Using any of the methods discussed for both numerical differentiation and numerical integration approximation, solve for the following functions. Show the complete procedure in calculating your answer. You may use your OWN spreadsheet in getting the value. Assume a stopping criterion of Es= 0.1. Numerical Differentiation: f(x) = e = cos x 2 1. Find f(1.5) and step size of h=0.75 and 0.1
Using any of the methods discussed for both numerical differentiation and numerical integration approximation, solve for the following functions. Show the complete procedure in calculating your answer. You may use your OWN spreadsheet in getting the value. Assume a stopping criterion of Es= 0.1. Numerical Differentiation: f(x) = e = cos x 2 1. Find f(1.5) and step size of h=0.75 and 0.1
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![Using any of the methods discussed for both numerical differentiation and numerical integration
approximation, solve for the following functions. Show the complete procedure in calculating your
answer. You may use your OWN spreadsheet in getting the value. Assume a stopping criterion of Es=
0.1.
Numerical Differentiation:
f(x) = e = cos x
2
1.
Find f(1.5) and step size of h=0.75 and 0.1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8ced0ecd-3c2d-4972-9b63-f411f07d6d62%2Fd29a21f1-3a8b-4af2-9211-37a31b459e7b%2Fejefwd_processed.png&w=3840&q=75)
Transcribed Image Text:Using any of the methods discussed for both numerical differentiation and numerical integration
approximation, solve for the following functions. Show the complete procedure in calculating your
answer. You may use your OWN spreadsheet in getting the value. Assume a stopping criterion of Es=
0.1.
Numerical Differentiation:
f(x) = e = cos x
2
1.
Find f(1.5) and step size of h=0.75 and 0.1
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