Problem 10. The power series from the previous problem is the Taylor series for f(a) = e. 00 p(x) = E (-1)*2k x4 k! =1- 1! 2! k=0 Verify that this is correct by computing the degree 4 Taylor polynomial of f(r) = e- centered at zero.

Hi there please help me with this problem and explain it. It goes together but if you cannot make both please just solve #10 thanks

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Problem 10. The power series from the previous problem is the Taylor series for f(a) = e . 00 (-1)*2k x2 = 1- 1! a4 p(x) =E k! 2! k=0 Verify that this is correct by computing the degree 4 Taylor polynomial of f(r) = e- centered at zero. Problem 11. For this problem you may use the fact that the Taylor series of cos(x) centered at zero is (-1)*72k (2k)! g10 +.. 10! cos(r) =1- 2! 6! 8! 4! k=0 1. Use the Taylor series of cos(x) to find the first 5 nonzero terms in the Taylor series of 2(cos(z) – 1) f(2) = centered at zero. Hint: Start by subtracting 1 from the Taylor series. 2. Use your answer to the previous part to compute the limit: 2(cos(x) – 1) lim