Given the function u(t) = sin(4 – sin(2t)) %3D and the mesh t; = to + ik, where to = 2 determine the backward finite difference for the first derivative of u with step size k = at mesh point i = 6. 12 At the same point, also calculate the exact first derivative u'(t;). Calculate the absolute value of the error of the finite difference approximation at the point t;. Work to at least 6 decimal places throughout and enter your answers to 2 decimal places. (a) Enter the finite difference approximation (b) Enter the exact derivative (c) Enter the absolute error (d) If we were to divide the step size by 2, the error will be approximately multiplied by a factor of

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Question 4. Given the function u(t) = sin(4 – sin(2t)) and the mesh t; = to + ik, where to determine the backward finite difference for the first derivative of u with step size k = at mesh point i = 6. 12 At the same point, also calculate the exact first derivative u'(t;). Calculate the absolute value of the error of the finite difference approximation at the point t;. Work to at least 6 decimal places throughout and enter your answers to 2 decimal places. (a) Enter the finite difference approximation (b) Enter the exact derivative (c) Enter the absolute error (d) If we were to divide the step size by 2, the error will be approximately multiplied by a factor of Select v