1.2 Defining Limits and Using Limit Notation

Cards (86)

What is a limit in mathematical terms?
A value a function approaches
The limit $\lim_{x \to a} f(x) =$ $L$ means that as $x$ approaches $a$ , the function $f(x)$ approaches L
What is the limit of $x^{2}$ as $x$ approaches 2? 
4
The ε-δ definition provides a formal way to define the limit of a function.
In the ε-δ definition, if 0 < |x - a| < δ</latex>, then $|f(x) - L| < ε$ , where $ε$ represents the desired level of closeness
In the ε-δ proof for $\lim_{x \to 2} (2x + 1) =$ $5$ , what value of $δ$ should be chosen? 
$δ =$ $ε / 2$
Match the definition aspect with its corresponding type:
Less precise ↔️ Informal definition
Highly precise ↔️ ε-δ definition
The ε-δ definition is commonly used in early calculus.
False
The general notation for a limit is \lim_{x \to a} f(x) = L</latex>, where $L$ represents the limit value
What does $\lim_{x \to 3} (x^{2} +$ $1) =$ $10$ mean in words? 
As $x$ approaches 3, $x^{2} +$ $1$ approaches 10
Steps to define a limit using the ε-δ definition
1️⃣ For every $ε > 0$ , find a $δ > 0$
2️⃣ Whenever $0 < |x - a| < δ$ , show that $|f(x) - L| < ε$
3️⃣ Confirm the limit $\lim_{x \to a} f(x) =$ $L$
$\lim_{x \to 2} x^{2} =$ $4$ indicates that $x^{2}$ approaches $4$ as $x$ gets closer to $2$ .
A limit describes the value a function approaches as its input gets arbitrarily close to a specific point
The expression $\lim_{x \to a} f(x) =$ $L$ means that as $x$ approaches $a$ , $f(x)$ approaches $L$ .
What does $x \to a$ mean in limit notation? 
$x$ approaches $a$
As $x$ approaches $2$ , the limit of $x^{2}$ is 4
The limit of $x^{2}$ as $x$ approaches $2$ is 4</latex>.
The ε-δ definition states that $\lim_{x \to a} f(x) =$ $L$ if for every $ε > 0$ , there exists a $δ > 0$ such that whenever $0 < |x - a| < δ$ , we have $|f(x) - L| < ε$ .L
The ε-δ definition ensures that $f(x)$ is within $ε$ of $L$ for all $x$ within $δ$ of $a$ .
How is $δ$ chosen for $f(x) =$ $2x +$ $1$ to verify $\lim_{x \to 2} f(x) =$ $5$ ? 
$δ =$ $ε / 2$
Match the definition aspect with its type:
Precision ↔️ Highly precise for ε-δ definition
Context ↔️ Early calculus for informal definition
The general notation for a limit is $\lim_{x \to a} f(x) =$ $L$ , where $L$ represents the limit value
$x \to a$ indicates that $x$ is approaching $a$ in limit notation.
What does $\lim_{x \to 3} (x^{2} +$ $1) =$ $10$ mean in plain language? 
As $x$ approaches $3$ , $x^{2} +$ $1$ approaches $10$
Limit laws allow us to evaluate complex limits by breaking them down into simpler components
$\lim_{x \to a} [f(x) +$ $g(x)] =$ $\lim_{x \to a} f(x) +$ $\lim_{x \to a} g(x)$ is an example of the addition limit law.
What condition must be satisfied for the division limit law to be valid?
\lim_{x \to a} g(x) \neq0</latex>
Order the steps to evaluate $\lim_{x \to 4} (x^{2})^{2}$ using limit laws: 
1️⃣ $\lim_{x \to 4} (x^{2})^{2} =$ $[\lim_{x \to 4} x^{2}]^{2}$
2️⃣ $[\lim_{x \to 4} x^{2}]^{2} =$ $(16)^{2}$
3️⃣ $(16)^{2} =$ $256$
What is the constant multiple property for limits?
$\lim_{x \to a} [c \cdot f(x)] =$ $c \cdot \lim_{x \to a} f(x)$
What is the power property for limits?
\lim_{x \to a} [f(x)]^{n} = [\lim_{x \to a} f(x)]^{n}</latex>
What is the root property for limits?
$\lim_{x \to a} \sqrt[n]{f(x)} =$ $\sqrt[n]{\lim_{x \to a} f(x)}$
The addition property for limits states that \lim_{x \to a} [f(x) + g(x)] = \lim_{x \to a} f(x) + \lim_{x \to a} g(x)</latex>. This simplifies the evaluation of complex limits
The subtraction property for limits states that $\lim_{x \to a} [f(x) - g(x)] =$ $\lim_{x \to a} f(x) - \lim_{x \to a} g(x)$ .
What is the multiplication property for limits?
\lim_{x \to a} [f(x) \cdot g(x)] = \lim_{x \to a} f(x) \cdot \lim_{x \to a} g(x)</latex>
The division property for limits states that $\lim_{x \to a} \frac{f(x)}{g(x)} =$ $\frac{\lim_{x \to a} f(x)}{\lim_{x \to a} g(x)}$ , provided that \lim_{x \to a} g(x) \neq 0
A limit exists if the left-hand limit and the right-hand limit are equal.
What does the left-hand limit refer to in the context of calculating limits graphically?
Value $f(x)$ approaches as $x$ approaches $a$ from the left ( $x < a$ )
What does the right-hand limit refer to in the context of calculating limits graphically?
Value $f(x)$ approaches as $x$ approaches $a$ from the right ( $x > a$ )
What is a limit in the context of a function's behavior as it approaches a specific point on its graph?
The value it approaches
If $f(x)$ approaches $3$ as $x$ approaches $2$ , we can write $\lim_{x \to 2} f(x) =$ $3$ .