false
Marine
Then you also have 13% cytosine, 37% guanine, and 37% adenine.
37°C 37°C this is body temperature. trypsin works in the duodenum during digestion at this optimun temperature.
37
The frequency of an allele is the total number of alleles of that type in a population where as genotype is the alleles present in all individuals in a population. The Hardy-Weinburg principle and its associated equations allow simple calculations of gene frequency. The basic equation is p+q=1: where p and q represent the dominant and recessive alleles. It is also simple to substitute the letters associated with the alleles you are dealing with for p and q. For example: If dealing green versus yellow where green is dominant and yellow is recessive green would be G and yellow would be g. Therefore G+g=1. In this example 40% of the population is yellow or 0.4. This means that g2 = 0.4 and this makes g = 0.63 (rounded off). Therefore 63 percent of the alleles for this trait are for yellow and 37 percent of the alleles in the population are for green. Since G+g=1 we know that 1.0-0.63=0.37 which is G. So 40 percent of the population is gg, it's genotype, but the frequency of the g allele is 63 percent' Likewise 60 percent of the population is GG or Gg but the frequency of G is 37 percent. There is a secondary equation that allows the calculation of percentages of GG and Gg as well with GG at 13.7% of the population and Gg at approximately 46.6% of the population. gg would be at 39.7%
37 going on 38
37 percent.
37 percent in fraction = 37/10037% = 37%/100% = 37/100 in fraction
37.5 percent is larger than 37 percent.
8.5 percent of 37 = 3.145
53.65 is 37 percent of 145.
37% = 37/100
37% = 37/100
37 percent of 560 = 207.2 37% of 560 = 37% * 560 = 37%/100% * 560 = 2072/10 = 207.2
37 = 3,700%
37%37%
37 = 3700%
Expressed as a decimal, 37 percent is equal to 0.37. Expressed as a proper fraction in its simplest form, 37 percent is equal to 37/100 or thirty-seven hundredths.