Use the Remainder Estimation Theorem to find an interval containing x = 0 over which f ( x ) can be approximated by p ( x ) to three decimal-place accuracy throughout the interval. Check your answer by graphing f ( x ) − p ( x ) over the interval you obtained. f ( x ) = 1 1 + x 2 ; p ( x ) = 1 − x 2 + x 4
Use the Remainder Estimation Theorem to find an interval containing x = 0 over which f ( x ) can be approximated by p ( x ) to three decimal-place accuracy throughout the interval. Check your answer by graphing f ( x ) − p ( x ) over the interval you obtained. f ( x ) = 1 1 + x 2 ; p ( x ) = 1 − x 2 + x 4
Use the Remainder Estimation Theorem to find an interval containing
x
=
0
over which
f
(
x
)
can be approximated by
p
(
x
)
to three decimal-place accuracy throughout the interval. Check your answer by graphing
f
(
x
)
−
p
(
x
)
over the interval you obtained.
Precalculus: Concepts Through Functions, A Unit Circle Approach to Trigonometry (4th Edition)
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