Topics
5. Probability & Statistics
topic badge
United States of AmericaVirginia
Grade 7

5.02 Theoretical probability

Lesson
Practice

Theoretical probability

Probability is used to describe the likelihood of an event occurring. The probability of an event can be represented as a ratio or an equivalent fraction. It can be represented with a fraction or decimal between 0 and 1. It can also be represented by a percentage between 0\% and 100\%.

The likelihood of an event placed on a number line with words and numbers from 0 to 1. Ask your teacher for more information.

A probability can never be less than 0 or more than 1. The larger the number, the more likely it is, and the smaller the number, the less likely it is.

Probability (of an event)

The ratio of desired outcomes to the total number of possible outcomes in the sample space

We can calculate the probability of an event by first creating the sample space and counting the number of possible outcomes. If the events in the sample space are equally likely, the ratio will be the same for each event.

For example, let's look at a full set of 52 playing cards:

A 52 deck of playing cards. Ask your teacher for more information.

There are 52 cards in the sample space, and each card has an equal chance of being drawn. The probablility of drawing any one card is \dfrac{1}{52}. Adding up the probabilities for each card \left(\dfrac{1}{52}+\dfrac{1}{52}+\dfrac{1}{52}+...+\dfrac{1}{52}=\dfrac{52}{52}\right) gives a sum of 1 or 100 \%.

If the outcomes in a sample space are not equally likely, then we have to find the number of favorable outcomes for the given event. Theoretical probability is the ratio of the number of favorable outcomes to the total number of possible outcomes. We can use the formula:\text{Theoretical probability} = \dfrac{\text{Number of favorable outcomes}}{\text{Total number of outcomes}}

Let's look at events for the playing cards with outcomes that are not equally likely. For example, what is the probability of drawing a 7?

We already know that there are 52 possible outcomes, so we only need to determine the number of favorable outcomes. There are 4 cards with a 7 on them, so there are 4 favorable events. Therefore, the probability of drawing a 7 is \dfrac{4}{52}.

If every outcome is favorable, then it is certain to occur, so we will have a probability of 1. If there are no favorable outcomes, it is impossible for the event to occur, so the probability will be 0.

Here are some events sorted into each of the five likelihood categories:

EventProbabilityLikehood
\text{Drawing a blue card}0:52\text{Impossible}
\text{Drawing a Spade}\dfrac{13}{52}\text{Unlikely}
\text{Drawing a black card }0.5\text{Equally likely}
\text{Drawing a number card }(2\text{ through }10)36:52\text{Likely}
\text{Drawing a card that is a Spade, Heart, Club, or Diamond }100\%\text{Certain}

Examples

Example 1

A bag contains 28 red marbles, 27 blue marbles, and 26 black marbles.

A bag contains a 28 red marbles, 27 blue marbles, and 26 black marbles.

What is the probability of drawing a blue marble?

Worked Solution
Create a strategy

To find this probability, we need to determine the sample space or total number of outcomes. In this case, the sample space is the total number of marbles in the bag.

Next, we need to identify the number of favorable outcomes, which will be the number of blue marbles in the bag. We will divide this by the total number of marbles in the bag.

Apply the idea

There are 27 blue marbles, and the bag contains a total of 28+27+26= 81 marbles.

\displaystyle \text{Probability}\displaystyle =\displaystyle \frac{\text{Number of favorable outcomes}}{\text{Total number of outcomes}}Formula for theoretical probability
\displaystyle =\displaystyle \frac{27}{81}Substitute the values
\displaystyle =\displaystyle \dfrac{1}{3}Simplify the fraction

The probability of drawing a blue marble is 1:3.

Reflect and check

27 is less than half the total number of outcomes, so drawing a blue marble is unlikely.

Example 2

The eight-sided die shown is rolled.

An 8-sided die. Ask your teacher for more information.
a

What is the chance of rolling a five or more?

Worked Solution
Create a strategy

The sample space of an 8-sided die is \{1,2,3,4,5,6,7,8\}.

We can use the sample space to count the number of favorable outcomes (outcomes with a value of five or more), then find the ratio of favorable outcomes to total possible outcomes.

Apply the idea

The die has 8 sides, so there are a total of 8 possible outcomes in the sample space. There are 4 favorable outcomes or outcomes of rolling a five or more: 5, \, 6, \, 7, \, 8.

The chance of rolling a five or more is 4:8 or 1:2.

b

What is the chance of rolling less than five? Write your answer as a percentage.

Worked Solution
Create a strategy

We can use the sample space from part (a) to count the number of outcomes of rolling less than five, then find the ratio of favorable outcomes to the total number of outcomes.

Apply the idea

There are 8 total possible outcomes, and there are 4 outcomes of rolling less than five, 1,2,3,4.

The chance of rolling a number that is less than five is 1:2, which is 50\%.

Reflect and check

The sum of all the probabilities in a sample space will always be equal to 100\% or 1. In this example, notice that the outcomes in part (a) (rolling a five or more) and the outcomes in part (b) (rolling less than five) make up the total sample space, \{1,2,3,4,5,6,7,8\}.

This means their probabilities will add to 1 or 100\%.

\displaystyle \dfrac{1}{2}+\dfrac{1}{2}\displaystyle =\displaystyle 1Sum of the probabilities as fractions
\displaystyle 50\%+50\%\displaystyle =\displaystyle 100\%Sum of the probabilities as percents

Example 3

What is the probability of spinning a Star or an Apple on this spinner? Express your answer as a decimal.

A spinner with 10 sectors. 1 sector has a bear, 3 have stars, 3 have apples, 2 have pigs, and 1 has a ball.
Worked Solution
Create a strategy

The number of favorable outcomes will be the number of sectors that have a star or an apple. The total number of outcomes is the total number of sectors on the spinner.

Apply the idea

There are 10 different sectors, so there are 10 total possible outcomes. 3 of sectors are stars and 3 of the sectors are apples. That means there are 3 + 3 =6 favorable outcomes.

\displaystyle \text{Probability}\displaystyle =\displaystyle \frac{\text{Number of favorable outcomes}}{\text{Total number of outcomes}}Formula for theoretical probability
\displaystyle =\displaystyle \frac{6}{10}Substitute the known values
\displaystyle =\displaystyle 0.6Write as a decimal

The probability of spinning a Star or an Apple is 0.6.

Example 4

A jar contains 10 marbles in total. Some of the marbles are blue and the rest are red.

a

If the probability of picking a red marble is \dfrac{4}{10}, how many red marbles are there in the jar?

Worked Solution
Create a strategy

In the theoretical probability formula, the numerator represents the number of favorable outcomes, and the denominator represents the total number of outcomes.

Since the denominator matches the total number of marbles in the bag, the numerator will represent the number of red marbles.

Apply the idea

We know that the probability of picking a red marble is \dfrac{4}{10}. That means 4 of the 10 marbles in the bag are red.

b

What is the probability of picking a blue marble?

Worked Solution
Create a strategy

We have already found that 4 of the 10 marbles are red. Since there are only red and blue marbles in the bag, the rest of the marbles will be blue.

Apply the idea

There are 10 marbles in total. We know that 4 of them are red and the rest are blue.

So, there are 10 - 4 = 6 blue marbles.

The probability of picking a blue marble is \dfrac{6}{10}=\dfrac{3}{5}.

Reflect and check

Since the sum of the probabilities in a sample space will sum to 1, we could have subtracted the probability of drawing a red marble from 1 to find the probability of drawing a blue marble:1-\dfrac{4}{10}=\dfrac{6}{10}

Idea summary

The theoretical probability of an event is the ratio of the number of favorable outcomes to the total number of possible outcomes.\text{Theoretical Probability} = \dfrac{\text{Number of favorable outcomes}}{\text{Total number of outcomes}}

If every outcome is favorable, then we have a probability of 1. If there are no favorable outcomes, then the probability is 0.

Outcomes

7.PS.1

The student will use statistical investigation to determine the probability of an event and investigate and describe the difference between the experimental and theoretical probability.

7.PS.1a

Determine the theoretical probability of an event.

What is Mathspace

About Mathspace