b. The speed(s) of a liquid flowing through a channel is satisfying the equation, s3 – 6s² – 348s – 3112 = 0. If the root of this equation lies between 10 and 11, find the root with the 3 decimal places accuracy, using the Newton-Raphson method.

b. The speed(s) of a liquid flowing through a channel is satisfying the equation, s3 – 6s² – 348s – 3112 = 0. If the root of this equation lies between 10 and 11, find the root with the 3 decimal places accuracy, using the Newton-Raphson method.

Mathematics For Machine Technology

8th Edition

ISBN:9781337798310

Author:Peterson, John.

Publisher:Peterson, John.

Chapter55: Introduction To Circles

Section: Chapter Questions

Problem 29A: Solve the following exercises based on Principles 15-17, although an exercise may require the...

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b. The speed(s) of a liquid flowing through a channel is satisfying the equation, s3 – 6s² – 348s –
3112 = 0. If the root of this equation lies between 10 and 11, find the root with the 3 decimal
places accuracy, using the Newton-Raphson method.
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