Using the Squeeze Theorem In Exercises 97-100, use a graphing utility to graph the given function and the equations y = | x | and y = − | x | in the same viewing window. Using the graphs to observe the Squeeze Theorem visually, find lim x → 0 f ( x ) . f ( x ) = x cos 1 x
Using the Squeeze Theorem In Exercises 97-100, use a graphing utility to graph the given function and the equations y = | x | and y = − | x | in the same viewing window. Using the graphs to observe the Squeeze Theorem visually, find lim x → 0 f ( x ) . f ( x ) = x cos 1 x
Using the Squeeze Theorem In Exercises 97-100, use a graphing utility to graph the given function and the equations
y
=
|
x
|
and
y
=
−
|
x
|
in the same viewing window. Using the graphs to observe the Squeeze Theorem visually, find
lim
x
→
0
f
(
x
)
.
Give an example by sketching the graph of a function f that satisfies all the given conditions.
lim (x--> -3) f(x)=+oo, lim (x--> -oo) f(x)=-2, f(0) = 0, f is even.
Question
2x+1
Consider the function f(x) =
Determine lim f(x).
x²-x
Sketch a function that has the following properties:
lim f(x) = 2
x-1
f(-1) = -1
lim f(x) DNE
2-0
The domain of f is (-0,3) U (3, 0)
Chapter 2 Solutions
WebAssign Printed Access Card for Larson/Edwards' Calculus: Early Transcendental Functions, Multi-Term
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