power.prop.test {stats} | R Documentation |
Compute the power of the two-sample test for proportions, or determine parameters to obtain a target power.
power.prop.test(n = NULL, p1 = NULL, p2 = NULL, sig.level = 0.05, power = NULL, alternative = c("two.sided", "one.sided"), strict = FALSE, tol = .Machine$double.eps^0.25)
n |
number of observations (per group) |
p1 |
probability in one group |
p2 |
probability in other group |
sig.level |
significance level (Type I error probability) |
power |
power of test (1 minus Type II error probability) |
alternative |
one- or two-sided test. Can be abbreviated. |
strict |
use strict interpretation in two-sided case |
tol |
numerical tolerance used in root finding, the default providing (at least) four significant digits. |
Exactly one of the parameters n
, p1
, p2
,
power
, and sig.level
must be passed as NULL, and that
parameter is determined from the others. Notice that sig.level
has a non-NULL default so NULL
must be explicitly passed if you
want it computed.
If strict = TRUE
is used, the power will include the probability of
rejection in the opposite direction of the true effect, in the two-sided
case. Without this the power will be half the significance level if the
true difference is zero.
Note that not all conditions can be satisfied, e.g., for
power.prop.test(n=30, p1=0.90, p2=NULL, power=0.8, strict=TRUE)
there is no proportion p2
between p1 = 0.9
and 1, as
you'd need a sample size of at least n = 74 to yield the
desired power for (p1,p2) = (0.9, 1).
For these impossible conditions, currently a warning
(warning
) is signalled which may become an error
(stop
) in the future.
Object of class "power.htest"
, a list of the arguments
(including the computed one) augmented with method
and
note
elements.
uniroot
is used to solve power equation for unknowns, so
you may see errors from it, notably about inability to bracket the
root when invalid arguments are given. If one of p1
and
p2
is computed, then p1 < p2 is assumed and will hold,
but if you specify both, p2 <= p1 is allowed.
Peter Dalgaard. Based on previous work by Claus Ekstrøm
power.prop.test(n = 50, p1 = .50, p2 = .75) ## => power = 0.740 power.prop.test(p1 = .50, p2 = .75, power = .90) ## => n = 76.7 power.prop.test(n = 50, p1 = .5, power = .90) ## => p2 = 0.8026 power.prop.test(n = 50, p1 = .5, p2 = 0.9, power = .90, sig.level=NULL) ## => sig.l = 0.00131 power.prop.test(p1 = .5, p2 = 0.501, sig.level=.001, power=0.90) ## => n = 10451937 try( power.prop.test(n=30, p1=0.90, p2=NULL, power=0.8) ) # a warning (which may become an error) ## Reason: power.prop.test( p1=0.90, p2= 1.0, power=0.8) ##-> n = 73.37