# Unit 1: Essential Skills
## Simple Arithmetics
### Addition / Subtraction
| Expression | Equivalent|
|:----------:|:---------:|
| $`a + b`$ | $`a + b`$ |
| $`(-a) + b`$ | $`b - a`$ |
| $`a + (-b)`$ | $`a - b`$ |
| $`(-a) + (-b)`$ | $`-(a + b)`$ |
| $`a - b`$ | $`a - b`$|
| $`a - (-b)`$ | $`a + b`$ |
| $`(-a) -(-b)`$ | $`(-a) + b`$|
### Multiplication / Division
| Signs | Outcome |
|:-----:|:-------:|
| $`a \times b`$ | Positive |
| $`(-a) \times b`$ | Negative |
| $`a \times (-b)`$ | Negative |
| $`(-a) \times (-b)`$ | Positive |
### BEDMAS / PEMDAS
- Follow ```BEDMAS``` for order of operations if there are more than one operation
| Letter | Meaning |
|:------:|:-------:|
| B / P | Bracket / Parentheses |
| E | Exponent |
| D | Divison |
| M | Multiplication |
| A | Addition |
| S | Subtraction |
- <img src="https://ecdn.teacherspayteachers.com/thumbitem/Order-of-Operations-PEMDAS-Poster-3032619-1500876016/original-3032619-1.jpg" width="300">
## Interval Notation
- A notation that represents an interval as a pair of numbers.
- The numbers in the interval represent the endpoint. E.g. $`[x > 3, x \isin R]`$
- ```|``` means ```such that```
- ```E``` or ∈ means ```element of```
- ```N``` represents **Natural Numbers** $`N = \{x | x \gt 0, x \isin \mathbb{Z} \}`$
- ```W``` represents **Whole Numbers** $`W = \{x | x \ge 0, x \isin \mathbb{Z}\}`$
- ```Z``` represents **Integers** $`Z = \{x| -\infin \le x \le \infin, x \isin \mathbb{Z}\}`$
- ```Q``` represents **Rational Numbers** $`Q = \{ \frac{a}{b} |a, b \isin \mathbb{Z}, b \neq 0 \}`$
| Symbol | Meaning |
|:------:|:-------:|
| $`(a, b)`$ | Between but not including $`a`$ or $`b`$, you also use this for $`\infty`$|
| $`[a, b]`$ | Inclusive |
| $`a ∪ b`$ | Union (or) |
| $`a ∩ b`$ | Intersection (and) |
## Pythgorean Theorem
- a and b are the two legs of the triangle or two sides that form a 90 degree angle of the triangle, c is the hypotenuse
- $`a^2+b^2=c^2`$
- <img src="http://www.justscience.in/wp-content/uploads/2017/05/Pythagorean-Theorem.jpeg" width="400">
## Operations with Rationals
- $`Q = \{ \frac{a}{b} |a, b \isin \mathbb{Z}, b \neq 0 \}`$
- Any operations with rationals, there are 2 sets of rules
1. ```Rules for operations with integers```
2. ```Rules for operations with fractions```
- To Add / subtract rationals, find common denominator and then add / subtract numerator
- To Multiply rationals, first reduce the fraction to their lowest terms, then multiply numerators and denominators
- To Divide rationals, multiply them by the reciprocal
### Example Simplify Fully:
- $` \dfrac{3}{4} \div \dfrac{2}{14} `$ Reduce to lowest terms
- $` \dfrac{3}{4} \div \dfrac{1}{7} `$ Multiple by reciprocal
- $` \dfrac{3}{4} \times 7 `$
- $` = \dfrac{21}{4}`$ Leave as improper fraction
### Shortcut for multiplying fractions
- cross divide to keep your numbers small
- Example:
- $` \dfrac{3}{4} \times \dfrac{2}{12} `$
- $` \dfrac{1}{2} \times \dfrac{1}{4} `$
- $` = \dfrac{1}{8} `$
## Exponent Laws
| Rule | Description| Example |
|:----:|:----------:|:-------:|
|Product|$`a^m \times a^n = a^{n+m}`$|$`2^3 \times 2^2 = 2^5`$|
|Quotient|$`a^m \div a^n = a^{n-m}`$|$`3^4 \div 3^2 = 3^2`$|
|Power of a Power|$`(a^m)^n = a^mn`$|$`(2^3)^2 = 2^6`$|
|Power of a Quotient|$`(\dfrac{a}{b})^n = \dfrac{a^n}{b^n}`$|$`(\dfrac{2}{3})^4 = \dfrac{2^4}{3^4}`$|
|Zero as Exponents|$`a^0 = 1`$|$`21^0 = 1`$|
|Negative Exponents|$`a^{-m} = \dfrac{1}{a^m}`$|$`1^{-10} = \dfrac{1}{1^{10}}`$|
|Rational Exponents|$`a^{\frac{n}{m}} = (\sqrt[m]{a})^n`$|$`16^{\frac{5}{4}} = (\sqrt[4]{16})^5`$|
**Note:**
- Exponential Form --> Expanded Form
- 6<sup>4</sup> = 6 × 6 × 6 × 6
## Scientific Notation
- They convey accuracy and precision. It can either be written as its original number or in scientific notation:
- 555 (**Exact**) or $`5.55 \times 10^2`$ (**3 significant figures**).
- In scientific notation, values are written in the form $`a(10^n)`$, where $`a`$ is a number within 1 and 10 and $`n`$ is any integer.
- Some examples include the following: $`5.4 \times 10^3, 3.0 \times 10^2`$, and $`4.56 \times 10^{-4}`$.
- When the number is smaller than 1, a negative exponent is used, when the number is bigger than 10, a positve exponent is used
- <img src="https://embedwistia-a.akamaihd.net/deliveries/d2de1eb00bafe7ca3a2d00349db23a4117a8f3b8.jpg?image_crop_resized=960x600" width="500">
- **Remember**: For scientific notation, round to ```3 significant``` digits
## Rates, Ratio and Percent
- ```Ratio```: A comparison of quantities with the same unit. These are to be reduced to lowest terms.
- Examples: ```a:b, a:b:c, a/b, a to b ```
- ```Rates```: A comparison of quantities expressed in different units.
- Example: ```10km/hour```
- ```Percent```: A fraction or ratio in which the denominator is 100
- Examples: ```50%, 240/100```
## Number Lines
- a line that goes from a point to another point, a way to visualize set notations and the like
- <img src="https://i2.wp.com/mathblog.wpengine.com/wp-content/uploads/2017/03/numberlines-thumbnail.jpeg?resize=573%2C247&ssl=1" width="500">
- A solid filled dot is used for ```[]``` and a empty dot is used for ```()```
## Tips
- Watch out for the ```+/-``` signs
- Make sure to review your knowledge of the exponent laws
- For scientific notation, watch out for the decimal point
- Use shortcut when multiplying fractions