|
Problem:
|
A spinner has 4 equal sectors colored yellow, blue, green and red. What are
the chances of landing on blue after spinning the spinner? What are the chances
of landing on red?
|
 
|
|
Solution:
|
The chances of landing on blue are 1 in 4, or one fourth.
|
| |
The chances of landing on red are 1 in 4, or one fourth.
|
This problem asked us to find some probabilities involving a spinner. Let's look at
some definitions and examples from the problem above.
| Definition |
Example |
| An experiment
is a situation involving chance or probability that leads to results called outcomes. |
In the problem above, the experiment is spinning the spinner. |
| An outcome is the result of a single trial of an experiment. |
The possible outcomes are landing on yellow, blue, green or red. |
| An event is one or more outcomes of an experiment. |
One event of this experiment is landing on blue. |
| Probability is the measure of how likely an event is. |
The probability of landing on blue is one fourth. |
In order to measure probabilities, mathematicians have devised the following formula for finding the probability of an event.
| Probability Of An Event |
|
P(A) =
|
The Number Of Ways Event A Can Occur
|
|
The Total Number Of Possible Outcomes
|
|
The probability of event A is the number of ways event A can occur divided
by the total number of possible outcomes. Let's take a look at a slight modification of
the problem from the top of the page.
|
Experiment 1:
|
A spinner has 4 equal sectors colored yellow, blue, green and red. After
spinning the spinner, what is the probability of landing on each color?
|
|
|
| Outcomes: |
The possible outcomes of this experiment are yellow, blue, green, and red. |
| Probabilities: |
|
P(yellow)
|
=
|
number of ways to land on
yellow
|
=
|
1
|
|
total number of colors
|
4
|
| |
|
P(blue)
|
=
|
number of ways to land on
blue
|
=
|
1
|
|
total number of colors
|
4
|
| |
|
P(green)
|
=
|
number of ways to land on
green
|
=
|
1
|
|
total number of colors
|
4
|
| |
|
P(red)
|
=
|
number of ways to land on red
|
=
|
1
|
|
total number of colors
|
4
|
|
| Experiment 2: |
A single 6-sided die is rolled. What is the probability of each outcome?
What is the probability of rolling an even number? of rolling an odd number?
|
|
| Outcomes: |
The possible outcomes of this experiment are 1, 2, 3, 4, 5 and 6. |
| Probabilities: |
|
P(1)
|
=
|
number of ways to roll a 1
|
=
|
1
|
|
total number of sides
|
6
|
| |
|
P(2)
|
=
|
number of ways to roll a 2
|
=
|
1
|
|
total number of sides
|
6
|
| |
|
P(3)
|
=
|
number of ways to roll a 3
|
=
|
1
|
|
total number of sides
|
6
|
| |
|
P(4)
|
=
|
number of ways to roll a 4
|
=
|
1
|
|
total number of sides
|
6
|
| |
|
P(5)
|
=
|
number of ways to roll a 5
|
=
|
1
|
|
total number of sides
|
6
|
| |
|
P(6)
|
=
|
number of ways to roll a 6
|
=
|
1
|
|
total number of sides
|
6
|
| |
|
P(even)
|
=
|
# ways to roll an even number
|
=
|
3
|
=
|
1
|
|
total number of sides
|
6
|
2
|
| |
|
P(odd)
|
=
|
# ways to roll an odd number
|
=
|
3
|
=
|
1
|
|
total number of sides
|
6
|
2
|
|
|
Experiment 2 illustrates the difference between an outcome and an event. A single outcome of this experiment
is rolling a 1, or rolling a 2, or rolling a 3, etc. Rolling an even number (2, 4 or 6) is an event, and
rolling an odd number (1, 3 or 5) is also an event.
In Experiment 1 the probability of each outcome is always the same. The probability of landing on each color of
the spinner is always one fourth. In Experiment 2, the probability of rolling each number on the die is always one
sixth. In both of these experiments, the outcomes are
equally likely
to occur. Let's look at an experiment in which the outcomes are not equally likely.
|
Experiment 3:
|
A glass jar contains 6 red, 5 green, 8 blue and 3 yellow marbles. If a
single marble is chosen at random from the jar, what is the probability of choosing a red marble?
a green marble? a blue marble? a yellow marble?
|
|
![[IMAGE]](images/marbles_jar.gif)
|
|
Outcomes:
|
The possible outcomes of this experiment are red, green, blue and yellow.
|
|
Probabilities:
|
|
P(red)
|
=
|
number of ways to choose red
|
=
|
6
|
=
|
3
|
|
total number of marbles
|
22
|
11
|
| |
|
P(green)
|
=
|
number of ways to choose green
|
=
|
5
|
|
total number of marbles
|
22
|
| |
|
P(blue)
|
=
|
number of ways to choose blue
|
=
|
8
|
=
|
4
|
|
total number of marbles
|
22
|
11
|
| |
|
P(yellow)
|
=
|
number of ways to choose yellow
|
=
|
3
|
|
total number of marbles
|
22
|
|
The outcomes in this experiment are not equally likely to occur. You are more likely to choose a blue
marble than any other color. You are least likely to choose a yellow marble.
|
Experiment 4:
|
Choose a number at random from 1 to 5. What is the
probability of each outcome? What is the probability that the number chosen is even? What is the
probability that the number chosen is odd?
|
|
Outcomes:
|
The possible outcomes of this experiment are 1, 2, 3, 4 and 5.
|
|
Probabilities:
|
|
P(1)
|
=
|
number of ways to choose a 1
|
=
|
1
|
|
total number of numbers
|
5
|
| |
|
P(2)
|
=
|
number of ways to choose a 2
|
=
|
1
|
|
total number of numbers
|
5
|
| |
|
P(3)
|
=
|
number of ways to choose a 3
|
=
|
1
|
|
total number of numbers
|
5
|
| |
|
P(4)
|
=
|
number of ways to choose a 4
|
=
|
1
|
|
total number of numbers
|
5
|
| |
|
P(5)
|
=
|
number of ways to choose a 5
|
=
|
1
|
|
total number of numbers
|
5
|
| |
|
P(even)
|
=
|
number of ways to choose an even number
|
=
|
2
|
|
total number of numbers
|
5
|
| |
|
P(odd)
|
=
|
number of ways to choose an odd number
|
=
|
3
|
|
total number of numbers
|
5
|
|
The outcomes 1, 2, 3, 4 and 5 are equally likely to occur as a result of this experiment. However, the events even and
odd are not equally likely to occur, since there are 3 odd numbers and only 2 even numbers from 1 to 5.
| Summary: |
The probability of an event is the measure of the chance that the event will occur as a result of an experiment.
The probability of an event A is the number of ways event A can occur divided by the total number of possible outcomes.
The probability of an event A, symbolized by P(A), is a number between 0 and 1, inclusive, that measures the likelihood
of an event in the following way:
- If P(A) > P(B) then event A is more likely to occur than event B.
- If P(A) = P(B) then events A and B are equally likely to occur.
|
Exercises
Directions: Read each question below. Select your answer by clicking on its button. Feedback to your answer
is provided in the RESULTS BOX. If you make a mistake, choose a different button.
| 1. |
Which of the following is an experiment? |
| | |
| |
|
| 2. |
Which of the following is an outcome? |
| | |
| |
|
| 3. |
Which of the following experiments does NOT have equally likely outcomes? |
| | |
| |
|
| 4. |
What is the probability of choosing a vowel from the alphabet? |
| | |
| |
|
| 5. |
A number from 1 to 11 is chosen at random. What is the probability of choosing
an odd number? |
| | |
| |
|
