A two-way analysis of variance is performed with balanced data discussed by Snedecor and Cochran (1967, Table 12.5.1, p. 347). The responses are the weight gains (in grams) of rats that were fed diets varying in the source (A) and level (B) of protein. The model is
where
and
The first responses in each cell in the two-way layout are given in the following table:
| Protein Source (A) | |||
| Protein Level (B) | Beef | Cereal | Pork |
| High | 73, 102, 118, 104, 81, 107, 100, 87, 117, 111 | 98, 74, 56, 111, 95, 88, 82, 77, 86, 92 | 94, 79, 96, 98, 102, 102, 108, 91, 120, 105 |
| Low | 90, 76, 90, 64, 86, 51, 72, 90, 95, 78 | 107, 95, 97, 80, 98, 74, 74, 67, 89, 58 | 49, 82, 73, 86, 81, 97, 106, 70, 61, 82 |
using System;
using Imsl.Stat;
using PrintMatrix = Imsl.Math.PrintMatrix;
public class ANOVAFactorialEx1
{
public static void Main(String[] args)
{
int nSubscripts = 3;
int[] nLevels = new int[]{3, 2, 10};
double[] y = new double[]{ 73.0, 102.0, 118.0,
104.0, 81.0, 107.0,
100.0, 87.0, 117.0,
111.0, 90.0, 76.0,
90.0, 64.0, 86.0,
51.0, 72.0, 90.0,
95.0, 78.0, 98.0,
74.0, 56.0, 111.0,
95.0, 88.0, 82.0,
77.0, 86.0, 92.0,
107.0, 95.0, 97.0,
80.0, 98.0, 74.0,
74.0, 67.0, 89.0,
58.0, 94.0, 79.0,
96.0, 98.0, 102.0,
102.0, 108.0, 91.0,
120.0, 105.0, 49.0,
82.0, 73.0, 86.0,
81.0, 97.0, 106.0,
70.0, 61.0, 82.0};
ANOVAFactorial af =
new ANOVAFactorial(nSubscripts, nLevels, y);
Console.Out.WriteLine
("P-value = " + af.Compute().ToString("0.000000"));
}
}
P-value = 0.002299Link to C# source.