / 3}(2-\sec x) d x $$
(a) use a graphing utility to graph the region bounded by the graphs of the equations, \((b)\) find the area of the region, and (c) use the integration capabilities of the graphing utility to verify your results. $$ y=\sqrt{1+x^{3}}, \quad y=\frac{1}{2} x+2, \quad x=0 $$
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