The yellow pods make up 25%, the Green pods make up the other 75%.
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The primary colors- Blue, Red and Yellow :)
Use this formula - 100 * red / (blue+red+yellow).
well blue would b picked 65percent of the time an purple would be 25 and ten percent would be yellow
26 percent because 117 229 +104 _____ 450 ÷ 45 =10 x 10 =100 117 ÷ 45 =2.6 x 10 = 26 26 is = to 26% 100
25%
12.5
The parents were likely both heterozygous for seed color, with genotypes of Yy. This would result in a 3:1 phenotypic ratio of yellow to green seeds in the offspring, consistent with the observed 93:31 ratio.
This is a basic Mendel cross where the master himself found out that yellow was the dominant color to green. Many years later we found out that there is another gene involved and that the colors have to do with chlorophyll - not just color. If a pure green is crossed to a purebred yellow, then all the offspring will be yellow. However they do carry the green gene since if these yellow offspring are self-fertilized, they will produce the standard 3/4 yellow and 1/4 green phenotypes.
Tsgsd
Homozygous yellow peas have two identical alleles for yellow color (YY), while heterozygous yellow peas have one yellow allele and one non-yellow allele (Yy). This means that homozygous yellow peas will always produce yellow offspring when crossed, while heterozygous yellow peas have a 50% chance of producing non-yellow offspring when crossed with another heterozygous pea plant.
You may have a canary.
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Let Y represent the dominant allele, and yrepresent the recessive allele. Let us also assume that "pure" means homozygous for that trait ("pure' is not the usual term for this, "homozygous" is) So, the two genotypes of the parents of the cross are: Parent 1: YY Parent 2: yy To solve a problem like this, one always has to determine what kind(s) of gametes each parent can produce. Both parents are homozygous for their respective traits, so in this case, each parent can only produce one kind of gamete: Parent 1 can only produce Ygametes, and Parent 2 can only produce y gametes. Therefore, every one of their offspring will have the following genotype: Yy Since every one of the offspring of the cross carries a Y allele, and Y is dominant, all of the offspring will be yellow.
nope the purple eyed gold fish has been getting it on behind the yellow eyed gold fishes back
Some of the squirrelfish are carriers of a recessive gene that codes for a yellow color instead of red.
Some of the squirrelfish are carriers of a recessive gene that codes for a yellow color instead of red.