Resource assessment exercises: required sample size determination
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- This article is part of the Resource assessment exercises. See the category page for a (chronological) table of contents.
Previously we took a sample S of size \(n=50\).
S ## [1] 22 8 18 43 21 44 17 25 32 10 11 17 9 10 56 14 14 10 20 8 37 14 55 29 33 ## [26] 17 10 15 29 8 21 9 9 24 21 28 19 58 16 16 15 20 5 9 14 30 11 9 12 27
The width of the confidence interval was,
sd(S)/sqrt(n) * qt(0.975, n - 1) * 2 ## [1] 7.364
Suppose a confidence interval of \(A=3\) cm is desired. How large should the sample size, \(n\), be? This can be estimated,
| $A=t_{\alpha,n-1}\frac{s}{\sqrt{n} }\rightarrow n=\frac{t_{\alpha, n-1}^2s^2}{A^2}$ | 1 |
We will use the sample S (\(n=50\)) to estimate how many observations we need in our sample.
In R:
half.A <- 1.5 req.n <- (qt(0.975, n - 1)^2 * var(S))/half.A^2 req.n ## [1] 301.2
We always need to round up!
req.n <- ceiling(req.n)
What the function ceiling()does- The function
ceiling()ceiling takes a single numeric argumentxand returns a numeric vector containing the smallest integers not less than the corresponding elements ofxE.g., 4.3 becomes 5. See alsoround().
We estimate the width of the confidence interval using the new sample size of \(n=302\).
s.req.n <- sample(trees$dbh, req.n) sd(s.req.n)/sqrt(req.n) * qt(0.975, req.n - 1) * 2 ## [1] 2.759
Related articles
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