A system which is represented by the given equation below, able to work effectively even when the time is zero. f(t) = 7t³ – 0.31t² + 8t – cos t However, there will be a time where the system is put on resting mode for several seconds. By using Newton-Raphson Method, find the approximate resting time between the interval [1 2] seconds with system function

A system which is represented by the given equation below, able to work effectively even when the time is zero. f(t) = 7t³ – 0.31t² + 8t – cos t However, there will be a time where the system is put on resting mode for several seconds. By using Newton-Raphson Method, find the approximate resting time between the interval [1 2] seconds with system function

Linear Algebra: A Modern Introduction

4th Edition

ISBN:9781285463247

Author:David Poole

Publisher:David Poole

Chapter2: Systems Of Linear Equations

Section2.4: Applications

Problem 17EQ

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pls ans soon

A system which is represented by the given equation below, able to work
effectively even when the time is zero.
(b)
f(t) = 7t3 – 0.31t² + 8t – cost
However, there will be a time where the system is put on resting mode for
several seconds. By using Newton-Raphson Method, find the approximate
resting time between the interval [1 2] seconds with system function
tolerance less than 0.0005. Do the calculation in four decimal places.

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