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Ch. 2 - Limits and Continuity
Hass - Thomas' Calculus 15th Edition
Hass15th EditionThomas' CalculusISBN: 9780137616077Not the one you use?Change textbook
All textbooksHass 15th EditionCh. 2 - Limits and ContinuityProblem 2.5.38
Chapter 2, Problem 2.5.38

Find the limits in Exercises 31–40. Are the functions continuous at the point being approached?
lim x → 0 sin ((π + tan x)/(tan x – 2 sec x))

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Step 1: Understand the problem. We need to find the limit of the function as x approaches 0: lim x → 0 sin((π + tan x)/(tan x - 2 sec x)). Additionally, we need to determine if the function is continuous at x = 0.
Step 2: Simplify the expression inside the sine function. Start by examining the denominator tan x - 2 sec x. Recall that sec x = 1/cos x, so rewrite the expression as tan x - 2/cos x.
Step 3: Evaluate the behavior of tan x and sec x as x approaches 0. Note that tan x approaches 0 and sec x approaches 1 as x approaches 0. Substitute these values into the expression to see if it simplifies.
Step 4: Substitute the simplified expression into the sine function. If the denominator approaches a non-zero value, the limit can be evaluated directly. If the denominator approaches zero, consider using L'Hôpital's Rule, which applies to indeterminate forms like 0/0.
Step 5: Determine continuity at x = 0. A function is continuous at a point if the limit exists and equals the function's value at that point. Check if the limit found matches the value of the function at x = 0.

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Key Concepts

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

Limits

Limits are fundamental in calculus, representing the value that a function approaches as the input approaches a certain point. In this case, we are interested in the limit of the function as x approaches 0. Understanding how to evaluate limits, especially when dealing with indeterminate forms, is crucial for analyzing the behavior of functions near specific points.
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Continuity

A function is continuous at a point if the limit of the function as it approaches that point equals the function's value at that point. For the given limit, we need to determine if the function remains defined and behaves predictably as x approaches 0. Continuity is essential for ensuring that there are no jumps, breaks, or holes in the function at the point of interest.
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Intro to Continuity

Trigonometric Functions

Trigonometric functions, such as sine and tangent, are periodic functions that can exhibit unique behaviors near certain points. In this limit problem, the presence of sine and tangent functions requires an understanding of their properties, especially how they behave as their arguments approach specific values. Recognizing these behaviors is key to simplifying the limit expression effectively.
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Introduction to Trigonometric Functions
Related Practice
Textbook Question

Limits with trigonometric functions


Find the limits in Exercises 43–50.


limx→0 √(7 + sec²x)

Textbook Question

Domains and Asymptotes


Determine the domain of each function in Exercises 69–72. Then use various limits to find the asymptotes.


y = x³ / (x³ − 8)

Textbook Question

At what points are the functions in Exercises 13–30 continuous?

y = 1/(|x| + 1) − x²/2

Textbook Question

Limits of quotients


Find the limits in Exercises 23–42.


limt→−2 (−2x − 4) / (x³ + 2x²)

Textbook Question

Graphing Simple Rational Functions


Graph the rational functions in Exercises 63–68. Include the graphs and equations of the asymptotes and dominant terms.


y = (x + 3)/(x + 2)

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Textbook Question

Find the limits in Exercises 31–40. Are the functions continuous at the point being approached?


lim t → 0 sin (π/2 cos (tan t))