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Compute p value.
p( z = NULL, t = NULL, f = NULL, r = NULL, chi2 = NULL, n = NULL, df = NULL, df1 = NULL, df2 = NULL, digits = 2 )p.z(z)p.t(t, df)p.f(f, df1, df2)p.r(r, n)p.chi2(chi2, df)
p.z(z)
p.t(t, df)
p.f(f, df1, df2)
p.r(r, n)
p.chi2(chi2, df)
p value statistics.
\(z\), \(t\), \(F\), \(r\), \(\chi^2\) value.
Sample size or degree of freedom.
Number of decimal places of output. Defaults to 2.
2
p.z(): Two-tailed p value of \(z\).
p.z()
p.t(): Two-tailed p value of \(t\).
p.t()
p.f(): One-tailed p value of \(F\). (Note: \(F\) test is one-tailed only.)
p.f()
p.r(): Two-tailed p value of \(r\).
p.r()
p.chi2(): One-tailed p value of \(\chi^2\). (Note: \(\chi^2\) test is one-tailed only.)
p.chi2()
p.z(1.96) p.t(2, 100) p.f(4, 1, 100) p.r(0.2, 100) p.chi2(3.84, 1) p(z=1.96) p(t=2, df=100) p(f=4, df1=1, df2=100) p(r=0.2, n=100) p(chi2=3.84, df=1)
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