Lets say we have a bag containing twice as many blue marbles as red marbles. Then, if you reach in without looking and pick out a marble at random, the odds are 2 : 1 in favor of drawing a blue marble as opposed to a red one.
Odds express relative quantities. 2 : 1 odds are the same as 4 : 2 odds are the same as 600 : 300 odds. For example, if the bag contains 1 red marble and 2 blue marbles, or 2 red marbles and 4 blue marbles, then your chance of pulling out a red marble is the same in both cases:
In other words, given odds of we can scale it by any positive number to get equivalent odds of
If there were also green marbles, the relative odds for red versus blue would still be (1 : 2), but the probability of drawing a red marble would be lower.
If red, blue, and green are the only kinds of marbles in the bag, then we can turn odds of into probabilities that say the probability of drawing each kind of marble. Because red, blue, and green are the only possibilities, must equal 1, so must be odds equivalent to but "normalized" such that it sums to one. For example, would normalize to which are the probabilities of drawing a red / blue / green marble (respectively) from the bag on the right above.
Note that if red and blue are not the only possibilities, then it doesn't make sense to convert the odds of red vs blue into a probability. For example, if there are 100 green marbles, one red marble, and two blue marbles, then the odds of red vs blue are 1 : 2, but the probability of drawing a red marble is much lower than 1/3! Odds can only be converted into probabilities if its terms are mutually exclusive and exhaustive.
Imagine a forest with some sick trees and some healthy trees, where the odds of a tree being sick (as opposed to heathy) are (2 : 3), and every tree is either sick or healthy (there are no in-between states). Then the probability of randomly picking a sick tree from among all trees is 2 / 5, because 2 out of every (2 + 3) trees is sick.
In general, the operation we're doing here is taking relative odds like and dividing each term by the sum to produce Dividing each term by the sum of all terms gives us an equivalent set of odds (because each element is divided by the same amount) whose terms sum to 1.
This process of dividing a set of odds by the sum of its terms to get a set of probabilities that sum to 1 is called normalization.
Let's say we have two events R and B, which might be things like "I draw a red marble" and "I draw a blue marble." Say and What are the odds of R vs B? of course.
Equivalently, we can take the odds , because is how many more times likely R is than B. In this example, because R is half as likely as B. Sometimes, the quantity is called the "odds ratio of R vs B," in which case it is understood that the odds for R vs B are
When there are only two terms and in a set of odds, the odds can be written as a ratio The odds ratio refers to the odds or, equivalently,