HP 48gII hp 48gII_user's manual_English_E_HDPMSG48E67_V2.pdf - Page 607

Rejecting a true hypothesis, Pr[Type I error] = Pr[T∈R|H0] = α Not rejecting a false hypothesis, Pr[Type II error] = Pr[T∈A|H1] = β Now, let's consider the cases in which we make the correct decision: Not rejecting a true hypothesis, Pr[Not(Type I error)] = Pr[T∈A|H0] = 1 - α Rejecting a false hypothesis, Pr[Not(Type II error)] = Pr [T∈R|H1] = 1 - β The complement of β is called the power of the test of the null hypothesis H0 vs. the alternative H1. The power of a test is used, for example, to determine a minimum sample size to restrict errors. Selecting values of α and β A typical value of the level of significance (or probability of Type I error) is α = 0.05, (i.e., incorrect rejection once in 20 times on the average). If the consequences of a Type I error are more serious, choose smaller values of α, say 0.01 or even 0.001. The value of β, i.e., the probability of making an error of Type II, depends on α, the sample size n, and on the true value of the parameter tested. Thus, the value of β is determined after the hypothesis testing is performed. It is customary to draw graphs showing β, or the power of the test (1- β), as a function of the true value of the parameter tested. These graphs are called operating characteristic curves or power function curves, respectively. Inferences concerning one mean Two-sided hypothesis The problem consists in testing the null hypothesis Ho: µ = µo, against the alternative hypothesis, H1 at a level of confidence (1-α)100%, or significance level α, using a sample of size n with a mean x and a standard deviation s. This test is referred to as a two-sided or two-tailed test. The procedure for the test is as follows: Page 18-36