Probability, the science of chance, and statistics, the science of interpreting data, influence and govern our daily lives. They are used to predict the weather, determine the effectiveness of medicine and are an important process in making scientific breakthroughs. They can even help us play card games.
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Sign up for freeWhat sort of data does a pie chart represent?
Which of the following are continuous variables?
Which of the following are true?
A lottery machine contains balls with numbers from 1 to 10. All the numbers come out just as often as one another. What is the probability that the next ball drawn is a 1?
I have a deck of 54 playing cards: 52 regular cards and 2 Jokers. I shuffle the cards thoroughly. What is the probability that the first card I draw is a Joker?
Scarthorpe City and Scarthorpe United are rival football teams. They have played many matches before. Sometimes City wins, sometimes United wins. The one thing the experts can agree on is that the outcome of the next match is very hard to predict. If the experts know what they're talking about, which of these could be the probability that Scarthorpe United will win?
An internet marketer knows from past performance that the probability of a spam email leading to a sale is 0.001%. They send out 100 million emails. If performance remains the same, how many sales will this lead to?
I am not a good archer. I shot an arrow 2000 times, and it hit the target just 20 times. What is the experimental probability that I hit the target? a) 20% b) 10% c) 0.1 d) 0.01
What is the correct formula for calculating the probability of getting a number greater than 4 when rolling a six-sided die?
How are the probabilities of two independent events both occurring calculated?
What is the range of values for basic probability, and what do the extreme values represent?
I am not a good archer. I shot an arrow 2000 times, and it hit the target just 20 times. What is the experimental probability that I hit the target? a) 20% b) 10% c) 0.1 d) 0.01
What is the correct formula for calculating the probability of getting a number greater than 4 when rolling a six-sided die?
How are the probabilities of two independent events both occurring calculated?
What is the range of values for basic probability, and what do the extreme values represent?
What sort of data does a pie chart represent?
Which of the following are continuous variables?
Which of the following are true?
A lottery machine contains balls with numbers from 1 to 10. All the numbers come out just as often as one another. What is the probability that the next ball drawn is a 1?
I have a deck of 54 playing cards: 52 regular cards and 2 Jokers. I shuffle the cards thoroughly. What is the probability that the first card I draw is a Joker?
Scarthorpe City and Scarthorpe United are rival football teams. They have played many matches before. Sometimes City wins, sometimes United wins. The one thing the experts can agree on is that the outcome of the next match is very hard to predict. If the experts know what they're talking about, which of these could be the probability that Scarthorpe United will win?
An internet marketer knows from past performance that the probability of a spam email leading to a sale is 0.001%. They send out 100 million emails. If performance remains the same, how many sales will this lead to?
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Send FeedbackMore generally, probability and statistics help individuals and institutions make better decisions by learning from events in the past and applying this knowledge to the present to affect the future.
It is important to understand the differences and similarities between probability and statistics. They are different but related subjects.
Probability is a theoretical subject used to analyse the likelihood of events happening in the future. On the other hand, statistics is an applied subject which uses probability theory to analyse data which has been collected.
Probability and statistics are related in that the theories we develop in probability mathematics are compared with statistical findings which can tell us more information about the data. We can also use statistics to estimate the probability of something happening in the future.
Probability is the likelihood of some event occurring. The probability of an event happening is always a fraction, decimal or percentage between 0 and 1.
Probability is the branch of mathematics that studies the likelihood of events occurring.
The basic formula for probability is the following:
There is a lot of terminology in probability which you need to be familiar with. The better you understand the basic concepts detailed below, the easier it will be when you tackle trickier probability questions!
| Terminology | Definition |
| Experiment or trial | A repeatable action which has a defined set of outcomes. |
| Sample space | The set of all possible outcomes of an experiment, usually denoted by |
| Event | An event is one particular outcome, usually denoted by a capital letter. The probability of event A occurring is commonly notated as P(A). |
You are on a game show and you have to choose between 2 boxes. One contains a sports car and the other is empty. You are given no clues as to which box contains the prize and must therefore choose a box at random. What is the probability you win the sports car?
Solution
Here, the sample space is S = {W, L} where W stands for 'win' and L stands for 'lose'. This is the sample space since these are the only possible outcomes.
Intuitively, since you are choosing at random, there is an equal probability of choosing the prize and choosing the empty box. Since probabilities are always between 0 and 1, the probability of choosing the sports car is 0.5 (= 50%).
We can also arrive at this answer by using the basic formula for probability. The number of ways to choose the box with the sports car is 1, and the total number of outcomes (either choosing the sports car or choosing the empty box) is 2. Using mathematical notation, the probability of winning is as follows:
Therefore, the probability of choosing the sports car and therefore winning is which is equivalent to 50% or 0.5.
Data usually contains far too many individual numbers for the human brain to even comprehend, let alone understand. This is why we need statistics: to help us to better understand the underlying complexities in the data we have collected.
Statistics concerns the analysis and interpretation of data which has been collected.
The sorts of tasks you will have in statistics questions will fall into one of three categories: data collection, analysis, and visualisation and interpretation.
The type of data collected will depend on the statistical question you want answered, i.e. the characteristic you want to study. You might be interested in collecting data through holding a scientific experiment (e.g. measuring the effect of location on the growth of plants) or perhaps by collecting data through observation (e.g. recording the number of students that are late for class).
All data falls into two categories: qualitative and quantitative.
Qualitative data refers to descriptive data, such as words. It might be collected through interviews or surveys.
Quantitative data refers to things which can be represented using numbers, like measurements such as height and weight, or quantities of something that we are interested in knowing more about. Important methods include:
conducting a census
data is collected from every single member of a population
sampling
data is collected from a subset of a population called a sample
this subset is either randomly chosen or is chosen to be representative of the wider population
controlled experiments
a scientific procedure is planned such that accurate data can be collected and analysed
Quantitative data also falls into two categories: continuous and discrete.
Continuous variables can take on any value within a range, which can make it more difficult for us to count them. For example, length can be measured to as many decimal places as is possible. It's up to you, the data collector, to decide how many decimal places are necessary.
Discrete variables must take on particular values within a range, which makes it easier to count them. For example, shoe size can be 4 or 4.5, but not 4.26735!
Once you have collected your data, it is now time to start analysing it. Since it is very difficult (and often impossible!) to understand data in its raw form, we need to condense it into manageable descriptions that retain as much information about the data as possible whilst being understandable. This is the ultimate goal of statistics: to understand, describe and find meaningful information from datasets.
Descriptive statistics are particularly useful. These are numbers that tell us something about the data. There are two kinds: measures of location and measures of spread.
Measures of location use one statistic to summarise a dataset. They include:
mean
a particularly common and useful statistic that requires summing values and dividing by the number of values, often denoted by (pronounced 'x bar'):
;
median
the middle value in an ordered list of values;
mode
the most common value.
Measures of spread describe the variability of the data. They include:
range
this is the largest value minus the smallest value in the data;
interquartile range
this describes the range of the central 'quartiles' of the data, between 25% and 75% which surround the median at 50%.
Data is often be represented in frequency tables. Frequency refers to the number of times something occurs, which in the case of statistics will be the number of times a particular data value occurs. From a frequency table, you will be able to extract descriptive statistics such as the ones listed above. You will also be able to use these to visualise data.
Descriptive statistics are useful in condensing data into a small amount of information, and can tell us about the location and spread of the data. Data visualisations, on the other hand, are able to graphically represent the data. For a thorough analysis, you would ideally use both methods to be able to fully understand the behaviour of the data.
We will now go through some examples of different data visualisations. Don't worry if you can't yet fully understand the examples below – there are in-depth explanations in other articles!
These are useful in representing continuous data and trends.
The following is an example of a line graph:
StudySmarter originals, Rebecca Farthing
These are useful in representing data which is grouped.
The following is an example of a bar chart:
StudySmarter originals, Rebecca Farthing
These are useful in representing the frequency of something happening.
The following is an example of a histogram:
StudySmarter originals, Rebecca Farthing
These are useful in representing proportional data.
The following is an example of a pie chart:
StudySmarter originals, Rebecca Farthing
These visualise the range, interquartile range and median.
The following is an example of a box-and-whisker plot:
StudySmarter originals, Rebecca Farthing
Shows the relationship between two variables.
The following is an example of a scatter plot:
StudySmarter originals, Rebecca Farthing
Finally, once the data has been analysed and represented graphically, we can draw conclusions from the data. Have a look at the example below.
The following is data collected from a team's football matches. The frequency of the number of goals scored by each player per match is recorded from a total of 20 matches.
| Team member | Scored 0 goals | Scored 1 goal | Scored 2 goals | Scored 3 goals | Scored 4 goals |
| Zack | 5 | 6 | 4 | 4 | 1 |
| Josh | 9 | 5 | 7 | 0 | 0 |
| Amy | 0 | 13 | 3 | 4 | 0 |
| Ahmed | 2 | 11 | 4 | 1 | 2 |
| Emily | 7 | 12 | 0 | 0 | 1 |
a) What type of data is presented here?
b) Which team member scores the largest number of goals over the course of the season?
c) Which player scored the highest average number of goals per game?
d) Represent this data using a pie chart.
e) What does this data tell us about the performance of the players?
Solution
a) Frequency and goals scored per match are both quantitative, discrete data. It is impossible to score 0.5 goals!
b) By multiplying the number of goals by the frequency, f, we can find the total goals scored by each player:
| Team member | f x 0 | f x 1 | f x 2 | f x 3 | f x 4 | Total goals |
| Zack | 0 | 5 | 4 × 2 = 8 | 4 × 3 = 12 | 2 × 4 = 8 | 33 |
| Josh | 0 | 5 | 7 × 2 = 14 | 0 × 3 = 0 | 0 × 4 = 0 | 19 |
| Amy | 0 | 13 | 3 × 2 = 6 | 4 × 3 = 12 | 0 × 4 = 0 | 32 |
| Ahmed | 0 | 11 | 4 × 2 = 8 | 1 × 3 = 3 | 2 × 4 = 8 | 30 |
| Emily | 0 | 12 | 0 × 2 = 0 | 0 × 3 = 0 | 1 × 4 = 4 | 16 |
Josh: goals per match
Amy: to 2 d.p. goals per match
Ahmed: goals per match
Emily: goals per match
StudySmarter originals, Rebecca FarthingAt StudySmarter, our mission is to provide students with reliable, expert-verified information to support their studies. We carefully review , update, and verify every source referenced in our articles to ensure accuracy, relevance, and clarity. It is important for us that our texts are based on references; check them out below:
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What is Probability?
Probability is the science of chance.
What is statistics?
Statistics concerns the analysis and interpretation of data which has been collected.
What is an example of statistics and probabilities?
An example of statistics and probabilities is a coin toss: we know that if the coin is unbiased, the probability of 'heads' is 0.5.
How to solve probabilities and statistics?
Solving probabilities requires applying probability theory and logic. Using statistics requires analysing data.
What are the rules in probabilities and statistics?
One of the main rules of probability theory is that a probability can never be greater than 1 or less than 0.
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