by using the capture-recapture method which gives you the total size of organisms in a population.
Count up the number of obseravtions made on the experimental units. That is the sample size.
I believe you want the equation to calculate the standard deviation of a sample. The equation is: s = square root[ sum from i =1 to n of (xi- xbar)/(n-1)] where xbar is the average of values of the sample and n = size of sample.
Density of a substance = (mass of a sample of the substance) divided by (volume of the same sample)
yes
he was the one who introduced the slovin's formula, the estimated sample size given the population size and margin of error
Slovin's formula is used to calculate the sample size (n) given the population size (N)and a margin of error (e). It is computed as n = N / (1+Ne2).
Count up the number of obseravtions made on the experimental units. That is the sample size.
I believe you want the equation to calculate the standard deviation of a sample. The equation is: s = square root[ sum from i =1 to n of (xi- xbar)/(n-1)] where xbar is the average of values of the sample and n = size of sample.
Density of a substance = (mass of a sample of the substance) divided by (volume of the same sample)
yes
sample area/standard area*standard weight/sample weight*standard purity/100*100
Standard error of the sample mean is calculated dividing the the sample estimate of population standard deviation ("sample standard deviation") by the square root of sample size.
A sample size of one is sufficient to enable you to calculate a statistic.The sample size required for a "good" statistical estimate will depend on the variability of the characteristic being studied as well as the accuracy required in the result. A rare characteristic will require a large sample. A high degree of accuracy will also require a large sample.
he was the one who introduced the slovin's formula, the estimated sample size given the population size and margin of error
n=N/1+Ne2 sample size= population size/ 1+ population size* (error margin)2
It is the number of elements in the sample. By contrast, the relative sample size is the absolute sample size divided by the population size.
grain size analysis is used to accertain the various sizes that are available in a particular sample of soil since it is required to calculate the strenght of concrete mix and also the king of soil that the sample is.