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VCE Further Maths

VCE Further Maths. Least Square Regression using the calculator. What is your understanding of this data set? Observe the pattern, look at what ’ s happening to the dependent and independent variables. You should be able to generalise a relationship.

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VCE Further Maths

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  1. VCE Further Maths Least Square Regression using the calculator

  2. What is your understanding of this data set? Observe the pattern, look at what’s happening to the dependent and independent variables. You should be able to generalise a relationship. Step 1: Justifying which variable should be the dependent and independent variable. Explain why.

  3. Step 2: Performing a Least Square Regression using the calculator. From MENU select STATISTICS Enter the independent variable in list1 and the dependent variable in list2

  4. Step 3: Finding the Regression Equation Select Calc Select linear Reg Note: Make sure the independent variable is correctly selected in the Xlist and the dependent variable is in the Ylist

  5. Step 3 Con’t: Reading the gradient (a) and y-intercept (b) The r correlation value can also be read off from this screen The equation is: y = -0.48x + 16.14 Interpret the meaning of the gradient and y-intercept. The gradient shows a drop of 0.48 number of students wearing jumpers for every 1 degree increase in the temperature. The y-intercept being the initial number of students wearing jumpers is at 16 when x=0

  6. Step 4: Plotting the scatterplot Select the plotting icon from the top menu

  7. Select the graphing icon from the top menu

  8. Step 5: Finding the predicted y values Type in your regression equation here (-0.48List1 +16.14). Replace x with List1.

  9. Make a note that: List1 are your x values List2 are you y values List 3 are your predicted y values using the regression equation

  10. Step 6: Finding the residual A positive value means under predicted. A negative value means over predicted. Go back to your linear reg screen. Select list4 to place where your residual will be Remember: The residual is the difference between the original y and the predicted y (y-ypred)

  11. Step 7: plotting the residual plot (residual vs original x values) Select the plotting icon Take note: The x values are still in list1 but the residuals are in list4

  12. Select the graphing icon The points of the residual plot show a curved pattern, indicating that the original data has a non-linear relationship

  13. Step 8: Transformation There are several transformations that you can perform. Examine the points on the original scatterplot and look at the data pattern to decide which one to use.

  14. According to the data pattern, a reciprocal transformation of the x variable is applied (1/x). In your list screen, make list5 as your transformed x data Remember, your original x data was stored in list1 Type 1/list1

  15. Transformed x data

  16. Step 9: To find your transformed equation Remember, your new transformed x data are now in list5 Must provide in the order of independent first, then the dependent We have only transformed the x data therefore, the original y data remains the same in list2

  17. The new equation can be read off the screen. y = 94.58(1/x) – 0.44 r is now 0.99 much improved in terms of the strength of the relationship

  18. Step 10: Plotting the transformed data Much better fit!

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