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Jackie Scheiber RADMASTE Wits University Jackie.scheiber@wits.ac.za

Using a calculator to investigate whether a linear, quadratic or exponential function best fits a set of bivariate numerical data. Jackie Scheiber RADMASTE Wits University Jackie.scheiber@wits.ac.za. Curriculum References. Bivariate Data.

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Jackie Scheiber RADMASTE Wits University Jackie.scheiber@wits.ac.za

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  1. Using a calculator to investigate whether a linear, quadratic or exponential function best fits a set of bivariate numerical data Jackie Scheiber RADMASTE Wits University Jackie.scheiber@wits.ac.za

  2. Curriculum References

  3. Bivariate Data • BIVARIATE DATA – each item in the population has TWO measurements associated with it • We can plot bivariate data on a SCATTER PLOT (or scatter diagram or scatter graph or scatter chart) • The scatter graph shows whether there is an association or CORRELATION between the two variables

  4. Some Types of Correlation

  5. TASK 1

  6. 1)

  7. 2) • Negative correlation • As the date increases, the time taken decreases

  8. 3 a) A = 23,746 … ≈ 23,75 B = - 0,0069… ≈ - 0,007 Equation of the linear regression line is y = 23,75 – 0,007 x

  9. 3 b)

  10. 3 c)

  11. 4 a) A = - 418,943 … ≈ - 418,94 B = 0,439 … ≈ 0,44 C = - 0,00011 … ≈ - 0,001 Equation of the quadratic regression function: y = - 418,94 + 0,44 x – 0,0001 x2

  12. 4b)

  13. 4 c)

  14. 5 a) A = 40,294 … ≈ 40,29 B = 0,9992… ≈ 0,999 Equation of the exponential regression function: y = 40,29 . (0,999)x

  15. 5 b)

  16. 5 c)

  17. 6)

  18. 7)

  19. 7) continued • Compare the Linear and Exponential regression functions – similar results – rather use the straight line as it is simpler • Compare the Linear and Quadratic regression functions – similar results – but part of the data may appear quadratic, but the entire set may be less symmetric. • The Linear regression function seems to suit the given data best.

  20. TASK 2

  21. 1)

  22. 2) • y = 69,14 + 0,06 x • y = 75,39 . (1,0004)x

  23. 3)

  24. 4)

  25. 5) • As can be seen in the table, each time the values from the linear model are closest to the measured values – so the linear model fits the data better.

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