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iGCSE (2021 Edition)

23.05 Experimental probability

Lesson

In order to predict the future, we sometimes need to determine the probability by running experiments, or looking at data that has already been collected. This is called experimental probability, since we determine the probability of each outcome by looking at past events.

Exploration

Imagine we have a "loaded" die, where a weight is placed inside the die opposite the face that the cheater wants to come up the most (in this case, the $6$6):

If the die is made like this, the probability of each outcome is no longer equal, and we cannot say that the probability of rolling any particular face is $\frac{1}{6}$16.

Instead we will need to roll the die many times and record our results, and use these results to predict the future. Here are the results of an experiment where the die was rolled $200$200 times:

Result Number of rolls
$1$1 $11$11
$2$2 $19$19
$3$3 $18$18
$4$4 $18$18
$5$5 $20$20
$6$6 $114$114

We can now try to predict the future using this experimental data, and the following formula:

$\text{Experimental probability of event}=\frac{\text{Number of times event occurred in experiments}}{\text{Total number of experiments}}$Experimental probability of event=Number of times event occurred in experimentsTotal number of experiments

Here is the table again, with the experimental probability of each face listed as a percentage:

Result Number of rolls Experimental probability
$1$1 $11$11 $5.5%$5.5%
$2$2 $19$19 $9.5%$9.5%
$3$3 $18$18 $9%$9%
$4$4 $18$18 $9%$9%
$5$5 $20$20 $10%$10%
$6$6 $114$114 $57%$57%

A normal die has around $17%$17% chance of rolling a $6$6, but this die rolls a $6$6 more than half the time!

Sometimes our "experiments" involve looking at historical data instead. For example, we can't run hundreds of Eurovision Song Contests to test out who would win, so instead we look at past performance when trying to predict the future. The following table shows the winner of the Eurovision Song Contest from 1999 to 2018:

Year Winning country Year Winning country
1999 Sweden 2009 Norway
2000 Denmark 2010 Germany
2001 Estonia 2011 Azerbaijan
2002 Latvia 2012 Sweden
2003 Turkey 2013 Denmark
2004 Ukraine 2014 Austria
2005 Greece 2015 Sweden
2006 Finland 2016 Ukraine
2007 Serbia 2017 Portugal
2008 Russia 2018 Israel

What is the experimental probability that Sweden will win the next Eurovision Song Contest?

We think of each contest as an "experiment", and there are $20$20 in total. The winning country is the event, and we can tell that $3$3 of the contests were won by Sweden. So using the same formula as above,

$\text{Experimental probability of event}=\frac{\text{Number of times event occurred in experiments}}{\text{Total number of experiments}}$Experimental probability of event=Number of times event occurred in experimentsTotal number of experiments

the experimental probability is $\frac{3}{20}$320, which is $15%$15%.

How many of the next $50$50 contests can Sweden expect to win?

Just like in the last chapter, we can calculate this by multiplying the experimental probability of an event by the number of trials. In this case Sweden can expect to win

$\frac{3}{20}\times50=\frac{150}{20}$320×50=15020 contests

This rounds to $8$8 contests out of the next $50$50.

Practice questions

Question 1

A retail store served $773$773 customers in October, and there were $44$44 complaints during that month.

Determine, as a percentage, the experimental probability that a customer submits a complaint.

  1. Round your answer to the nearest whole percent.

Question 2

An insurance company found that in the past year, of the $2558$2558 claims made, $1493$1493 of them were from drivers under the age of 25.

Give your answers to the following questions as percentages, rounded to the nearest whole percent.

  1. What is the experimental probability that a claim is filed by someone under the age of 25?

  2. What is the experimental probability that a claim is filed by someone 25 or older?

Question 3

The experimental probability that a commuter uses public transport is $50%$50%.

Out of $500$500 commuters, how many would you expect to use public transport?

Outcomes

0580C8.4

Understand relative frequency as an estimate of probability. Expected frequency of occurrences.

0580E8.4

Understand relative frequency as an estimate of probability. Expected frequency of occurrences.

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