Case Study 2 A turn-on must be cooled before it is shrink fitted into a steel hub. Figure 1 Turn-on to be slid through t

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Case Study 2 A Turn On Must Be Cooled Before It Is Shrink Fitted Into A Steel Hub Figure 1 Turn On To Be Slid Through T 1 (68.77 KiB) Viewed 39 times

Case Study 2 A turn-on must be cooled before it is shrink fitted into a steel hub. Figure 1 Turn-on to be slid through the hub after contracting The equation that gives the temperature T, to which the turn-on has to be cooled to obtain the desired contraction is given by: f(T, )= -0.50598x10"°T} +0.38292x10T; +0.74363x1041, +0.88318x10^2 = 0 Use the Newton-Raphson method of finding roots of equations to find the temperature T, to which the turn-on must be cooled. Conduct three iterations to estimate the root of the above equation. Find the absolute relative approximate error at the end of each iteration and the number of significant digits at least correct at the end of each iteration.