5. In a field experiment on sorghum, the plots were each divided into two equal parts....

Write out the ANOVA shell (sources of variability & degrees of freedom) for each of the...

Write out the ANOVA shell (sources of variability & degrees of freedom) for each of the following experiments described below. Identify all factors in the ANOVA that should be treated as random in the analysis. A split-plot experiment has a 2X3 factorial whole-plot treatment structure where treatment factor A has 2 levels and treatment factor B has 3 levels. Each combination of A & B was randomly assigned to 5 different whole plots in a CRD for a total of...

You are conducting an experiment to determine whether herbicides that are being used to control invasive...

You are conducting an experiment to determine whether herbicides that are being used to control invasive weeds have negative side effects on native beetles. For your experiment, you divide a field filled with invasive weeds into two halves and apply herbicide to one of the halves. You then randomly place 10 4x4 m plots in each half of the field and sample each plot to determine beetle density. You determine that there are significantly fewer beetles in the half of...

The foundation of experimental design comes from agriculture. Here is a typical experiment. You want to...

The foundation of experimental design comes from agriculture. Here is a typical experiment. You want to study the effect of two fertilizers, sulfate of ammonia and superphosphate, on the yield of Brussels sprouts. Each fertilizer is used at four levels: 0, 30, 60, and 90 pounds per acre. a/ Describe the response variable b/ Describe the treatments. How many levels for each treatment? c/ List a complete set of treatment combinations. Arrange your list in table form d/ Suppose you...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random sample of years, the annual wheat straw production (in pounds) from one plot was as follows. 5.77 5.77 5.84 5.70 7.31 7.18 7.06 5.79 6.24 5.91 6.14 Use a calculator to verify that, for this plot, the sample variance is s2 ≈ 0.392. Another random sample of years for a second plot gave the following annual wheat production (in pounds). 5.84 6.61 7.52 7.10...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random sample of years, the annual wheat straw production (in pounds) from one plot was as follows. 6.75 6.26 6.96 5.77 7.31 7.18 7.06 5.79 6.24 5.91 6.14 Use a calculator to verify that, for this plot, the sample variance is s2 ≈ 0.334. Another random sample of years for a second plot gave the following annual wheat production (in pounds). 8.15 5.91 6.19 7.10...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random sample of years, the annual wheat straw production (in pounds) from one plot was as follows. 6.54 6.12 6.40 6.47 7.31 7.18 7.06 5.79 6.24 5.91 6.14 Use a calculator to verify that, for this plot, the sample variance is s2 ≈ 0.263. Another random sample of years for a second plot gave the following annual wheat production (in pounds). 6.75 7.66 6.61 7.17...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random sample of years, the annual wheat straw production (in pounds) from one plot was as follows. 6.61 6.40 5.84 6.82 7.31 7.18 7.06 5.79 6.24 5.91 6.14 Use a calculator to verify that, for this plot, the sample variance is s2 ≈ 0.304. Another random sample of years for a second plot gave the following annual wheat production (in pounds). 7.87 5.70 7.24 5.98...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random sample of years, the annual wheat straw production (in pounds) from one plot was as follows. 6.61 6.40 5.84 6.82 7.31 7.18 7.06 5.79 6.24 5.91 6.14 Use a calculator to verify that, for this plot, the sample variance is s2 ≈ 0.304. Another random sample of years for a second plot gave the following annual wheat production (in pounds). 7.87 5.70 7.24 5.98...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random sample of years, the annual wheat straw production (in pounds) from one plot was as follows. 6.96 7.10 5.84 5.91 7.31 7.18 7.06 5.79 6.24 5.91 6.14 Use a calculator to verify that, for this plot, the sample variance is s2 ≈ 0.384. Another random sample of years for a second plot gave the following annual wheat production (in pounds). 5.91 5.91 5.91 5.91...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random...

Two plots at Rothamsted Experimental Station were studied for production of wheat straw. For a random sample of years, the annual wheat straw production (in pounds) from one plot was as follows. 6.54 7.17 5.91 7.10 7.31 7.18 7.06 5.79 6.24 5.91 6.14 Use a calculator to verify that, for this plot, the sample variance is s2 ≈ 0.357. Another random sample of years for a second plot gave the following annual wheat production (in pounds). 6.12 6.89 6.61 8.15...