Multinomial Distribution

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The binomial distribution allows one to compute the probability of obtaining a given number of binary outcomes.

  • For example, it can be used to compute the probability of getting 6 heads out of 10 coin flips.
  • The flip of a coin is a binary outcome because it has only two possible outcomes: heads and tails.


The multinomial distribution can be used to compute the probabilities in situations in which there are more than two possible outcomes.

  • For example, suppose that two chess players had played numerous games and it was determined that the probability that Player A would win is 0.40, the probability that Player B would win is 0.35, and the probability that the game would end in a draw is 0.25.


The following formula gives the probability of obtaining a specific set of outcomes when there are three possible outcomes for each event:

ClipCapIt-140526-182906.PNG

p is the probability, 
n is the total number of events
n1 is the number of times Outcome 1 occurs,
n2 is the number of times Outcome 2 occurs,
n3 is the number of times Outcome 3 occurs,
p1 is the probability of Outcome 1
p2 is the probability of Outcome 2, and
p3 is the probability of Outcome 3.


The formula for k outcomes is

ClipCapIt-140526-183218.PNG

Note that the binomial distribution is a special case of the multinomial when k = 2.


Example

The multinomial distribution can be used to answer questions such as:

"If these two chess players played 12 games, what is the probability that Player A would win 7 games, Player B would win 2 games, and the remaining 3 games would be drawn?"


For this example,

ClipCapIt-140526-183137.PNG

n = 12 (12 games are played),
n1 = 7 (number won by Player A),
n2 = 2 (number won by Player B),
n3 = 3 (the number drawn), 
p1 = 0.40 (probability Player A wins)
p2 = 0.35(probability Player B wins)
p3 = 0.25(probability of a draw)


Quiz

1 In a certain town, 40% of the eligible voters prefer candidate A, 10% prefer candidate B, and the remaining 50% have no preference. You randomly sample 10 eligible voters. What is the probability that 4 will prefer candidate A, 1 will prefer candidate B, and the remaining 5 will have no preference?

Answer >>

0.1008

The answer is 0.1008.