1 / 27

Quantitative Methods

Quantitative Methods. Using more than one explanatory variable. Using more than one explanatory variable. Why use more than one?. Intervening or “3rd” variables ( schoolchildren’s maths ) Reducing error variation ( saplings ) There is more than one interesting predictor ( trees ) .

thibault
Download Presentation

Quantitative Methods

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Quantitative Methods Using more thanone explanatory variable

  2. Using more than one explanatory variable Why use more than one? • Intervening or “3rd” variables (schoolchildren’s maths) • Reducing error variation (saplings) • There is more than one interesting predictor (trees)

  3. Using more than one explanatory variable Statistical elimination

  4. Using more than one explanatory variable Statistical elimination

  5. Using more than one explanatory variable Statistical elimination

  6. Using more than one explanatory variable Statistical elimination

  7. Using more than one explanatory variable Statistical elimination

  8. Using more than one explanatory variable Sequential and Adjusted Sums of Squares

  9. Using more than one explanatory variable Sequential and Adjusted Sums of Squares

  10. 2761.1 Using more than one explanatory variable Sequential and Adjusted Sums of Squares

  11. Using more than one explanatory variable Sequential and Adjusted Sums of Squares

  12. Using more than one explanatory variable Sequential and Adjusted Sums of Squares

  13. Using more than one explanatory variable Sequential and Adjusted Sums of Squares

  14. Using more than one explanatory variable Sequential and Adjusted Sums of Squares

  15. Using more than one explanatory variable Sequential and Adjusted Sums of Squares MTB > glm lvol=lhgt; SUBC> covar lhgt. Source DF Seq SS Adj SS Adj MS F P LHGT 1 3.5042 3.5042 3.5042 21.14 0.000 Error 29 4.8080 4.8080 0.1658 Total 30 8.3122 MTB > glm lvol=lhgt+ldiam; SUBC> covar lhgt ldiam. Source DF Seq SS Adj SS Adj MS F P LHGT 1 3.5042 0.1987 0.1987 30.14 0.000 LDIAM 1 4.6234 4.6234 4.6234 701.33 0.000 Error 28 0.1846 0.1846 0.0066 Total 30 8.3122

  16. Using more than one explanatory variable Models and parameters

  17. Using more than one explanatory variable Models and parameters Y =  +  Unknown quantities we would like to know, in Greek Known quantities that are estimates of them, in Latin

  18. Using more than one explanatory variable Models and parameters Y =  + 

  19. Using more than one explanatory variable Models and parameters MTB > glm lvol=ldiam+lhgt; SUBC> covar ldiam lhgt. Analysis of Variance for LVOL, using Adjusted SS for Tests Source DF Seq SS Adj SS Adj MS F P LDIAM 1 7.9289 4.6234 4.6234 701.33 0.000 LHGT 1 0.1987 0.1987 0.1987 30.14 0.000 Error 28 0.1846 0.1846 0.0066 Total 30 8.3122 Term Coef SE Coef T P Constant -6.6467 0.7983 -8.33 0.000 LDIAM 1.98306 0.07488 26.48 0.000 LHGT 1.1203 0.2041 5.49 0.000

  20. Using more than one explanatory variable Models and parameters MTB > glm lvol=ldiam; SUBC> covariate ldiam. Analysis of Variance for LVOL Source DF Seq SS Adj SS Adj MS F P LDIAM 1 7.9254 7.9254 7.9254 599.72 0.000 Error 29 0.3832 0.3832 0.0132 Total 30 8.3087

  21. Using more than one explanatory variable Models and parameters MTB > glm lvol=ldiam; SUBC> covariate ldiam. Analysis of Variance for LVOL Source DF Seq SS Adj SS Adj MS F P LDIAM 1 7.9254 7.9254 7.9254 599.72 0.000 Error 29 0.3832 0.3832 0.0132 Total 30 8.3087

  22. Using more than one explanatory variable Models and parameters Source DF Seq SS Adj SS Adj MS F P LDIAM 1 7.9254 7.9254 7.9254 599.72 0.000 Error 29 0.3832 0.3832 0.0132 Total 30 8.3087 Source DF Seq SS Adj SS Adj MS F P LDIAM 1 7.9254 4.6275 4.6275 698.63 0.000 LHEIGHT 1 0.1978 0.1978 0.1978 29.86 0.000 Error 28 0.1855 0.1855 0.0066 Total 30 8.3087

  23. Using more than one explanatory variable Geometry in 3-D

  24. Using more than one explanatory variable Geometry in 3-D Source DF Seq SS Adj SS Adj MS F P LHGT 1 3.5042 0.1987 0.1987 30.14 0.000 LDIAM 1 4.6234 4.6234 4.6234 701.33 0.000 Error 28 0.1846 0.1846 0.0066 Total 30 8.3122 Source DF Seq SS Adj SS Adj MS F P LDIAM 1 7.9289 4.6234 4.6234 701.33 0.000 LHGT 1 0.1987 0.1987 0.1987 30.14 0.000 Error 28 0.1846 0.1846 0.0066 Total 30 8.3122

  25. Using more than one explanatory variable Geometry in 3-D

  26. Using more than one explanatory variable Geometry in 1-D

  27. Using more than one explanatory variable Last words… • Two or more x-variables are often useful and often necessary, and are easy to fit • Statistical elimination, Seq and Adj SS, plug-in parts • Two variables may duplicate each others’ information (right and left legs)... • ... or they may unmask it (poets’ dates) Next week: Designing experiments Read Chapter 5

More Related