1459 LearnersLast updated on June 12th, 2025
Mutually Exclusive Events
Events that cannot occur at the same time are called mutually exclusive events. In other words, if event A is happening, then event B cannot occur. Let us now see more about mutually exclusive events and how to use them.
What Are Mutually Exclusive Events?
Mutually exclusive events are two or more events that cannot occur at the same time or in the same trial. In mathematics, mutually exclusive events mean that the intersection of these events is an empty set. When one event is happening, the second event cannot happen.
In probability, we express this as:
P(A and B) = 0
Where A and B are mutually exclusive events
P(A and B) indicates the probability of both the events happening at the same time.
Struggling with Math?
Get 1:1 Coaching to Boost Grades Fast !
How to Calculate Mutually Exclusive Events?
Take a look at the following steps to calculate mutually exclusive events:
Step 1: Examine the sample space (all possible outcomes)
Step 2: Take a look at the individual events.
Step 3: Check for any possible overlaps
Step 4: The events are mutually exclusive if there are no overlaps.
Difference Between Mutually Exclusive Events and Independent Events
There are a lot of differences between mutually exclusive and independent events. Some of the differences are mentioned below:
|
Mutually Exclusive Events |
Independent Events |
|
One event prevents the other from happening |
One event does not affect the other |
|
Both events cannot occur at the same time |
Both events can occur at the same time |
|
Formula is: P(A ∪ B) = P(A) + P(B) |
Formula is: P(A ∪ B) = P(A) + P(B) − P(A ∩ B) |
|
If represented by a Venn diagram, the circles or sets don’t overlap |
In a Venn diagram, the circles overlap |
Rules for Mutually Exclusive Events
Some of the rules of mutually exclusive events are mentioned below:
Definition Rule: Mutually exclusive events are exclusive if the occurrence of one event prevents the other from happening.
Union Rule: When two events are mutually exclusive, the probability of either of them happening is equal to the sum of their individual probabilities. The formula is:
P(A ∪ B) = P(A) + P(B)
Intersection Rule: For mutually exclusive events, the intersection is always zero because the events cannot occur at the same time. The formula is:
P(A ∩ B) = 0
Complement Rule: Since A and B are mutually exclusive, the probability of either one happening is simply the sum of their individual probabilities. The formula is:
P(A′) = 1 − P(A)
Real life applications of Mutually Exclusive Events
There are many uses of mutually exclusive events. Let us now see the uses and applications of mutually exclusive events in different fields:
Medical Diagnosis: Mutually exclusive events are used in medical diagnoses, where specific diseases cannot occur simultaneously. If a patient is diagnosed with a particular disease, then they cannot have another mutually exclusive condition at the same time.
Weather Forecasting: In meteorology, predicting specific weather events like rain or sunshine are mutually exclusive. It either rains or does not at any given time or place.
Traffic Signals: When managing the traffic at intersections, green and red signals are mutually exclusive. If the signal is green, then it cannot be red at the same time.
Common mistakes and How to Avoid Them in Mutually Exclusive Events
When understanding the concept of mutually exclusive events, students tend to make mistakes. Here, are some common mistakes and their solutions:
Mistake 1
Mixing up Mutually Exclusive and Independent Events
Students must remember that mutually exclusive events are dependent by definition. The occurrence of one event prevents the other from occurring, so their probabilities are not independent.
Mistake 2
Adding Probabilities Incorrectly:
Students should always check whether the events are mutually exclusive. If the events are mutually exclusive, then the probability of either of them occurring is the sum of their individual probabilities.
Mistake 3
Overlooking the Complement of Mutually Exclusive Events
Students must understand that the sum of the probability of the mutually exclusive events and their complement should add up to 1. If one does not happen, the other must.
Mistake 4
Misinterpreting Non-Mutually Exclusive Events
Students must always clarify whether the events are mutually exclusive or not. If the occurrence of one event doesn't impact the mutual occurrence of another event, then the events are not mutually exclusive.
Mistake 5
Ignoring the Number of Outcomes
Students must ensure that they always consider the total number of possible outcomes of the experiment. The students need to divide the favorable outcomes by the total number of possible outcomes.
Level Up with a Math Certification!
2X Faster Learning (Grades 1-12)
Solved examples of Mutually Exclusive Events
Problem 1
In a single toss of a fair coin, what is the probability of getting heads or tails?
1 (or 100%)
Explanation
Identify outcomes:
A coin has two outcomes: heads (H) and tails (T)
Mutual exclusivity: H and T are mutually exclusive (only one can occur)
Calculate:
P(H or T) = P(H) + P(T) = ½ + ½ = 1.
Problem 2
When rolling a fair six-sided die, what is the probability of rolling a 2 or a 5?
1/3
Explanation
Total Outcomes: 6 (numbers 1-6)
Mutual exclusivity: 2 and 5 are mutually exclusive (only one can occur)
Favorable outcomes: 2 and 5
Calculate:
P(2 or 5) = P(2) + P(5) = ⅙ + ⅙ = 2/6 = 1/3
Problem 3
For a fair die, what is the probability of rolling a 1, 3, or 5?
1/2
Explanation
Favorable outcomes: 1, 3, 5
Mutual exclusivity: 1, 3 and 5 are mutually exclusive (only one can occur)
Calculate:
P(1 or 3 or 5) = ⅙ + ⅙ + ⅙ = 3/6 = 1/2
Problem 4
From a standard 52-card deck, what is the probability of drawing an ace or king?
2/13
Explanation
Favorable outcomes: 4 aces + 4 kings
Mutual exclusivity: aces and kings are mutually exclusive (only one can occur)
Calculate:
P(ace or king) = 8/52 = 2/13
Problem 5
From a standard deck of 52 cards, what is the probability of drawing a red card or a black card?
1 (or 100%)
Explanation
Favorable outcomes: A card is either red (26 cards) or black (26 cards)
Mutual exclusivity: Red cards and Black cards are mutually exclusive (only one can occur)
Calculate:
P(red or black) = 52/52 = 1.
Turn your child into a math star!
#1 Math Hack Schools Won't Teach!
FAQs about Mutually Exclusive Events
1.What are mutually exclusive events?
2.Can mutually exclusive events happen together?
3.What is an example of mutually exclusive events?
4.Can two events be mutually exclusive if they share some outcomes?
5.Can mutually exclusive events be independent?
Struggling with Math?
Get 1:1 Coaching to Boost Grades Fast !
Jaipreet Kour Wazir
About the Author
Jaipreet Kour Wazir is a data wizard with over 5 years of expertise in simplifying complex data concepts. From crunching numbers to crafting insightful visualizations, she turns raw data into compelling stories. Her journey from analytics to education ref
Fun Fact
: She compares datasets to puzzle games—the more you play with them, the clearer the picture becomes!
