Alleles Frequency
Humans typically have two alleles for each gene, one inherited from each parent. These alleles can be the same (homozygous) or different (heterozygous), and they determine various characteristics. However, for traits controlled by multiple genes, the total number of alleles can vary significantly. Overall, the combination of alleles contributes to the diversity of traits in individuals.
With 10 alleles, there can be 45 possible pair combinations (10 choose 2 = 45) if we are considering pairs of alleles. If we are looking at all possible combinations including single alleles, there would be 1+10+45 = 56 total outcomes.
Go to http://www.bloodbook.com/world-abo.html and figure it out, if you are desperate. Just keep in mind that the number of people in each country will affect the answer, so averaging will not work. The way to calculate the frequency of blood types is to find the numbers of each allele in your gene pool and divide each number by the total number of alleles. Multiply the decimal by 100 and you have a percent- your allele frequency.
One example of a gene with four alleles is the ABO blood group gene, which determines human blood types. The gene has three main alleles: A, B, and O, with the A and B alleles being co-dominant and the O allele being recessive. However, the presence of additional alleles, such as those associated with rare subtypes (like Ax or Ay), can extend the total number of recognized alleles for this gene. This genetic variability contributes to the diversity of blood types in the population.
The distribution of alleles in a population - APEX
the number of complications in a certain period divided by the total number of patients for the same period
Recombination frequency = (Recombinant offspring) / (Total offspring) i.e. the recombination frequency is calculated by taking the number of recombinant offspring and dividing it by the total number of offspring.
Total number of rooms revenue divided by number of rooms sold
Total number of sales divided by total number of hours.
18
The total number of homes watching the program divided by the total number of homes with a television.
Yes, if you divide 2322 by 6, you would get a quotient of 387. -------------------------------------------------------------------------------------------------- And this is how to discover whether it will divide by 6 (without actually doing it): If a number is even it will divide by 2. If you total the digits of the number which is to be divided and that total can be divided by 3, then the original number can also be divided by 3; so. if the number is even AND its digits total is divided by 3, then the original number (2322) can be divided by 2 x 3 = 6 ----------------------------------------------------------------------------------------------------- There are "shorthand" rules for division by all numbers from 0 to 12 (excluding number 7. For instance if the digits total is divisible by 8, then the original number is divisible by 9; so 4572639081 can be divided exactly by 9
the number divided by total number multiply with 360 number -----------------*360 total number eg; 30 ------*360 =180 60 ------ -----
True Cases divided by the total Number in the population.
With 10 alleles, there can be 45 possible pair combinations (10 choose 2 = 45) if we are considering pairs of alleles. If we are looking at all possible combinations including single alleles, there would be 1+10+45 = 56 total outcomes.
It represents the total number of outcomes of a trial divided by the highest common factor of the number of favourable outcomes and the total number of outcomes.
The probability of a result you want is (the total number of results that would satisfy you) divided by (the total number of all possible results).