Table of contents

0. Functions7h 52m
1. Limits and Continuity2h 2m
2. Intro to Derivatives1h 33m
3. Techniques of Differentiation3h 18m
4. Applications of Derivatives2h 38m
5. Graphical Applications of Derivatives6h 2m
6. Derivatives of Inverse, Exponential, & Logarithmic Functions2h 37m
7. Antiderivatives & Indefinite Integrals1h 26m
8. Definite Integrals4h 44m
9. Graphical Applications of Integrals2h 27m
- Area Between Curves
  1h 18m
- Introduction to Volume & Disk Method
  1h 8m
10. Physics Applications of Integrals 3h 16m
- Kinematics
  1h 13m
- Work
  2h 3m
11. Integrals of Inverse, Exponential, & Logarithmic Functions2h 34m
12. Techniques of Integration7h 39m
13. Intro to Differential Equations2h 55m
14. Sequences & Series5h 36m
15. Power Series2h 19m
- Introduction to Power Series
  1h 9m
- Taylor Series & Taylor Polynomials
  1h 10m
16. Parametric Equations & Polar Coordinates7h 58m

1. Limits and Continuity

Introduction to Limits

Calculus

1. Limits and Continuity

Introduction to Limits

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1:24 minutes

Problem 6b

Textbook Question

Estimate lim θ→0 sin 2θ / sin θ using the graph in part (a).

Verified step by step guidance

Step 1: Understand the problem. We need to estimate the limit of the function $ \frac{\sin 2\theta}{\sin \theta} $ as $ \theta $ approaches 0.

Step 2: Recall the double angle identity for sine, which states $ \sin 2\theta = 2 \sin \theta \cos \theta $.

Step 3: Substitute the double angle identity into the original expression: $ \frac{2 \sin \theta \cos \theta}{\sin \theta} $.

Step 4: Simplify the expression by canceling out $ \sin \theta $ in the numerator and denominator, resulting in $ 2 \cos \theta $.

Step 5: Evaluate the limit of $ 2 \cos \theta $ as $ \theta $ approaches 0.

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Key Concepts

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

Limit of a Function

The limit of a function describes the value that a function approaches as the input approaches a certain point. In this case, we are interested in the behavior of the function sin(2θ)/sin(θ) as θ approaches 0. Understanding limits is fundamental in calculus, as it lays the groundwork for concepts like continuity and derivatives.

Sine Function Behavior

The sine function, sin(θ), is a periodic function that oscillates between -1 and 1. Near θ = 0, sin(θ) can be approximated by its Taylor series expansion, where sin(θ) ≈ θ. This approximation is crucial for evaluating limits involving sine functions, especially when the angle approaches zero.

L'Hôpital's Rule

L'Hôpital's Rule is a method for evaluating limits of indeterminate forms, such as 0/0 or ∞/∞. It states that if the limit of f(θ)/g(θ) results in an indeterminate form, the limit can be found by taking the derivative of the numerator and the derivative of the denominator. This rule can simplify the process of finding limits involving trigonometric functions.

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Determine the following limits at infinity.

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Determine the following limits at infinity.

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Sketch a graph of f and use it to make a conjecture about the values of f(a), lim x→a^−f(x),lim x→a^+f(x), and lim x→a f(x) or state that they do not exist.

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