To calculate restaurant funds based population size you will have to do keep a few things in mind. Figure out what you think you should be making daily, monthly and yearly. It can also be based on the number of seating places in your restaurant then chart all your estimates and it should help you with the business.
Allele frequency.
FREQUENCY(data_array, bins_array). See related links for details and examples.
How many alleles for black fur are in the sample population and what percentage of allele frequency does that reprent?Read more: How_many_alleles_for_black_fur_are_in_the_sample_population_and_what_percentage_of_allele_frequency_does_that_reprent
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Yes, use the Hardy-Weinburg equilibrium equation.
Relative frequency is a method of calculating the frequency of an event. Percentage frequency is a way of presenting the frequency of an event.
Cumulative percentage is another way of expressing frequency distribution. It calculates the percentage of the cumulative frequency within each interval, much as relative frequency distribution calculates the percentage of frequency.
A frequency count is a measure of the number of times that an event occurs. To compute relative frequency, one obtains a frequency count for the total population and a frequency count for a subgroup of the population. ... Thus, a relative frequency of 0.50 is equivalent to a percentage of 50%. 0.60 or 60 percent.
You find the total of all the frequencies, N. Then the percentage for any frequency is 100*frequency/N.
c=frequency x wavelength
Wavelength = (speed of the wave) divided by (frequency)
There are several ways to calculate the frequency of light emitted or absorbed by different chemicals, and they depend on what you already know. For example, if you know the energy of the particle, then you can calculate frequency from E = planck's constant x frequency and solve for frequency. If you happen to know the wavelength, then you can use C = wavelength x frequency and solve for frequency (where C = speed of light).