Tag Archives: Differential Calculus by Feliciano and Uy

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 16

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PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 0}\left(\frac{1-\cos^2\left(x\right)}{1+\cos\left(x\right)}\right)$

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SOLUTION:

This problem can be solved using a direct substitution of $x=0$ . That is

\begin{align*} \lim\limits_{x\to 0}\left(\frac{1-\cos^2 x }{1+\cos x }\right) & =\frac{1-\cos^2\left(0\right)}{1+\cos\left(0\right)} \\ \\ & =\frac{1-1}{1+1}\\ \\ & = 0 \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right) \end{align*}

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Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 15

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PROBLEM:

Evaluate $\displaystyle \lim_{x\to 0}\left(\frac{\sin^3x}{\sin x-\tan x}\right)$ .

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SOLUTION:

A straight substitution of $\displaystyle x=\frac{\pi }{4}$ leads to the indeterminate form $\displaystyle \frac{0}{0}$ which is meaningless.

Therefore, to evaluate the limit of the given function, we proceed as follows

\begin{align*} \displaystyle \lim _{x\to 0}\left(\frac{\sin^3x}{\sin x-\tan x}\right) & =\lim _{x\to 0}\left(\frac{\sin^3x}{\sin x-\frac{\sin x}{\cos x}}\right) \\ \\ & =\lim _{x\to 0}\left(\frac{\sin^3 x}{\frac{\sin x \cos x - \sin x}{\cos x}}\right) \\ \\ & = \lim _{x\to 0}\left(\frac{\sin^3 x \cos x }{\sin x \cos x - \sin x}\right) \\ \\ &=\lim _{x\to \:0}\left(\frac{\sin^3 x \cos x}{\left(\sin x \right)\left(\cos x-1\right)}\right) \\ \\ & =\lim _{x\to 0}\left(\frac{\sin^2 x \cos x }{\left(\cos x -1\right)}\right) \\ \\ & =\lim _{x\to 0}\left(\frac{\left(1-\cos^2 x \right) \cdot\cos x }{-\left(1-\cos x \right)}\right) \\ \\ & =\lim\limits_{x\to 0}\left(\frac{\left(1+\cos x \right) \left(1-\cos x \right) \cdot\cos x }{-\left(1-\cos x \right)}\right) \\ \\ & =\lim _{x\to 0}\left(\frac{\left(1+\cos x \right) \cdot \cos\left(x\right)}{-1}\right) \\ \\ & =-1\cdot \lim _{x\to 0}\left(\left(1+\cos x\right)\cdot\cos x \right) \\ \\ & =-1\cdot \left(1+\cos 0 \right)\cdot \cos 0 \\ \\ & =-1\cdot \left(1+1\right)\cdot 1 \\ \\ & =-2 \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right) \end{align*}

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Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 14

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PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to \frac{\pi }{4}}\left(\frac{\tan\:2x}{\sec\:2x}\right)$ .

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SOLUTION:

A straight substitution of $x=\frac{\pi }{4}$ leads to the indeterminate form $\frac{0}{0}$ which is meaningless.

Therefore, to evaluate the limit of the given function, we proceed as follows

\begin{align*} \displaystyle \lim\limits_{x\to \:\frac{\pi \:}{4}}\left(\frac{\tan\:2x}{\sec\:2x}\right) & =\lim\limits_{x\to \frac{\pi }{4}}\left(\frac{\frac{\sin\:2x}{\cos\:2x}}{\frac{1}{\cos\:2x}}\right) \\ \\ & =\lim\limits_{x\to \:\frac{\pi \:}{4}}\left(\sin\:2x\right) \\ \\ & =\sin\left(2\cdot \frac{\pi }{4}\right) \\ \\ & =\sin\frac{\pi }{2} \\ \\ & =1 \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right) \end{align*}

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Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 13

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PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 3}\left(\frac{\sqrt{x^2-9}}{x-3}\right)$ .

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SOLUTION:

A straight substitution of $x=3$ leads to the indeterminate form $\frac{0}{0}$ which is meaningless.

Therefore, to evaluate the limit of the given function, we proceed as follows

\begin{align*} \lim\limits_{x\to \:3}\left(\frac{\sqrt{x^2-9}}{x-3}\right) & =\lim\limits_{x\to 3}\left(\frac{\sqrt{x^2-9}}{x-3}\cdot \frac{\sqrt{x^2-9}}{\sqrt{x^2-9}}\right) \\ \\ & =\lim\limits_{x\to 3}\left(\frac{\left(x+3\right)\left(x-3\right)}{\left(x-3\right)\sqrt{x^2-9}}\right) \\ \\ & =\lim\limits_{x\to 3}\left(\frac{x^2-9}{\left(x-3\right)\sqrt{x^2-9}}\right) \\ \\ & =\lim _{x\to 3}\left(\frac{x+3}{\sqrt{x^2-9}}\right) \\ \\ & =\frac{3+3}{\sqrt{3^2-9}} \\ \\ & =\frac{6}{0} \\ \\ & =\infty \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right) \end{align*}

Since the function’s limit is different from the left to its limits from the right, the limit does not exist.

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$Cover photo for Chapter 1: Limits of the textbook Differential and Integral Calculus by Feliciano and Uy$

Chapter 1: Limits

Exercise 1.1: Functional Notation

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Exercise 1.2: Theorems on Limits

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Exercise 1.3: Indeterminate Forms

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Exercise 1.4: Limit at Infinity

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Exercise 1.5: Continuity

Problem 1

Problem 2

Problem 3

Problem 4

Problem 5

Problem 6

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Exercise 1.6: Asymptotes

Problem 1

Problem 2

Problem 3

Problem 4

Problem 5

Problem 6

Problem 7

Problem 8

Problem 9

Problem 10

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$Differential and Integral Calculus by Feliciano and Uy Banner$

Differential and Integral Calculus by Feliciano and Uy Complete Solution Manual

Chapter 1: Limits

Chapter 2: Differentiation of Algebraic Functions

Chapter 3: Some Applications of the Derivatives

Chapter 4: Differentiation of Transcendental Functions

Chapter 5: The Indeterminate Forms

Chapter 6: The Differential

Chapter 7: Derivatives From Parametric Equations; Radius and Center of Curvature

Chapter 8: Partial Differentiation

Chapter 9: The Indefinite Integral

Chapter 10: Methods of Integration

Chapter 11: The Definite Integral

Chapter 12: Geometric Applications of the Definite Integral

Chapter 13: Physical Applications of the Definite Integral

Chapter 14: Double Integration

Chapter 12: Geometric Applications of the Definite Integral

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Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 12

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PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 0}\left(\frac{1}{x}\left(\frac{1}{3}-\frac{1}{\sqrt{x+9}}\right)\right)$

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SOLUTION:

A straight substitution of $x=0$ leads to the indeterminate form $0\cdot 0$ which is meaningless.

Therefore, to evaluate the limit of the given function, we proceed as follows

\begin{align*} \lim\limits_{x\to \:0}\left(\frac{1}{x}\left(\frac{1}{3}-\frac{1}{\sqrt{x+9}}\right)\right) & =\lim\limits_{x\to 0}\left(\frac{1\cdot \:\left(\frac{1}{3}-\frac{1}{\sqrt{x+9}}\right)}{x}\right) \\ \\ & =\lim\limits_{x\to 0}\left(\frac{\frac{\sqrt{x+9}-3}{3\sqrt{x+9}}}{x}\right) \\ \\ & =\lim\limits_{x\to 0}\left(\frac{\sqrt{x+9}-3}{3x\sqrt{x+9}}\right) \\ \\ & =\lim\limits_{x\to 0}\left(\frac{\sqrt{x+9}-3}{3x\sqrt{x+9}}\right)\cdot \frac{\sqrt{x+9}+3}{\sqrt{x+9}+3} \\ \\ & =\lim\limits_{x\to 0}\left(\frac{x}{3x\left(\sqrt{x+9}+3\right)\sqrt{x+9}}\right) \\ \\ & =\lim\limits_{x\to 0}\left(\frac{1}{3\left(\sqrt{x+9}+3\right)\sqrt{x+9}}\right) \\ \\ & =\frac{1}{3\left(\sqrt{0+9}+3\right)\sqrt{0+9}} \\ \\ & =\frac{1}{54} \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right) \end{align*}

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Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 11

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Evaluate $\displaystyle \lim\limits_{x\to 3}\left(\frac{x-3}{\sqrt{x-2}-\sqrt{4-x}}\right)$

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Solution:

A straight substitution of $x=3$ leads to the indeterminate form $\frac{0}{0}$ which is meaningless.

Therefore, to evaluate the limit of the given function, we proceed as follows.

\begin{align*} \begin{align*} \lim\limits_{x\to \:3}\left(\frac{x-3}{\sqrt{x-2}-\sqrt{4-x}}\right) & =\lim\limits_{x\to \:\:3}\left(\frac{x-3}{\sqrt{x-2}-\sqrt{4-x}}\right)\cdot \frac{\sqrt{x-2}+\sqrt{4-x}}{\sqrt{x-2}+\sqrt{4-x}} \\ & =\lim\limits_{x\to 3}\left[\frac{\left(x-3\right)\left(\sqrt{x-2}+\sqrt{4-x}\right)}{\left(\sqrt{x-2}-\sqrt{4-x}\right)\left(\sqrt{x-2}+\sqrt{4-x}\right)}\right] \\ & =\lim\limits_{x\to3}\left[\frac{\left(x-3\right)\left(\sqrt{x-2}+\sqrt{4-x}\right)}{2x-6}\right]\\ & =\lim\limits_{x\to3}\left[\frac{\left(x-3\right)\left(\sqrt{x-2}+\sqrt{-x+4}\right)}{2\left(x-3\right)}\right] \\ & =\lim\limits_{x\to 3}\left[\frac{\sqrt{x-2}+\sqrt{4-x}}{2}\right]\\ & =\frac{\sqrt{3-2}+\sqrt{4-3}}{2}\\ & =1 \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right) \end{align*} \end{align*}

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Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 10

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PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 2}\left(\frac{x^3-8}{x^2-4\:}\right)$

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SOLUTION:

A straight substitution of $x=2$ leads to the indeterminate form $\frac{0}{0}$ which is meaningless.

Therefore, to evaluate the limit of the given function, we proceed as follows

\begin{align*} \lim\limits_{x\to 2}\left(\frac{x^3-8}{x^2-4\:}\right) & =\lim\limits_{x\to 2}\left[\frac{\left(x-2\right)\left(x^2+2x+4\right)}{\left(x+2\right)\left(x-2\right)}\right] \\ &=\lim\limits_{x\to 2}\left[\frac{\left(x^2+2x+4\right)}{\left(x+2\right)}\right] \\ & =\frac{2^2+2\cdot 2+4}{2+2} \\ & =3 \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right) \end{align*}

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Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 9

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PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 4}\left(\frac{\frac{1}{x}-\frac{1}{4}}{x-4\:}\right)$ .

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SOLUTION:

A straight substitution of $x=4$ leads to the indeterminate form $\frac{0}{0}$ which is meaningless.

Therefore, to evaluate the limit of the given function, we proceed as follows:

\begin{align*} \\ \lim\limits_{x\to 4}\left(\frac{\frac{1}{x}-\frac{1}{4}}{x-4}\right)& =\lim\limits_{x\to 4}\left(\frac{\frac{4-x}{4x}}{x-4}\right)\\ \\ & =\lim\limits_{x\to 4}\frac{4-x}{4x\left(x-4\right)}\\ \\ &=\lim\limits_{x\to 4}\left(\frac{4-x}{-4x\left(4-x\right)}\right)\\ \\ & =\lim\limits_{x\to 4}-\frac{1}{4x}\\ \\ & =-\frac{1}{4\cdot 4}\\ \\ & =-\frac{1}{16} \ \qquad \ \color{DarkOrange} \left( \text{Answer} \right)\\ \\ \end{align*}

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Tag Archives: Differential Calculus by Feliciano and Uy

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 16

PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 0}\left(\frac{1-\cos^2\left(x\right)}{1+\cos\left(x\right)}\right)$

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 15

PROBLEM:

Evaluate $\displaystyle \lim_{x\to 0}\left(\frac{\sin^3x}{\sin x-\tan x}\right)$ .

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 14

PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to \frac{\pi }{4}}\left(\frac{\tan\:2x}{\sec\:2x}\right)$ .

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 13

PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 3}\left(\frac{\sqrt{x^2-9}}{x-3}\right)$ .

Chapter 1: Limits

Exercise 1.1: Functional Notation

Exercise 1.2: Theorems on Limits

Exercise 1.3: Indeterminate Forms

Exercise 1.4: Limit at Infinity

Exercise 1.5: Continuity

Exercise 1.6: Asymptotes

Differential and Integral Calculus by Feliciano and Uy Complete Solution Manual

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 12

PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 0}\left(\frac{1}{x}\left(\frac{1}{3}-\frac{1}{\sqrt{x+9}}\right)\right)$

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 11

Evaluate $\displaystyle \lim\limits_{x\to 3}\left(\frac{x-3}{\sqrt{x-2}-\sqrt{4-x}}\right)$

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 10

PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 2}\left(\frac{x^3-8}{x^2-4\:}\right)$

Differential and Integral Calculus by Feliciano and Uy, Exercise 1.3, Problem 9

PROBLEM:

Evaluate $\displaystyle \lim\limits_{x\to 4}\left(\frac{\frac{1}{x}-\frac{1}{4}}{x-4\:}\right)$ .

PROBLEM:

Evaluate \displaystyle \lim\limits_{x\to 0}\left(\frac{1-\cos^2\left(x\right)}{1+\cos\left(x\right)}\right)

PROBLEM:

Evaluate \displaystyle \lim_{x\to 0}\left(\frac{\sin^3x}{\sin x-\tan x}\right).

PROBLEM:

Evaluate \displaystyle \lim\limits_{x\to \frac{\pi }{4}}\left(\frac{\tan\:2x}{\sec\:2x}\right).

PROBLEM:

Evaluate \displaystyle \lim\limits_{x\to 3}\left(\frac{\sqrt{x^2-9}}{x-3}\right).

Exercise 1.1: Functional Notation

Exercise 1.2: Theorems on Limits

Exercise 1.3: Indeterminate Forms

Exercise 1.4: Limit at Infinity

Exercise 1.5: Continuity

Exercise 1.6: Asymptotes

PROBLEM:

Evaluate \displaystyle \lim\limits_{x\to 0}\left(\frac{1}{x}\left(\frac{1}{3}-\frac{1}{\sqrt{x+9}}\right)\right)

Evaluate \displaystyle \lim\limits_{x\to 3}\left(\frac{x-3}{\sqrt{x-2}-\sqrt{4-x}}\right)

PROBLEM:

Evaluate \displaystyle \lim\limits_{x\to 2}\left(\frac{x^3-8}{x^2-4\:}\right)

PROBLEM:

Evaluate \displaystyle \lim\limits_{x\to 4}\left(\frac{\frac{1}{x}-\frac{1}{4}}{x-4\:}\right).

Evaluate $\displaystyle \lim\limits_{x\to 0}\left(\frac{1-\cos^2\left(x\right)}{1+\cos\left(x\right)}\right)$

Evaluate $\displaystyle \lim_{x\to 0}\left(\frac{\sin^3x}{\sin x-\tan x}\right)$ .

Evaluate $\displaystyle \lim\limits_{x\to \frac{\pi }{4}}\left(\frac{\tan\:2x}{\sec\:2x}\right)$ .

Evaluate $\displaystyle \lim\limits_{x\to 3}\left(\frac{\sqrt{x^2-9}}{x-3}\right)$ .

Evaluate $\displaystyle \lim\limits_{x\to 0}\left(\frac{1}{x}\left(\frac{1}{3}-\frac{1}{\sqrt{x+9}}\right)\right)$

Evaluate $\displaystyle \lim\limits_{x\to 3}\left(\frac{x-3}{\sqrt{x-2}-\sqrt{4-x}}\right)$

Evaluate $\displaystyle \lim\limits_{x\to 2}\left(\frac{x^3-8}{x^2-4\:}\right)$

Evaluate $\displaystyle \lim\limits_{x\to 4}\left(\frac{\frac{1}{x}-\frac{1}{4}}{x-4\:}\right)$ .