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Not your average video:
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Exam Preparation: Complete unit reviews designed for final exam preparation with all key concepts covered systematically.
Expert Teaching: High-quality instruction from Perplex co-founder James Mullen with clear explanations, worked examples, and exam tips.
Descriptive Statistics
Watch comprehensive video reviews for Descriptive Statistics, designed for final exam preparation. Each video includes integrated problems you can solve alongside detailed solutions.
Not your average video:
Interactive Problems: Solve problems alongside the video with step-by-step guidance and detailed solutions.
Exam Preparation: Complete unit reviews designed for final exam preparation with all key concepts covered systematically.
Expert Teaching: High-quality instruction from Perplex co-founder James Mullen with clear explanations, worked examples, and exam tips.
Not your average video:
Interactive Problems: Solve problems alongside the video with step-by-step guidance and detailed solutions.
Exam Preparation: Complete unit reviews designed for final exam preparation with all key concepts covered systematically.
Expert Teaching: High-quality instruction from Perplex co-founder James Mullen with clear explanations, worked examples, and exam tips.
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SL 4.3
Quartiles are conceptually similar to the median, except that their are three of them: Q1,Q2 and Q3, dividing the sorted dataset into 4 equal-size parts.
Q2 is the median, dividing the datapoints in two.
Q1 is halfway between the first value and the median, at position
Q3 is halfway between the median and the last value, at position
Note: you will not need to find quartiles by hand on IB exams. These examples are for conceptual understanding only.
Example
Find the quartiles of the dataset [4,2,2,6,3,7,8,9].
First we sort the data: [2,2,3,4,6,7,8,9].
There are n=8 items, so
Q1 is at 48+1=2.25 (average of second and third).
Q2 (the median) is at 28+1=4.5
Q3 is at 43(8+1)=6.75 (average of sixth and seventh)
So the quartiles are:
ie Q1=2.5, Q2=5 and Q3=7.5.
More examples:
SL 4.3
Quartiles are conceptually similar to the median, except that their are three of them: Q1,Q2 and Q3, dividing the sorted dataset into 4 equal-size parts.
Q2 is the median, dividing the datapoints in two.
Q1 is halfway between the first value and the median, at position
Q3 is halfway between the median and the last value, at position
Note: you will not need to find quartiles by hand on IB exams. These examples are for conceptual understanding only.
Example
Find the quartiles of the dataset [4,2,2,6,3,7,8,9].
First we sort the data: [2,2,3,4,6,7,8,9].
There are n=8 items, so
Q1 is at 48+1=2.25 (average of second and third).
Q2 (the median) is at 28+1=4.5
Q3 is at 43(8+1)=6.75 (average of sixth and seventh)
So the quartiles are:
ie Q1=2.5, Q2=5 and Q3=7.5.
More examples: