Independent events

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GCSE Maths Probability How To Calculate Probability

Independent Events

Here we will learn about independent events, including what independent events are and how to calculate the probability of independent events occurring.

There are also calculating probability worksheets based on Edexcel, AQA and OCR exam questions, along with further guidance on where to go next if you’re still stuck.

What are independent events?

Independent events are events which are not affected by the occurrence of other events. For example, if we roll a die twice, the outcome of the first roll and second roll have no effect on each other – they are independent.

If two events are independent then

$\textbf{P(A}$ and $\textbf{B) = P(A) × P(B)}$ .

This is called the multiplication rule.

Let’s look at an example.

If we are rolling a dice twice, we can find the probability of getting two sixes.

The probability of getting a $6$ is $\frac{1}{6}$ .

So the probability of getting a $6$ and a $6$ is

\frac{1}{6} \times\frac{1}{6} = \frac{1}{36}.

Step-by-step guide: Combined events probability

What are independent events?

How to calculate the probability of independent events

In order to calculate the probability of independent events:

Confirm that the events are independent.
Identify the probabilities of the events.
Multiply the probabilities.

Explain how to calculate the probability of independent events

Probability worksheet (includes independent events)

Get your free independent events worksheet of 20+ probability questions and answers. Includes reasoning and applied questions.

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Probability worksheet (includes independent events)

Get your free independent events worksheet of 20+ probability questions and answers. Includes reasoning and applied questions.

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Independent event examples

Example 1: identifying independent events

Look at the events below. Which set of events are not independent?

Rolling a die and getting a $6$ and tossing a coin and getting a head.
Tossing two coins and getting two heads.
Choosing a blue ball from a bag containing blue and yellow balls, not replacing it, and then choosing another blue ball from the same bag.
A student in class $5$ having brown hair and size $3$ feet.

The definition of independence is that the events have no effect on each other.

When you roll a die and toss a coin, the outcome of one does not affect the outcome of the other therefore the events are independent.

When you toss two coins, the outcome of one does not affect the other therefore the events are independent.

When you choose a ball from a bag and do not replace it, you are changing the number of balls in the bag and therefore the outcome of choosing the first ball will have an effect on the outcome of choosing the second ball (for example, if you choose a blue ball the first time, the probability of choosing a blue ball the second time will decrease). Therefore these are dependent events.

The colour of someone’s hair does not affect the size of their feet therefore the events are independent.

Example 2: probability of two independent events

The probability that Tom forgets his PE kit is $0.3.$ The probability that Noah forgets his PE kit is $0.1.$ The events are independent.

Calculate the probability that both Tom and Noah forget their PE kits on the same day.

Confirm that the events are independent.

We are told in the question that the events are independent.

Identify the probabilities of the events.

The first event is that Tom forgets his PE kit. The probability that Tom forgets his PE kit is $0.3.$

The second event is that Noah forgets his PE kit. The probability that Noah forgets his PE kit is $0.1.$

Multiply the probabilities.

The probability that Tom and Noah both forget their PE kits is

$0.3 \times 0.1 = 0.03.$

Example 3: probability of three independent events

Rachel tosses three fair coins. Find the probability that all three coins land on tails.

Confirm that the events are independent.

The outcome for each coin is not affected by the other coins therefore the events are independent.

Identify the probabilities of the events.

Since the coins are fair, for each coin the probability that it lands on tails is $\frac{1}{2}.$

Multiply the probabilities.

The probability of getting three tails is

$\frac{1}{2} \times \frac{1}{2} \times \frac{1}{2} = \frac{1}{8}.$

Example 4: using a tree diagram

Niamh plays a game of table tennis on Saturday and a game of badminton on Sunday. The different outcomes are represented on the tree diagram below.

Calculate the probability that Niamh wins both games.

Confirm that the events are independent.

The outcome of one game does not affect the outcome of the other game therefore the events are independent.

Identify the probabilities of the events.

The probability that Niamh wins table tennis is $0.4$ and the probability that Niamh wins badminton is $0.7.$

Multiply the probabilities.

The probability that Niamh wins table tennis and badminton is

$0.4 \times 0.7=0.28.$

Example 5: finding the probability of individual events

Zainab has two bags of mixed sweets. She picks one sweet from each bag. The probability that Zainab picks a lollipop from the first bag is $\frac{1}{6}$ and the probability that she picks a lollipop from both bags is $\frac{1}{15}$ .

What is the probability that she picks a lollipop from the second bag?

Confirm that the events are independent.

The type of sweet that is picked from one bag has no effect on the sweet picked from the other bag therefore the events are independent.

Identify the probabilities of the events.

The probability that Zainab picks a lollipop from the first bag is $\frac{1}{6}$ and the probability that she picks a lollipop from both bags is $\frac{1}{15}.$

Multiply the probabilities.

If we call the probability of picking a lollipop from the second bag $\text{P(L)}$ then

$\frac{1}{6} \times \text{P(L)}=\frac{1}{15}.$

Solving this

$\begin{aligned} \text{P(L)}&=\frac{1}{15} \div\frac{1}{6}\\\\ &=\frac{1}{15} \times \frac{6}{1}\\\\ &=\frac{6}{15} \text{ or } \frac{2}{5} \end{aligned}$

Example 6: finding the probability of individual events

Rosie flips a biased coin twice. The probability that Rosie gets two heads is $0.64.$

Find the probability that Rosie gets a head on a single coin flip.

Confirm that the events are independent.

The results of the first coin flip will not affect the second coin flip so the events are independent.

Identify the probabilities of the events.

Here we only know that the probability that Rosie gets two heads is $0.64.$

Multiply the probabilities.

If we call the probability that Rosie gets a head $\text{P(H)}$ then

$\text{P(H)} \times \text{P(H)} = 0.64.$

Solving this

$\begin{aligned} \text{(P(H))}^{2}&=0.64\\\\ \text{P(H)}&=\sqrt{0.64}\\\\ \text{P(H)}&=0.8 \end{aligned}$

The probability of getting a head on a single coin flip is $0.8.$

Common misconceptions

Multiplying or dividing fractions incorrectly

To multiply fraction, multiply the numerators and multiply the denominators. To divide fractions, turn the second one upside down and multiply.

Adding probabilities instead of multiplying them

For independent events $P(A$ and $B) = P(A) \times P(B).$

For mutually exclusive events $P(A$ or $B) = P(A) + P(B).$

Practice independent events questions

Rolling two dice and each landing on $6.$

Rain falling on $20th$ December $2020$ and $20th$ December $2021.$

Flipping a coin and landing on tails and picking a king from a deck of cards.

Picking one card from a deck of cards and then a second card and getting an ace both times.

If you choose one card from a deck of cards, you are changing the number of cards left and therefore the probabilities of each outcome for the next draw.

Picking one card followed by a second card from a deck of cards are not independent events.

\frac{3}{4}

\frac{1}{8}

\frac{1}{2}

\frac{1}{4}

The probability of a die landing on an even number is $\frac{1}{2}.$

The probability of picking a diamond from a deck of cards is $\frac{1}{4}.$

The probability of events $A$ and $B$ both occurring is

\frac{1}{2} \times \frac{1}{4} = \frac{1}{8}.

0.3

0.9

0.027

0.27

The probability that the train is late on any one day is $0.3.$

The probability that the train is late on day $1$ and day $2$ and day $3$ is

0.3 \times 0.3 \times 0.3 = 0.027.

0.56

1.5

0.15

0.06

The probability that Sam chooses a cheese sandwich is $0.7$ and the probability that Sam chooses grapes is $0.8.$

The probability that Sam chooses a cheese sandwich and grapes is

0.7 \times 0.8=0.56.

0.002

0.2

0.12

0.3

If we call the probability that Pete hits a bullseye $\text{P(P)}$ then

\begin{aligned} 0.1 \times \text{P(P)}&=0.02\\\\ \text{P(P)}&=0.02 \div 0.1\\\\ &=0.2 \end{aligned}

\frac{2}{25}

\frac{2}{5}

\frac{8}{25}

\frac{16}{125}

If we call the probability of rolling a six $P(6)$ then

\begin{aligned} \text{P(6)} \times \text{P(6)}&=\frac{4}{25}\\\\ \text{(P(6))}^{2}&=\frac{4}{25}\\\\ \text{P(6)}&=\sqrt{\frac{4}{25}}\\\\ \text{P(6)}&=\frac{2}{5} \end{aligned}

Independent events GCSE questions

1. Eleri rolls a die and tosses two coins. Find the probability that Eleri gets a $4$ on the die and heads on both coins.

(2 marks)

Show answer

\frac{1}{6} \times \frac{1}{2} \times \frac{1}{2}

(1)

=\frac{1}{24}

(1)

2. (a) A marble is picked from a bag containing red and green marbles. The marble is replaced and a second marble is then picked. The tree diagram below shows the possible outcomes.

Independent Events gcse question 2

Fill in the missing numbers on the tree diagram.

(b) Find the probability that two green marbles are picked.

(3 marks)

Show answer

(a)

Red $0.8$ and green $0.2$

(1)

(b)

0.2 \times 0.2

(1)

0.04

(1)

3. Rosie rolls a biased die twice. The probability that she gets an even number on both rolls is $0.16.$

Find the probability that she gets an odd number on both rolls.

(4 marks)

Show answer

$(P($ even number $))^2=0.16$

(1)

$P($ even number $)=0.4$

(1)

$P($ odd number $)=0.6$

(1)

$P($ odd number and odd number $)=0.6^{2}=0.36$

(1)

Learning checklist

You have now learned how to:

Identify independent events

Calculate the probability of independent events

The next lessons are

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Introduction

What are independent events?

How to calculate the probability of independent events

Independent event worksheet

Independent event examples

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Example 1: identifying independent events Example 2: probability of two independent events Example 3: probability of three independent events Example 4: using a tree diagram Example 5: finding the probability of individual events Example 6: finding the probability of individual events

Common misconceptions

Practice independent events questions

Independent events GCSE questions

Learning checklist

Next lessons

Still stuck?