Thomas' Calculus 13th Edition

Published by Pearson
ISBN 10: 0-32187-896-5
ISBN 13: 978-0-32187-896-0

Chapter 12: Vectors and the Geometry of Space - Section 12.1 - Three-Dimensional Coordinate Systems - Exercises 12.1 - Page 696: 50

Answer

Center $(\sqrt 2, \sqrt 2. -\sqrt 2)$ and radius is $\sqrt 2$

Work Step by Step

As we know the standard equation of sphere is $(x-a)^2+(y-b)^2+(z-c)^2=r^2$ where $(a,b,c)$ represents center and radius of the sphere is $r$ Now, $(x - \sqrt 2)^2+(y -\sqrt 2)^2+(z + \sqrt 2)^2=2$ $\implies (x - \sqrt 2)^2+(y -\sqrt 2)^2+(z - (-\sqrt 2))^2=(\sqrt 2)^2$ Thus, Center $(\sqrt 2, \sqrt 2. -\sqrt 2)$ and radius is $\sqrt 2$
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