Binomial CDF Calculator
Calculate the cumulative probability for a binomial distribution: $$ P(X \le x)=\sum_{k=0}^{\lfloor x \rfloor} \binom{n}{k} p^k (1-p)^{n-k}. $$
* Enter the number of trials \( n \), probability of success \( p \) (between 0 and 1), and a value \( x \).
Step 1: Enter Parameters
e.g., 20
e.g., 0.30
e.g., 8 (will compute \( P(X \le 8) \))
Binomial CDF Calculator
Welcome to our Binomial CDF Calculator! This tool calculates the cumulative probability for a binomial distribution. It sums the probabilities of obtaining up to a certain number of successes in a fixed number of independent Bernoulli trials with a given probability of success.
Table of Contents
What is the Binomial CDF?
The Binomial Cumulative Distribution Function (CDF) gives the probability that a binomial random variable is less than or equal to a specified value. In other words, it calculates the cumulative probability of observing up to k successes in n independent trials.
- n: Total number of trials.
- k: The maximum number of successes for which the cumulative probability is calculated.
- p: Probability of success in each trial.
Cumulative Probability Formula
The cumulative probability for a binomial distribution is computed as:
$$P(X \le k) = \sum_{i=0}^{k} {n \choose i} \, p^i \, (1-p)^{n-i}$$
This formula sums the probabilities of obtaining 0, 1, 2, ..., up to k successes.
Back to TopKey Concepts
- Binomial Distribution: A discrete probability distribution of the number of successes in n independent trials.
- Binomial Coefficient: \( {n \choose i} \) represents the number of ways to choose i successes out of n trials.
- Probability of Success (p): The likelihood that a single trial is successful.
- Cumulative Probability: The sum of individual probabilities up to a specified number of successes.
Step-by-Step Calculation Process
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Define the Parameters:
Determine the total number of trials (n), the probability of success (p), and the maximum number of successes (k) for which you want to calculate the cumulative probability.
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Calculate Individual Probabilities:
For each \(i\) from 0 to k, compute:
$$P(X = i) = {n \choose i} \, p^i \, (1-p)^{n-i}$$
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Sum the Probabilities:
Add the probabilities from \(i=0\) to \(i=k\) to obtain the cumulative probability:
$$P(X \le k) = \sum_{i=0}^{k} P(X = i)$$
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Review the Output:
The result is the probability of obtaining at most k successes in n trials.
Practical Examples
Example: Cumulative Probability for 3 Successes in 10 Trials
Scenario: You have 10 trials (\(n = 10\)) with a success probability \(p = 0.4\) and you want to calculate the probability of getting at most 3 successes (\(k = 3\)).
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Calculate \(P(X = i)\) for \(i = 0, 1, 2, 3\):
$$P(X = i) = {10 \choose i} \, (0.4)^i \, (0.6)^{10-i}$$
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Sum the Probabilities:
Compute:
$$P(X \le 3) = \sum_{i=0}^{3} {10 \choose i} (0.4)^i (0.6)^{10-i}$$
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Interpretation:
The resulting value is the cumulative probability of obtaining 0, 1, 2, or 3 successes in 10 trials.
Interpreting the Results
The Binomial CDF Calculator provides the cumulative probability \(P(X \le k)\), which is the likelihood of achieving at most k successes in n trials. A higher value indicates that it is more probable to obtain that number of successes or fewer.
Back to TopApplications
This calculator is applicable in many fields, including:
- Quality Control: Estimating the likelihood of a certain number of defects in a production batch.
- Medical Research: Determining the probability of a given number of treatment successes.
- Finance: Assessing risk by calculating the probability of a certain number of favorable outcomes.
- Education: Evaluating probabilities in multiple-choice testing scenarios.
Advantages
- User-Friendly: Easy input of parameters with comma-separated values.
- Quick Computation: Instantly calculates the cumulative probability without manual calculations.
- Educational: Enhances understanding of the binomial distribution and cumulative probability concepts.
- Versatile: Applicable to various real-world scenarios and disciplines.
Conclusion
Our Binomial CDF Calculator is an invaluable tool for computing the cumulative probability for a binomial distribution. By summing the probabilities for up to k successes in n trials, you can gain critical insights into the likelihood of different outcomes. For further assistance or additional statistical resources, please explore our other calculators or contact our support team.
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