The normal distribution is a fascinating, naturally occurring phenomenon that has very relevant applications to understanding the world around us. When a data set is normally distributed it has some key properties that allow us to make predictions about the nature of the data set. The videos below go in to detail about those properties and how to use them to solve problems.
Learn about it
The following is a series of slides and videos that will help you understand, learn about and review this sub-topic.
Use these slides to review the material and key points covered in the videos.
What is the normal distribution?
This video intoduces the idea of data sets and distributions leading to the key properties.
The symmetry and structure of the Normal Distribution
Here we look at the fundamental symmetrical properties and how we use them to solve problems.
The Normal CD function.
This video goes through using your GDC and the Normal CDF function to solve problems
The Inverse Normal function.
This video goes through using your GDC and the Inverse Normal function to solve problems
Revise
This section of the page can be used for quick review. The flashcards help you go over key points and the quiz lets you practice answering questions on this subtopic.
Flash Cards
Review these condensed 'key point' flashcards to help you check and keep ideas fresh in your mind.
Quiz
Practice your understanding on these quiz questions. Check your answers when you are done and read the hints where you got stuck. If you find there are still some gaps in your understanding then go back to the videos and slides above.
1
Tick the boxes next to statements you think are true.
If a data set is normally distributed then we would expect it...
2
The ditribution below shows a data set that is normally distributed with a mean of 50 and standard deviation of 10. For each region (labelled A - D) say the percentage of results you would expect to find.
A %, B %, C %, D %
Based on the approximations, 68% +/-1sd, 95% +/-2sd, 99% +/-3sd and the symmetry of the diagram
3
The diagram below shows the normal distribution curve for a data set with a mean of 30 and standard deviation of 5. What pecentage of the data set should be represented by the shaded area.
%
20 is 2 standard deviations below 30. Between 20 and 40 we would expect 95% of the results. As such between 20 and 30 should be half of that.
4
The diagram below shows the normal distribution curve for a data set with a mean of 30 and standard deviation of 5. What pecentage of the data set should be represented by the shaded areas A and B?
A %, B %
5
Consider a data set that is normally distributed with a mean of 40 and standard devisation of 7. Calculate the probability that a data item selected at random will be in the categories listed below. (give answers correct to 3 sf)
a) Less than 30,
b) Greater than 45,
c) Between 42 and 46,
Enter the Normal CDF function using the Mean, Standard deviation, Lower limit and upper limit.
6
Consider a data set that is normally distributed with a mean of 4.5 and standard devisation of 0.6. Calculate the probability that a data item selected at random will be in the categories listed below. (give answers correct to 3 sf)
a) Less than 3,
b) Greater than 4.7,
c) Between 4 and 6,
Enter the Normal CDF function using the Mean, Standard deviation, Lower limit and upper limit.
7
The weights of a sample of new born babies are normally distributed with a mean of 3.1kg and a standard deviation of 0.8 kg. Find the probability that a baby selected at random from that sample weighed.
a) More than 4kg,
If the sample contained 1500 babies, how many babies would you expect to be more than 4kg?
babies (nearest whole number)
Enter the Normal CDF function using the Mean, Standard deviation, Lower limit and upper limit. Then mutiply the probability by 1500.
8
Consider a data set that is normally distributed with a mean of 40 and standard devisation of 7. The probability of a data item selected at random being less than x, is given by 0.7.
What is the value of x? (3 sf)
Use the inverse normal function with Area/Probability = 0.7, Mean = 40, sd = 7. Round correctly
9
Consider a data set that is normally distributed with a mean of 4.5 and standard devisation of 0.6. The probability of a data item selected at random being more than x, is given by 0.45.
What is the value of x? (3 sf)
Use the inverse normal function with Area/Probability = 0.55, Mean = 40, sd = 7. Probability is 0.55 because that would leave 0.45 to the right. 0.55 is the probability on the left. Round correctly
10
The weights of a sample of new born babies are normally distributed with a mean of 3.1kg and a standard deviation of 0.8 kg. The bottom 10% of the sample were all below x kg.
What is the value of x? (3 sf)
Use the inverse normal function with Area/Probability = 0.1, Mean = 3.1, sd = 0.8. Round correctly
......
Exam Style Questions
The following questions are based on IB exam style questions from past exams. You should print these off (from the document at the top) and try to do these questions under exam conditions. Then you can check your work with the video solution.
Question 1
Question 2
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Question 3
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Donec a diam lectus. Sed sit amet ipsum mauris. Maecenas congue ligula ac quam viverra nec consectetur ante hendrerit. Donec et mollis dolor.
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Feedback
Which of the following best describes your feedback?
Normal?
What is the normal distribution?
The symmetry and structure of the Normal Distribution
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