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Create an F distribution
FisherF(df1, df2, lambda = 0)
Numerator degrees of freedom. Can be any positive number.
Denominator degrees of freedom. Can be any positive number.
Non-centrality parameter. Can be any positive number. Defaults to 0.
0
A FisherF object.
FisherF
We recommend reading this documentation on https://alexpghayes.github.io/distributions3/, where the math will render with additional detail.
TODO
Other continuous distributions: Beta(), Cauchy(), ChiSquare(), Erlang(), Exponential(), Frechet(), GEV(), GP(), Gamma(), Gumbel(), LogNormal(), Logistic(), Normal(), RevWeibull(), StudentsT(), Tukey(), Uniform(), Weibull()
Beta()
Cauchy()
ChiSquare()
Erlang()
Exponential()
Frechet()
GEV()
GP()
Gamma()
Gumbel()
LogNormal()
Logistic()
Normal()
RevWeibull()
StudentsT()
Tukey()
Uniform()
Weibull()
# NOT RUN { set.seed(27) X <- FisherF(5, 10, 0.2) X random(X, 10) pdf(X, 2) log_pdf(X, 2) cdf(X, 4) quantile(X, 0.7) cdf(X, quantile(X, 0.7)) quantile(X, cdf(X, 7)) # }
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