tossing a coin would have a sample space of $\left\{\text{Head},\text{Tail}\right\}${Head,Tail}, or $\left\{H,T\right\}${H,T}
rolling a dice would have a sample space of $\left\{1,2,3,4,5,6\right\}${1,2,3,4,5,6}
watching the weather could have a sample space of $\left\{\text{sunny},\text{cloudy},\text{rainy}\right\}${sunny,cloudy,rainy} or $\left\{\text{hot},\text{cold}\right\}${hot,cold}
asking questions in a survey of favourite seasons could have a sample space of $\left\{\text{Summer},\text{Autumn},\text{Winter},\text{Spring}\right\}${Summer,Autumn,Winter,Spring}

Notice how the the sample space is listed inside curly brackets, with a comma between each outcome.

Practice questions

QUESTION 1

A standard six-sided die is rolled.

List the sample space.

(Separate outcomes with a comma)
List the sample space for rolling a number strictly less than $3$3. Separate outcomes with a comma.
List the sample space for rolling a number divisible by $3$3. Separate outcomes with a comma.
List the sample space for rolling an even number. Separate outcomes with a comma.

QUESTION 2

$Rochelle$ draws a card from a standard $52$52 card deck, and writes down the $suit$ .

How many different events could happen as a result of this trial?
$13$13
A
$2$2
B
$52$52
C
$4$4
D

2D grids

One way to show the same place of a multi-stage event is using a 2D-Grid. To construct a 2D grid, we draw a plane with two axes, where each axes represents one of the events that are taking place. Then we put a dot in each position to represent a possible outcome.

For example, in the grid below, the vertical axis represents the possible outcomes of tossing a coin, and the horizontal axis represents the possible outcomes when rolling a die:

Each dot represents an outcome when rolling a die and tossing a coin. So the dot in the top left corner represents the outcome of rolling a $1$1 and tossing a Heads.

Worked example

Two six-sided dice are rolled at the same time.

(a) Display the sample space as a 2D grid.

(b) Find the probability of rolling a double.

(a) Two events are happening in this example, where each event is rolling a die. Therefore our 2D grid needs to have both axes representing rolling a die without outcomes $1-6$1−6 on each axes:

(b) The dots that represent rolling a double are highlighted below:

$P(double)$`P`(`double`)	$=$=	$\frac{6}{36}$636
	$=$=	$\frac{1}{6}$16

Practice question

QUESTION 3

$Ben$ has $3$3 shirts: $crimson$ ($C$C), $pink$ ($P$P) and white ($W$W), and $4$4 ties: $blue$ ($B$B), $grey$ ($G$G), red ($R$R) and yellow ($Y$Y).

Fill in the array using capital letters to show all the possible outfits $Ben$ could wear.

	$Crimson$ ($C$`C`)	$Pink$ ($P$`P`)	White ($W$`W`)
$Blue$ ($B$`B`)	$C$`C`,$\editable{}$	$\editable{}$,$B$`B`	$\editable{}$,$B$`B`
$Grey$ ($G$`G`)	$C$`C`,$\editable{}$	$\editable{}$,$G$`G`	$W$`W`,$\editable{}$
Red ($R$`R`)	$\editable{}$,$R$`R`	$\editable{}$,$R$`R`	$W$`W`,$\editable{}$
Yellow (Y)	$\editable{}$,$Y$`Y`	$P$`P`,$\editable{}$	$\editable{}$,$Y$`Y`

How many different outfits are possible?

7.01 Sample space

Sample space