T test

Evaluación | Biopsicología | Comparativo | Cognitivo | Del desarrollo | Idioma | Diferencias individuales | Personalidad | Filosofía | Social | Métodos | Estadística | Clínico | Educativo | Industrial | Artículos profesionales | Psicología mundial | Estadística: Método científico · Métodos de búsqueda · Diseño experimental · cursos de pregrado de estadistica · Pruebas estadísticas · Teoría de juego · Decision theory A t test is any statistical hypothesis test in which the test statistic has a Student's t distribution if the null hypothesis is true. Contents 1 Historia 2 Usar 3 Assumptions 3.1 Determining type 4 Cálculos 4.1 Independent t-test 4.1.1 Equal sample sizes 4.1.2 Unequal sample sizes 4.2 Dependent t-test 4.3 Ejemplo 5 Alternatives to the t test 6 Implementations 7 Fuentes 8 Ver también 9 External links History The t statistic was introduced by William Sealy Gosset for cheaply monitoring the quality of beer brews. "Student" was his pen name. Gosset was a statistician for the Guinness brewery in Dublin, Irlanda, and was hired due to Claude Guinness's innovative policy of recruiting the best graduates from Oxford and Cambridge to apply biochemistry and statistics to Guinness' industrial processes. Gosset published the t test in Biometrika in 1908, but was forced to use a pen name by his employer who regarded the fact that they were using statistics as a trade secret. En realidad, Gosset's identity was unknown not only to fellow statisticians but to his employerthe company insisted on the pseudonym so that it could turn a blind eye to the breach of its rules. Today, it is more generally applied to the confidence that can be placed in judgments made from small samples. Use Among the most frequently used t tests are: A test of the null hypothesis that the means of two normally distributed populations are equal. Given two data sets, each characterized by its mean, standard deviation and number of data points, we can use some kind of t test to determine whether the means are distinct, provided that the underlying distributions can be assumed to be normal. All such tests are usually called Student's t tests, though strictly speaking that name should only be used if the variances of the two populations are also assumed to be equal; the form of the test used when this assumption is dropped is sometimes called Welch's t test. There are different versions of the t test depending on whether the two samples are independent of each other (p. ej.., individuals randomly assigned into two groups), or paired, so that each member of one sample has a unique relationship with a particular member of the other sample (p. ej.., the same people measured before and after an intervention, or IQ test scores of a husband and wife). If the t value that is calculated is above the threshold chosen for statistical significance (usually the 0.05 nivel), then the null hypothesis that the two groups do not differ is rejected in favor of an alternative hypothesis, which typically states that the groups do differ. A test of whether the mean of a normally distributed population has a value specified in a null hypothesis. A test of whether the slope of a regression line differs significantly from 0. Once a t value is determined, a P value can be found using a table of values from Student's t-distribution. Assumptions normal distribution of data, tested by using either the Shapiro-Wilk or Kolmogorov-Smirnov test. equality of variances, tested by using either the F test, the more robust Levene's test, Bartlett's test, or the Brown and Forsythe test, or the O'Brien test Samples may be independent or dependent, depending on the hypothesis and the type of samples: Independent samples are usually two randomly selected groups Dependent samples are either two groups matched on some variable (por ejemplo, edad) or are the same people being tested twice (called repeated measures) It may be statistically conservative not to make the assumption of equality of sample variances.[Cómo hacer referencia y vincular a un resumen o texto] Modern statistical packages make the test equally easy to do with or without it. Since all calculations are done subject to the null hypothesis, it may be very difficult to come up with a reasonable null hypothesis that accounts for equal means in the presence of unequal variances. In the usual case, the null hypothesis is that the different treatments have no effectthis makes unequal variances untenable. En este caso, one should forgo the ease of using this variant afforded by the statistical packages. See also Behrens-Fisher problem. Determining type For novices, the most difficult issue is often whether the samples are independent or dependent. Independent samples typically consist of two groups with no relationship. Dependent samples typically consist of a matched sample (o un "paired" sample) or one group that has been tested twice (repeated measures).  Dependent t-tests are also used for matched-paired samples, where two groups are matched on a particular variable. Por ejemplo, if we examined the heights of men and women in a relationship, the two groups are matched on relationship status. This would call for a dependent t-test because it is a paired sample (one man paired with one woman). Alternativamente, we might recruit 100 men and 100 mujeres, with no relationship between any particular man and any particular woman; in this case we would use an independent samples test. Another example of a matched sample would be to take two groups of students, match each student in one group with a student in the other group based on an achievement test result, then examine how much each student reads. An example pair might be two students that score 90 y 91 or two students that scored 45 y 40 on the same test. The hypothesis would be that students that did well on the test may or may not read more. Alternativamente, we might recruit students with low scores and students with high scores in two groups and assess their reading amounts independently. An example of a repeated measures t-test would be if one group were pre- and post-tested. (This example occurs in education quite frequently.) If a teacher wanted to examine the effect of a new set of textbooks on student achievement, (s)he could test the class at the beginning of the year (pretest) and at the end of the year (posttest). A dependent t-test would be used, treating the pretest and posttest as matched variables (matched by student).  Calculations Independent t-test Equal sample sizes This equation is only used when the two sample sizes (Es decir, the n or number of participants of each group) are equal. Where s is the grand standard deviation (or pooled sample standard deviation), 1 = group one, 2 = group two. The denominator is the standard error of the difference between two means. For significance testing, the degrees of freedom for this test is 2n− 2 where n = # of participants in each group. Unequal sample sizes This equation is only used when the two sample sizes are unequal. It is assumed that the two distributions have the same variance. (When this assumption is violated, see below.) The t statistic to test whether the means are different can be calculated as follows: Where s2 is the unbiased estimator of the variance, n = number of participants, 1 = group one, 2 = group two. n− 1 is the number of degrees of freedom for either group, and the total sample size minus 2 is the total number of degrees of freedom, which is used in significance testing. The statistical significance level associated with the t value calculated in this way is the probability that, under the null hypothesis of equal means, the absolute value of t could be that large or larger just by chance—en otras palabras, it's a two-tailed test, testing whether the means are different where either one or the other might be the larger one if they are different (see Press et al, 1999, p. 616).  Dependent t-test This equation is used when the samples are dependent; Es decir, when there is only one sample that has been tested twice (repeated measures) or when there are two samples that have been matched or "paired".  For this equation, the differences between all pairs must be calculated. The pairs are either one person's pretest and posttest scores or one person in a group matched to another person in another group (see table). The average (XD) and standard deviation (sD) of those differences are used in the equation. Example of repeated measures Number Name Test 1 Test 2 1 Mike 35% 67% 2 Melanie 50% 46% 3 Melissa 90% 86% 4 Mitchell 78% 90% Example of matched pairs Pair Name Age Test 1 Jon 35 250 1 Jane 36 340 2 Jimmy 22 460 2 Jessy 21 200 Example A random sample of screws have weights 30.02, 29.99, 30.11, 29.97, 30.01, 29.99 Calculate a 95% confidence interval for the population's mean weight. Assume the population is distributed as N(μ, σ2).  The samples' mean weight is 30.015 with standard deviation of 0.0497. With the mean and the first five weights it is possible to calculate the sixth weight. Consequently there are five degrees of freedom. Alternatives to the t test Recall that the t test can be used to test the equality of the means of two normal populations with unknown, but equal, variance. To relax the normality assumption, a non-parametric alternative to the t test can be used, and the usual choices are: for independent samples, the Mann-Whitney U test for related samples, either the binomial test or the Wilcoxon signed-rank test To test the equality of the means of more than two normal populations, an Analysis of Variance can be performed To test the equality of the means of two normal populations with known variance, a Z-test can be performed Implementations ALGLIB includes implementation of the Student's t-test in C++, C#, Delphi, Visual Basic. Sources O'Mahony, Miguel (1986). Sensory Evaluation of Food: Statistical Methods and Procedures, 487, Prensa CRC. Prensa, William H.; Saul A. Teukolsky, William T. Vetterling, Brian P. Flannery (1992). Numerical Recipes in C: The Art of Scientific Computing, p. 616, Cambridge University Press. See also Central tendency measures Parametric statistical tests Statistical significance Statistical hypothesis testing External links A conceptual article on the Student's t-test

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