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Ch. 2 - Limits
Briggs - Calculus: Early Transcendentals 3rd Edition
Briggs3rd EditionCalculus: Early TranscendentalsISBN: 9780136847243Not the one you use?Change textbook
All textbooksBriggs 3rd EditionCh. 2 - LimitsProblem 78b
Chapter 2, Problem 78b

Find the vertical asymptotes. For each vertical asymptote x=a, analyze lim x→a^− f(x) and lim x→a^+f(x).


f(x)=|1−x^2| / x(x+1)

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1
Step 1: Identify the points where the denominator is zero. Set the denominator equal to zero: x(x+1) = 0. Solve for x to find the potential vertical asymptotes.
Step 2: Solve the equation x(x+1) = 0. This gives the solutions x = 0 and x = -1, which are the potential vertical asymptotes.
Step 3: Analyze the behavior of the function as x approaches each potential vertical asymptote from the left and right. Start with x = 0.
Step 4: For x = 0, evaluate the limits: lim_{x \(\to\) 0^-} \(\frac{|1-x^2|}{x(x+1)}\) and lim_{x \(\to\) 0^+} \(\frac{|1-x^2|}{x(x+1)}\). Consider the sign of the numerator and denominator as x approaches 0 from both sides.
Step 5: Repeat the analysis for x = -1. Evaluate the limits: lim_{x \(\to\) -1^-} \(\frac{|1-x^2|}{x(x+1)}\) and lim_{x \(\to\) -1^+} \(\frac{|1-x^2|}{x(x+1)}\). Consider the sign of the numerator and denominator as x approaches -1 from both sides.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Vertical Asymptotes

Vertical asymptotes occur in a function when the function approaches infinity as the input approaches a certain value from either the left or the right. This typically happens at points where the function is undefined, often due to division by zero. Identifying vertical asymptotes involves finding values of x that make the denominator zero while ensuring the numerator is not also zero at those points.
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Limits

Limits are fundamental in calculus, representing the value that a function approaches as the input approaches a certain point. In the context of vertical asymptotes, we analyze the left-hand limit (lim x→a^− f(x)) and the right-hand limit (lim x→a^+ f(x)) to determine the behavior of the function near the asymptote. These limits help us understand whether the function approaches positive or negative infinity.
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Piecewise Functions

The function f(x) = |1−x^2| / x(x+1) is a piecewise function due to the absolute value in the numerator. This means that the function behaves differently depending on the value of x. Understanding how to handle absolute values is crucial, as it can affect the limits and the overall behavior of the function, particularly when determining the vertical asymptotes.
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Related Practice
Textbook Question

Analyze lim x→∞ f(x) and lim x→−∞ f(x), and then identify any horizontal asymptotes.


f(x)=3e^x+10 / e^x

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Textbook Question

Find the vertical asymptotes. For each vertical asymptote x=a, analyze lim x→a^− f(x) and lim x→a^+f(x).


f(x)=√x^2+2x+6−3 / x−1

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Textbook Question

Analyze lim x→∞ f(x) and lim x→−∞ f(x), and then identify any horizontal asymptotes.


f(x)=√x^2+2x+6−3 / x−1

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Textbook Question

A right circular cylinder with a height of 10 cm and a surface area of S cm2 has a radius given by r(S)=1/2(√100+2S/π −10).

Find lim S→0^+ r(S) and interpret your result.

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Textbook Question

Find the vertical asymptotes. For each vertical asymptote x=a, analyze lim x→a^− f(x) and lim x→a^+f(x).


f(x)=3e^x+10 / e^x

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Textbook Question

Analyze lim x→∞ f(x) and lim x→−∞ f(x), and then identify any horizontal asymptotes.


f(x)=|1−x^2| / x(x+1)

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