Based on the following tables, identify the test, interpret the results and report them in an academic style. You do not need to interpret the assumptions.

Variables Entered/Removeda Variables Variables ANOVA Sum of Model Entered Removed Method Model Squares df Mean Square Sig. Regression 853.859 853.859 1418.075 000 Weight in Enter Residual 234.829 390 .602 100 Ibp Total 1088.688 391 2 Regression 863.735 2 431.868 746.807 .OOO 2 Seconds to Enter Residual 224.953 389 .578 Total 1088.688 391 reach to 3 Regression 889.764 296.588 578.492 .0ood speed 60 Residual 198.924 388 .513 Total 1088.688 391 from Ob Regression 893.674 223.418 443.367 000 Residual 195.014 387 .504 3 Horse Enter Total 1088.688 391 Power of a. Dependent Variable: GallonsPer100Miles b. Predictors: (Constant), Weight in 100 lb the Engineb c. Predictors: (Constant), Weight in 100 lb, Seconds to reach to speed 60 from 0 d. Predictors: (Constant), Weight in 100 lb, Seconds to reach to speed 60 from 0, 4 Number of Enter Horse Power of the Engine e. Predictors: (Constant), Weight in 100 lb, Seconds to reach to speed 60 from 0, cylindersb Horse Power of the Engine, Number of cylinders Model Summary Change Statistics Adjusted R Std. Error of R Square Model R R Square Square the Estimate Change F Change dfl df2 Sig. F Change 886 784 784 77597 .784 1418.075 390 000 891 793 792 .76045 009 17.078 389 .000 3 904 817 816 .71603 024 50.768 388 000 906 .821 .819 .70987 .004 7.759 1 387 .006 a. Predictors: (Constant), Weight in 100 lb b. Predictors: (Constant), Weight in 100 lb, Seconds to reach to speed 60 from 0 C. Predictors: (Constant), Weight in 100 lb, Seconds to reach to speed 60 from 0, Horse Power of the Engine d. Predictors: (Constant), Weight in 100 lb, Seconds to reach to speed 60 from 0, Horse Power of the Engine, Number of cylinders e. Dependent Variable: GallonsPer100MilesCoefficients Standardized 95.0% Confidence Interval for Unstandardized Coefficients Coefficients Correlations Collinearity Statistics Model B Std. Error Beta Sig. Lower Bound Upper Bound Zero-order Partial Part Tolerance VIF 1 (Constant) -.396 143 -2.766 006 -.677 -.114 Weight in 100 lb 1.740 .046 886 37.657 .000 1.649 1.831 886 .886 886 1.000 1.000 2 (Constant) .845 331 2.550 .011 .193 1.496 Weight in 100 lb 1.654 .050 842 33.206 .000 1.556 1.752 .886 .860 .765 .826 1.210 Seconds to reach to -.063 015 -.105 -4.133 speed 60 from 0 .000 -.094 -.033 -.456 -.205 -.095 .826 1.210 3 (Constant) -1.009 .406 -2.484 .013 -1.808 -.211 Weight in 100 lb 1.046 097 532 10.735 .000 854 1.237 886 479 .233 .192 5.221 Seconds to reach to .043 021 072 2.082 .038 002 speed 60 from 0 .084 -.456 .105 .045 .398 2.512 Horse Power of the 1.921 270 .443 7.125 .000 1.391 Engine 2.452 .854 .340 .155 .122 8.216 (Constant) -1.219 410 -2.976 .003 -2.025 -.414 Weight in 100 lb .834 123 425 6.790 .000 .593 1.076 886 .326 146 118 8.449 Seconds to reach to .053 .021 .087 2.527 speed 60 from 0 .012 012 .094 -.456 .127 .054 .388 2.580 Horse Power of the 1.844 .269 Engine .425 6.859 .000 1.315 2.372 .854 .329 148 .120 8.305 Number of cylinders .141 .051 .145 2.786 .006 .042 .241 .840 .140 .060 .172 5.816 a. Dependent Variable: GallonsPer 100Miles