See - Liu, B.H. 1998. Statistical Genomics: Linkage, Mapping, and QTL Analysis. pgs 145-146.
See Hanson, W.D. 1959. Agron. J.51:711-715. To distinguish between two segregation ratios which are x:1 and y:1 and observed frequencies of the two classes are a and b. Use the formula:
To distinguish a 3:1 ratio from a 9:7 ratio with a = 0.05,
then X20.05, 1 = 3.84 and x:1 = 3/1, y:1 = 9/7:1.
(3/4)/(1/4) = x/1 
1/4(x) = 3/4 x = 3/1
also
(9/16)/(7/16) = y/1 (7/16)y = (9/16)y = 9/7
Now
n = 94.3
Also
Let a = # of dominant phenotypes
Let b = # of recessive phenotypes
To distinguish between two segregation ratios.
a + b = 62.5 + 31.8 = 94.3 = n
About 95 individuals are needed to distinguish between a 3:1 versus 9:7 ratio. If the observed number of recessives phenotypes is greater than 32, the data will support the 9:7 ratio. If b < 32, then the data will support a 3:1 ratio.
| 9:7 hypothesis | 3:1 hypothesis | ||||
| class | dominant | recessive | total | dominant | recessive |
| observed | 62 | 33 | 95 | 64 | 31 |
| expected | 53.44 | 41.56 | 95 | 71.25 | 23.75 |
| X2 = 1.37 + 1.76 X  = 3.13X accept 9:7 |
X2 = 0.738 + 2.21 |
||||
| 9:7 hypothesis | 3:1 hypothesis | ||||
| class | dominant | recessive | total | dominant | recessive |
| observed | 64 | 31 | 95 | 62 | 33 |
| expected | 53.44 | 41.56 | 95 | 71.25 | 23.75 |
| X2 = 2.087 + 2.683 X = 4.77X reject 9:7 |
X2 = 1.201 + 3.603 |
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These results confirm that we would accept 9:7 ratio when we have more than 32 recessives and reject 9:7 ratio when we have fewer than 32 recessives and n = 95.