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Worked examples and exercises are in the text STROUD PROGRAMME 27 STATISTICS.

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Presentation on theme: "Worked examples and exercises are in the text STROUD PROGRAMME 27 STATISTICS."— Presentation transcript:

1 Worked examples and exercises are in the text STROUD PROGRAMME 27 STATISTICS

2 Worked examples and exercises are in the text STROUD Programme 27: Statistics Introduction Arrangement of data Histograms Measure of central tendency Dispersion Frequency polygons Frequency curves Normal distribution curve Standardized normal curve

3 Worked examples and exercises are in the text STROUD Programme 27: Statistics Introduction Arrangement of data Histograms Measure of central tendency Dispersion Frequency polygons Frequency curves Normal distribution curve Standardized normal curve

4 Worked examples and exercises are in the text STROUD Programme 27: Statistics Introduction Statistics is concerned with the collection, ordering and analysis of data. Data consists of sets of recorded observations or values. Any quantity that can have a number of values is a variable. A variable may be one of two kinds: (a) Discrete – a variable whose possible values can be counted (b) Continuous – a variable whose values can be measured on a continuous scale

5 Worked examples and exercises are in the text STROUD Programme 27: Statistics Introduction Arrangement of data Histograms Measure of central tendency Dispersion Frequency polygons Frequency curves Normal distribution curve Standardized normal curve

6 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Table of values Tally diagram Grouped data Grouping with continuous data Relative frequency Rounding off data Class boundaries

7 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Table of values A set of data: Can be arranged in ascending order: 283129273029 263028 292726322832312530 273029302829312728 2526 27 28 29 30 31 32

8 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Table of values Once the data is in ascending order: It can be entered into a table. The number of occasions on which any particular value occurs is called the frequency, denoted by f. 2526 27 28 29 30 31 32 ValueNumber of times 251 262 274 287 296 305 313 322

9 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Tally diagram When dealing with large numbers of readings, instead of writing all the values in ascending order, it is more convenient to compile a tally diagram, recording the range of values of the variable and adding a stroke for each occurrence of that reading:

10 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Grouped data If the range of values of the variable is large, it is often helpful to consider these values arranged in regular groups or classes.

11 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Grouping with continuous data With continuous data the groups boundaries are given to the same number of significant figures or decimal places as the data:

12 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Relative frequency If the frequency of any one group is divided by the sum of the frequencies the ratio is called the relative frequency of that group. Relative frequencies can be expressed as percentages:

13 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Rounding off data If the value 21.7 is expressed to two significant figures, the result is rounded up to 22. similarly, 21.4 is rounded down to 21. To maintain consistency of group boundaries, middle values will always be rounded up. So that 21.5 is rounded up to 22 and 42.5 is rounded up to 43. Therefore, when a result is quoted to two significant figures as 37 on a continuous scale this includes all possible values between: 36.50000… and 37.49999…

14 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Class boundaries A class or group boundary lies midway between the data values. For example, for data in the class or group labelled: 7.1 – 7.3 (a)The class values 7. 1 and 7.3 are the lower and upper limits of the class and their difference gives the class width. (b)The class boundaries are 0.05 below the lower class limit and 0.05 above the upper class limit (c)The class interval is the difference between the upper and lower class boundaries.

15 Worked examples and exercises are in the text STROUD Programme 27: Statistics Arrangement of data Class boundaries (d) The central value (or mid-value) of the class interval is one half of the difference between the upper and lower class boundaries.

16 Worked examples and exercises are in the text STROUD Programme 27: Statistics Introduction Arrangement of data Histograms Measure of central tendency Dispersion Frequency polygons Frequency curves Normal distribution curve Standardized normal curve

17 Worked examples and exercises are in the text STROUD Programme 27: Statistics Histograms Frequency histogram Relative frequency histogram

18 Worked examples and exercises are in the text STROUD Programme 27: Statistics Histograms Frequency histogram A histogram is a graphical representation of a frequency distribution in which vertical rectangular blocks are drawn so that: (a)the centre of the base indicates the central value of the class and (b)the area of the rectangle represents the class frequency

19 Worked examples and exercises are in the text STROUD Programme 27: Statistics Histograms Frequency histogram For example, the measurement of the lengths of 50 brass rods gave the following frequency distribution:

20 Worked examples and exercises are in the text STROUD Programme 27: Statistics Histograms Frequency histogram This gives rise to the histogram:

21 Worked examples and exercises are in the text STROUD Programme 27: Statistics Histograms Relative frequency histogram A relative frequency histogram is identical in shape to the frequency histogram but differs in that the vertical axis measures relative frequency.

22 Worked examples and exercises are in the text STROUD Programme 27: Statistics Introduction Arrangement of data Histograms Measure of central tendency Dispersion Frequency polygons Frequency curves Normal distribution curve Standardized normal curve

23 Worked examples and exercises are in the text STROUD Programme 27: Statistics Measure of central tendency Mean Mode of a set of data Mode of a grouped frequency distribution Median of a set of data Median with grouped data

24 Worked examples and exercises are in the text STROUD Programme 27: Statistics Mean The arithmetic mean: of a set of n observations is their average: When calculating from a frequency distribution, this becomes:

25 Worked examples and exercises are in the text STROUD Programme 27: Statistics Mode of a set of data The mode of a set of data is that value of the variable that occurs most often. The mode of: 2, 2, 6, 7, 7, 7, 10, 13 is clearly 7. The mode may not be unique, for instance the modes of: 23, 25, 25, 25, 27, 27, 28, 28, 28 are 25 and 28.

26 Worked examples and exercises are in the text STROUD Programme 27: Statistics Mode of a grouped frequency distribution The modal class of grouped data is the class with the greatest population. For example, the modal class of: Is the third class.

27 Worked examples and exercises are in the text STROUD Programme 27: Statistics Mode of a grouped frequency distribution Plotting the histogram of the data enables the mode to be found:

28 Worked examples and exercises are in the text STROUD Programme 27: Statistics Mode of a grouped frequency distribution The mode can also be calculated algebraically: If L = lower boundary value l = AB = difference in frequency on the lower boundary u = CD = difference in frequency on the upper boundary c = class interval the mode is then:

29 Worked examples and exercises are in the text STROUD Programme 27: Statistics Mode of a grouped frequency distribution For example, the modal class of: L =......l =..... u =...... c =.....

30 Worked examples and exercises are in the text STROUD Programme 27: Statistics Mode of a grouped frequency distribution For example, the modal class of: L = 15.5l = 16-7 = 9 u = 3 c = 16-10=6 15.5+9/(9+6)*3 = 15.5 + 1.8 = 17.3

31 Worked examples and exercises are in the text STROUD Programme 27: Statistics Median of a set of data The median is the value of the middle datum when the data is arranged in ascending or descending order. If there is an even number of values the median is the average of the two middle data.

32 Worked examples and exercises are in the text STROUD Programme 27: Statistics Median with grouped data In the case of grouped data the median divides the population of the largest block of the histogram into two parts: In this frequency distribution A + B = 20 so that A = 7: Therefore, Median = 30.85 + 0.105 = 30.96 A B

33 Worked examples and exercises are in the text STROUD Programme 27: Statistics Introduction Arrangement of data Histograms Measure of central tendency Dispersion Frequency polygons Frequency curves Normal distribution curve Standardized normal curve

34 Worked examples and exercises are in the text STROUD Programme 27: Statistics Dispersion Range Standard deviation Alternative formula for the standard deviation

35 Worked examples and exercises are in the text STROUD Programme 27: Statistics Dispersion Range The mean, mode and median give important information about the central tendency of data but they do not tell anything about the spread or dispersion about the centre. For example, the two sets of data: 26, 27, 28,29 30 and 5, 19, 20, 36, 60 both have a mean of 28 but one is clearly more tightly arranged about the mean than the other. The simplest measure of dispersion is the range – the difference between the highest and the lowest values.

36 Worked examples and exercises are in the text STROUD Programme 27: Statistics Dispersion Standard deviation The standard deviation is the most widely used measure of dispersion. The variance of a set of data is the average of the square of the difference in value of a datum from the mean: This has the disadvantage of being measured in the square of the units of the data. The standard deviation is the square root of the variance:

37 Worked examples and exercises are in the text STROUD Programme 27: Statistics Dispersion Alternative formula for the standard deviation Since: That is:


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