学ぶ Probability Mass Function (PMF) 2/2

セクション 4. 章 3

single

メニューを表示するにはスワイプしてください

Probability mass function over a range:

In some cases, we want to know the probability that discrete random variables are equal to numbers over a range.

Example:

Calculate the probability that we will have success with the fair coin at 4 or less times (0, 1, 2, 3 or 4) (the chance of getting head or tail is 50%) if we have 15 attempts. We assume that success means getting a head.

Python realization:


              12345678910111213141516171819202122232425262728293031
            
# Import required library
import scipy.stats as stats


# The probability of getting 0 successes

prob_0 = stats.binom.pmf(0, n = 15, p = 0.5)

# The probability of getting 1 success

prob_1 = stats.binom.pmf(1, n = 15, p = 0.5)

# The probability of getting 2 successes

prob_2 = stats.binom.pmf(2, n = 15, p = 0.5)

# The probability of getting 3 successes

prob_3 = stats.binom.pmf(3, n = 15, p = 0.5)

# The probability of getting 4 successes

prob_4 = stats.binom.pmf(4, n = 15, p = 0.5)


# The resulting probability

probability = prob_0 + prob_1 + prob_2 + prob_3 + prob_4


print("The probability is", probability * 100, "%")

Explanation

We've found the probability that a discrete random variable will equal exactly 0, 1, 2, 3, or 4 using the probability mass function. Then, we summed up all probabilities using the addition rule because each of the found outcomes was permissible for us.

実践的な練習のためにデスクトップに切り替える下記のオプションのいずれかを利用して、現在の場所から続行する

すべて明確でしたか？

フィードバックありがとうございます！

セクション 4. 章 3

single

AIに質問する

何でも質問するか、提案された質問の1つを試してチャットを始めてください