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8.4: Taylor Series. Brook Taylor was an accomplished musician and painter. He did research in a variety of areas, but is most famous for his development of ideas regarding infinite series.
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8.4: Taylor Series Brook Taylor was an accomplished musician and painter. He did research in a variety of areas, but is most famous for his development of ideas regarding infinite series. He added to mathematics a new branch now called the "calculus of finite differences", invented integration by parts, and discovered the celebrated series known as Taylor's expansion. Brook Taylor 1685 - 1731 http://www-groups.dcs.st-and.ac.uk/~history/Biographies/Taylor.html Greg Kelly, Hanford High School, Richland, Washington Some modifications/additions were made for the TI-Nspire by Sean Bird
If we make , and the first, second, third and fourth derivatives the same, then we would have a pretty good approximation. Suppose we wanted to find a fourth degree polynomial of the form: that approximates the behavior of at
If we plot both functions, we see that near zero the functions match very well!
This pattern occurs no matter what the original function was! Our polynomial: has the form: or:
Maclaurin Series: (generated by f at ) Taylor Series: (generated by f at ) If we want to center the series (and it’s graph) at some point other than zero, we get the Taylor Series:
Hint: On the TI-Nspire, the factorial symbol is º The more terms we add, the better our approximation.
example: Rather than start from scratch, we can use the function that we already know:
There are some Maclaurin series that occur often enough that they should be memorized. They are on your “Stuff You Must Know Cold”. QUIZ SOON!
The 3rd order polynomial for is , but it is degree 2. When referring to Taylor polynomials, we can talk about number of terms, order or degree. This is a polynomial in 3 terms. It is a 4th order Taylor polynomial, because it was found using the 4th derivative. It is also a 4th degree polynomial, because x is raised to the 4th power. The x3 term drops out when using the third derivative. A recent AP exam required the student to know the difference between order and degree. This is also the 2nd order polynomial.
taylor taylor taylor The TI-Nspire CAS finds Taylor Polynomials: taylor (expression, variable, order, [point]) On calculator page select # b Calculus, Series, Taylor In Notes, 1st select Calculations p