src/library/stats/man/t.test.Rd - R - Git at Google

 % File src/library/stats/man/t.test.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2019 R Core Team
 % Distributed under GPL 2 or later

 \name{t.test}
 \alias{t.test}
 \alias{t.test.default}
 \alias{t.test.formula}
 \title{Student's t-Test}
 \description{
   Performs one and two sample t-tests on vectors of data.
 }
 \usage{
 t.test(x, \dots)

 \method{t.test}{default}(x, y = NULL,
        alternative = c("two.sided", "less", "greater"),
        mu = 0, paired = FALSE, var.equal = FALSE,
        conf.level = 0.95, \dots)

 \method{t.test}{formula}(formula, data, subset, na.action, \dots)
 }
 \arguments{
   \item{x}{a (non-empty) numeric vector of data values.}
   \item{y}{an optional (non-empty) numeric vector of data values.}
   \item{alternative}{a character string specifying the alternative
     hypothesis, must be one of \code{"two.sided"} (default),
     \code{"greater"} or \code{"less"}.  You can specify just the initial
     letter.}
   \item{mu}{a number indicating the true value of the mean (or
     difference in means if you are performing a two sample test).}
   \item{paired}{a logical indicating whether you want a paired
     t-test.}
   \item{var.equal}{a logical variable indicating whether to treat the
     two variances as being equal. If \code{TRUE} then the pooled
     variance is used to estimate the variance otherwise the Welch
     (or Satterthwaite) approximation to the degrees of freedom is used.}
   \item{conf.level}{confidence level of the interval.}
   \item{formula}{a formula of the form \code{lhs ~ rhs} where \code{lhs}
     is a numeric variable giving the data values and \code{rhs} a factor
     with two levels giving the corresponding groups.}
   \item{data}{an optional matrix or data frame (or similar: see
     \code{\link{model.frame}}) containing the variables in the
     formula \code{formula}.  By default the variables are taken from
     \code{environment(formula)}.}
   \item{subset}{an optional vector specifying a subset of observations
     to be used.}
   \item{na.action}{a function which indicates what should happen when
     the data contain \code{NA}s.  Defaults to
     \code{getOption("na.action")}.}
   \item{\dots}{further arguments to be passed to or from methods.}
 }
 \details{
   The formula interface is only applicable for the 2-sample tests.

   \code{alternative = "greater"} is the alternative that \code{x} has a
   larger mean than \code{y}.

   If \code{paired} is \code{TRUE} then both \code{x} and \code{y} must
   be specified and they must be the same length.  Missing values are
   silently removed (in pairs if \code{paired} is \code{TRUE}).  If
   \code{var.equal} is \code{TRUE} then the pooled estimate of the
   variance is used.  By default, if \code{var.equal} is \code{FALSE}
   then the variance is estimated separately for both groups and the
   Welch modification to the degrees of freedom is used.

   If the input data are effectively constant (compared to the larger of the
   two means) an error is generated.
 }
 \value{
   A list with class \code{"htest"} containing the following components:
   \item{statistic}{the value of the t-statistic.}
   \item{parameter}{the degrees of freedom for the t-statistic.}
   \item{p.value}{the p-value for the test.}
   \item{conf.int}{a confidence interval for the mean appropriate to the
     specified alternative hypothesis.}
   \item{estimate}{the estimated mean or difference in means depending on
     whether it was a one-sample test or a two-sample test.}
   \item{null.value}{the specified hypothesized value of the mean or mean
     difference depending on whether it was a one-sample test or a
     two-sample test.}
   \item{stderr}{the standard error of the mean (difference), used as
     denominator in the t-statistic formula.}
   \item{alternative}{a character string describing the alternative
     hypothesis.}
   \item{method}{a character string indicating what type of t-test was
     performed.}
   \item{data.name}{a character string giving the name(s) of the data.}
 }
 \seealso{
   \code{\link{prop.test}}
 }
 \examples{
 require(graphics)

 t.test(1:10, y = c(7:20))      # P = .00001855
 t.test(1:10, y = c(7:20, 200)) # P = .1245    -- NOT significant anymore

 ## Classical example: Student's sleep data
 plot(extra ~ group, data = sleep)
 ## Traditional interface
 with(sleep, t.test(extra[group == 1], extra[group == 2]))
 ## Formula interface
 t.test(extra ~ group, data = sleep)
 }
 \keyword{htest}
	% File src/library/stats/man/t.test.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2019 R Core Team
	% Distributed under GPL 2 or later

	\name{t.test}
	\alias{t.test}
	\alias{t.test.default}
	\alias{t.test.formula}
	\title{Student's t-Test}
	\description{
	Performs one and two sample t-tests on vectors of data.
	}
	\usage{
	t.test(x, \dots)

	\method{t.test}{default}(x, y = NULL,
	alternative = c("two.sided", "less", "greater"),
	mu = 0, paired = FALSE, var.equal = FALSE,
	conf.level = 0.95, \dots)

	\method{t.test}{formula}(formula, data, subset, na.action, \dots)
	}
	\arguments{
	\item{x}{a (non-empty) numeric vector of data values.}
	\item{y}{an optional (non-empty) numeric vector of data values.}
	\item{alternative}{a character string specifying the alternative
	hypothesis, must be one of \code{"two.sided"} (default),
	\code{"greater"} or \code{"less"}. You can specify just the initial
	letter.}
	\item{mu}{a number indicating the true value of the mean (or
	difference in means if you are performing a two sample test).}
	\item{paired}{a logical indicating whether you want a paired
	t-test.}
	\item{var.equal}{a logical variable indicating whether to treat the
	two variances as being equal. If \code{TRUE} then the pooled
	variance is used to estimate the variance otherwise the Welch
	(or Satterthwaite) approximation to the degrees of freedom is used.}
	\item{conf.level}{confidence level of the interval.}
	\item{formula}{a formula of the form \code{lhs ~ rhs} where \code{lhs}
	is a numeric variable giving the data values and \code{rhs} a factor
	with two levels giving the corresponding groups.}
	\item{data}{an optional matrix or data frame (or similar: see
	\code{\link{model.frame}}) containing the variables in the
	formula \code{formula}. By default the variables are taken from
	\code{environment(formula)}.}
	\item{subset}{an optional vector specifying a subset of observations
	to be used.}
	\item{na.action}{a function which indicates what should happen when
	the data contain \code{NA}s. Defaults to
	\code{getOption("na.action")}.}
	\item{\dots}{further arguments to be passed to or from methods.}
	}
	\details{
	The formula interface is only applicable for the 2-sample tests.

	\code{alternative = "greater"} is the alternative that \code{x} has a
	larger mean than \code{y}.

	If \code{paired} is \code{TRUE} then both \code{x} and \code{y} must
	be specified and they must be the same length. Missing values are
	silently removed (in pairs if \code{paired} is \code{TRUE}). If
	\code{var.equal} is \code{TRUE} then the pooled estimate of the
	variance is used. By default, if \code{var.equal} is \code{FALSE}
	then the variance is estimated separately for both groups and the
	Welch modification to the degrees of freedom is used.

	If the input data are effectively constant (compared to the larger of the
	two means) an error is generated.
	}
	\value{
	A list with class \code{"htest"} containing the following components:
	\item{statistic}{the value of the t-statistic.}
	\item{parameter}{the degrees of freedom for the t-statistic.}
	\item{p.value}{the p-value for the test.}
	\item{conf.int}{a confidence interval for the mean appropriate to the
	specified alternative hypothesis.}
	\item{estimate}{the estimated mean or difference in means depending on
	whether it was a one-sample test or a two-sample test.}
	\item{null.value}{the specified hypothesized value of the mean or mean
	difference depending on whether it was a one-sample test or a
	two-sample test.}
	\item{stderr}{the standard error of the mean (difference), used as
	denominator in the t-statistic formula.}
	\item{alternative}{a character string describing the alternative
	hypothesis.}
	\item{method}{a character string indicating what type of t-test was
	performed.}
	\item{data.name}{a character string giving the name(s) of the data.}
	}
	\seealso{
	\code{\link{prop.test}}
	}
	\examples{
	require(graphics)

	t.test(1:10, y = c(7:20)) # P = .00001855
	t.test(1:10, y = c(7:20, 200)) # P = .1245 -- NOT significant anymore

	## Classical example: Student's sleep data
	plot(extra ~ group, data = sleep)
	## Traditional interface
	with(sleep, t.test(extra[group == 1], extra[group == 2]))
	## Formula interface
	t.test(extra ~ group, data = sleep)
	}
	\keyword{htest}