notes/education/statistics/Probability.md

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(Ch 13 14, stat 1040)
Probability was developed to solve gambling problems. A chance can be represented as any of:
- A percentage
- A fraction
- A decimal
The chance of something gives is the likelihood of something happening when repeated under the same conditions. Chances are between 0 and 100%.
The chance of something equals 100% - the probability of the opposite thing happening. This information is helpful when it's simpler to calculate the likelihood for the opposite of the desired probability.
$$ chance = \frac{num\space outcomes}{num\space total\space possible\space outcomes} * 100\% $$
Example: A coin toss has 2 possible outcomes, heads, and tails. $\{heads, tails\}$
$p(h)$ is the mathematical shorthand for something happening, in this case $p(h)$ would be the probability of heads.
- A deck of cards has 52 cards, 4 cards of each type and 13 different types.
- The chance of drawing a specific card is 1/52
- The chance of drawing a specific color is 1/2
- The chance of drawing a specific type of a card is 4/52, or 1/13
## Independent Events
If the chance of a second event does not change depending on the outcome of the first event, an event is considered independent. An example of this might be drawing from a deck of cards, then replacing the card.
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This is also known as unconditional chance.
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To find the probability of two independent events taking place, you can multiply the probability of those events together.
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```
p(a) * p(b) = p(both a and b taking place)
```
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To find the probability of one event or another event taking place, you can add the probability of those two events together, given they are mutually exclusive.
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```
p(a) + p(b) = p(a or b taking place)
```
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## Dependent Events
If an event is influenced by other events, it is considered dependent. An example of this might be drawing from a deck of cards, not replacing, then drawing again.
This is also known as conditional chance.
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### Mutually Exclusive Events
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Mutually exclusive events are events that cannot both occur within a given set of measurements. An example of this might be flipping a coin and getting both heads and tails on the same toss. You can only add the chance of two events together if the events are mutually exclusive.
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| Phrase | Definition |
| ---- | ---- |
| Probability/Chance | The statistical likelihood of an event taking place |
| | |
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(Ch 16, STAT 1040)
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# Chance Error
As the number of events goes up, the size of chance error increases.
## The law of averages
As the number of events increases, the absolute chance error will increase, but compared against the number of tosses, the chance error will decrease.
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Absolute refers to the number of events, whereas compared against the total number is expressed as a % (relative?).
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If you want sta