c=frequency x wavelength
speed=frequency x wavelenth xD
period
To calculate cumulative frequency, you first need to have a frequency distribution table. Start by adding up the frequencies of the first category. Then, for each subsequent category, add the frequency to the cumulative frequency of the previous category. The final cumulative frequency will be the total number of observations in the data set.
To calculate the frequency density we will simply divide the frequency by the class width.
Yes, use the Hardy-Weinburg equilibrium equation.
Changes in allelic frequency can be driven by a variety of factors, including natural selection, genetic drift, gene flow, and mutation. Natural selection is a process where certain alleles provide a fitness advantage in a specific environment, leading to their increase in frequency over time. However, the relative contribution of natural selection to changes in allelic frequency can vary depending on the specific circumstances.
The allelic frequency in a population depends on factors such as mutation rates, genetic drift, gene flow, and natural selection. These factors influence the proportion of different alleles within a population over time.
Allelic frequency.
answer is 68
Allelic interaction refers to the interaction between two alleles of the same gene, while non-allelic interaction involves interactions between genes that are not alleles but are located on different loci in the genome. In allelic interactions, the alleles can be dominant or recessive to each other, while in non-allelic interactions, the genes may be involved in the same pathway or biological process.
p^2+2pq+q^2=1
You can calculate a wave's frequency by dividing the speed of the wave by its wavelength. The formula is: frequency = speed of wave / wavelength.
c=frequency x wavelength
An allelic dropout is a failure to determine an allele within a sample. This occurs when one or both allelic copies were not amplified during the polymerase chain reaction.
speed=frequency x wavelenth xD
period