# NOT RUN {
## defining the range of n and theta to be evaluated
psi <- powPar(theta = seq(from = 0.5, to = 1.5, by = 0.1),
n = seq(from = 20, to = 60, by = 2),
muA = 0,
muB = 1)
## defining a power-function
powFun <- function(psi){
power.t.test(n = n(psi)/2,
delta = pp(psi, "muA") - pp(psi, "muB"),
sd = theta(psi)
)$power
}
## evaluating the power-function for all combinations of n and theta
calc <- powCalc(psi, powFun)
## adding example at theta of 1 and power of 0.9
pow <- powEx(calc, theta = 1, power = 0.9)
## drawing the power plot with 3 contour lines
plot(pow,
xlab = "Standard Deviation",
ylab = "Total Sample Size",
at = c(0.85, 0.9, 0.95))
## changing the estimation method
pow2 <- powEx(calc, theta = 1, power = 0.9, method = "lm")
## drawing an inspection plot
inspect(pow2)
# }
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