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Statistics in Hydrology Mean, median and mode (central tendency) Dispersion: the spread of the items in a data set around its central value.

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Presentation on theme: "Statistics in Hydrology Mean, median and mode (central tendency) Dispersion: the spread of the items in a data set around its central value."— Presentation transcript:

1 Statistics in Hydrology Mean, median and mode (central tendency) Dispersion: the spread of the items in a data set around its central value

2 Statistics in Hydrology Measure of central tendency Measure of dispersion ModeRange MedianQuartile deviation MeanStandard dev.

3 Statistics in Hydrology

4 Why do we need to include variance/SD?

5 Probability We need to know its probability of occurrence (the level of peak Q likely to occur/100 years (moving to inferential stats)

6 Probability

7

8 Example 1 What is the probability that an individual value will be more than 1.5 S.D. below the mean in normally distributed data? a. Draw a diagram

9 Probability b. If the area under the curve = 100%, then the area below 1.5 S.D. below the mean represents the probability we require

10 Probability

11 c. With z = 1.5 then p = 0.9932%. Look at the table again! It lists p values > 50% (not always required value); be careful!

12 Probability d.  the probability we require is 1 - 0.9332 = 0.0668 e. The probability that an individual value will be more than 1.5 S.D. below the mean in the data set is 6.68% At home: What is the probability of getting less than 500 mm of rainfall in any one year in Edinburgh, Scotland given a mean annual rainfall of 664 mm and a S.D. of 120 mm?

13 Risk Risk = probability * consequence

14 Probability F i = m/(n + 1) * 100 where F i = cum. % frequency

15 Hypothesis Testing Sampling from a larger population Null hypothesis: no significant difference between the figures (H 0 ) Alternative hypothesis: is a significant difference between the figures (H 1 ) Level of significance (0.05 and 0.01)

16 Hypothesis Testing Daily Q: Mean = 200 l/day S.D. = 30 l/day Sample =128 litres SD = 30 * 1.96 = 58.8 L 95% of obs. should lie between 141.2 and 258.8 L

17 Correlation and Regression ObservationOil consumption (gallons) Temperature ( o C) 111.5 213.511.0 313.810.5 415.07.5 516.28.0 617.07.0 718.57.5 822.03.5 922.33

18 Correlation and Regression 25 0 2 4 6 8 10 12 Temperature (C) Oil consumption (g) 20 15 10 5 0

19 Correlation and Regression Correlation coefficient (r) Coefficient of determination (r 2 ) Lies between 0 and 1 Proportion of variation of Y associated with variations in X r = 0.96; r 2 = 0.92

20 Correlation and Regression y = a + bx (y = mx + c) y = 1 + 0.5x

21 Correlation and Regression Least squares

22 Non-linear Regression

23

24

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