Calculus, 10th Edition (Anton)

by Anton, Howard

Published by Wiley

ISBN 10: 0-47064-772-8

ISBN 13: 978-0-47064-772-1

Chapter 4 - Integration - 4.5 The Definite Integral - Exercises Set 4.5 - Page 308: 32

Answer

True.

Work Step by Step

For a function to be integrable, it must be continuous. A point of concern would be at $x=0$, but the limit from the left and from the right both agree $(y=0)$. Therefore, the function is continuous everywhere and is integrable on any interval $[a,b]$

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