One-Sample Tests of Hypothesis Chapter 10 McGraw-Hill/Irwin Copyright © 2013 by The McGraw-Hill Companies, Inc. All rights reserved.

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One-Sample Tests of Hypothesis Chapter 10 McGraw-Hill/Irwin Copyright © 2013 by The McGraw-Hill Companies, Inc. All rights reserved.

LEARNING OBJECTIVES LO 10-1 Define a hypothesis. LO 10-2 Explain the five-step hypothesis-testing procedure. LO 10-3 Define Type I and Type II errors. LO 10-4 Define the term test statistic and explain how it is used. LO 10-5 Distinguish between a one-tailed and a two-tailed hypothesis. LO 10-6 Conduct a test of hypothesis about a population mean. LO 10-7 Compute and interpret a p-value. LO 10-8 Conduct a test of hypothesis about a population proportion. 10-2

Hypothesis and Hypothesis Testing HYPOTHESIS A statement about the value of a population parameter developed for the purpose of testing. HYPOTHESIS TESTING A procedure based on sample evidence and probability theory to determine whether the hypothesis is a reasonable statement. TEST STATISTIC A value, determined from sample information, used to determine whether to reject the null hypothesis. CRITICAL VALUE The dividing point between the region where the null hypothesis is rejected and the region where it is not rejected. LO 10-1 Define a hypothesis. LO 10-2 Explain the five-step hypothesis-testing procedure. LO 10-1 Define a hypothesis. LO 10-2 Explain the five-step hypothesis-testing procedure. 10-3

Decisions and Errors in Hypothesis Testing LO 10-3 Describe the Type I and Type II errors.  Type I Error Defined as the probability of rejecting the null hypothesis when it is actually true. This is denoted by the Greek letter .” Also known as the significance level of a test.  Type II Error Defined as the probability of failing to reject the null hypothesis when it is actually false. This is denoted by the Greek letter β. 10-4

Test Statistic versus Critical Value CRITICAL VALUE The dividing point between the region where the null hypothesis is rejected and the region where it is not rejected. TEST STATISTIC A value, determined from sample information, used to determine whether to reject the null hypothesis. Example: z, t, F,  2 LO 10-4 Define the term test statistics and explain how it is used. 10-5

Important Things to Remember about H 0 and H 1  H 0 : null hypothesis and H 1 : alternate hypothesis  H 0 and H 1 are mutually exclusive and collectively exhaustive  H 0 is always presumed to be true  H 1 has the burden of proof  A random sample (n) is used to “reject H 0 ”  If we conclude “do not reject H 0,” this does not necessarily mean that the null hypothesis is true, it only suggests that there is not sufficient evidence to reject H 0 ; rejecting the null hypothesis then suggests that the alternative hypothesis may be true.  Equality is always part of H 0 (e.g. “=”, “≥”, “≤”).  “≠”, “ ” are always part of H 1  In actual practice, the status quo is set up as H 0  If the claim is “boastful” the claim is set up as H 1 (we apply the Missouri rule – “show me”). Remember, H 1 has the burden of proof  In problem solving, look for key words and convert them into symbols. Some key words include: “improved, better than, as effective as, different from, has changed, etc.” Keywords Inequality Symbol Part of: Larger (or more) than>H1H1 Smaller (or less)<H1H1 No more than  H0H0 At least≥H0H0 Has increased>H1H1 Is there difference?≠H1H1 Has not changed=H0H0 Has “improved”, “is better than”. “is more effective” See left text H1H1 LO 10-5 Distinguish between a one- tailed and two-tailed hypothesis 10-6

Hypothesis Setups for Testing a Mean (  ) or a Proportion (  ) MEAN PROPORTION LO 10-6 Conduct a test of hypothesis about a population mean. 10-7

Testing for a Population Mean with a Known Population Standard Deviation – Example EXAMPLE Jamestown Steel Company manufactures and assembles desks and other office equipment. The weekly production of the Model A325 desk at the Fredonia Plant follows the normal probability distribution with a mean of 200 and a standard deviation of 16. Recently, new production methods have been introduced and new employees hired. The VP of manufacturing would like to investigate whether there has been a change in the weekly production of the Model A325 desk. A sample from last year’s weekly production yielded a mean number of desks produced of Test using 0.01 significance level. Step 1: State the null hypothesis and the alternate hypothesis. H 0 :  = 200 H 1 :  ≠ 200 (note: keyword in the problem “has changed”) Step 2: Select the level of significance. α = 0.01 as stated in the problem Step 3: Select the test statistic. Use z-distribution since σ is known Step 4: Formulate the decision rule. Reject H 0 if |Z| > Z  /2 Step 5: Make a decision and interpret the result. Because 1.55 does not fall in the rejection region, H 0 is not rejected. We conclude that the population mean is not different from 200. So we would report to the vice president of manufacturing that the sample evidence does not show that the production rate at the plant has changed from 200 per week. LO

Testing for a Population Mean with a Known Population Standard Deviation- Another Example Suppose in the previous problem the vice president wants to know whether there has been an increase in the number of units assembled. To put it another way, can we conclude, because of the improved production methods, that the mean number of desks assembled in the last 50 weeks was more than 200? Recall: σ=16, n=200, α=.01, sample mean =203.5 Step 1: State the null hypothesis and the alternate hypothesis. H 0 :  ≤ 200 H 1 :  > 200 (note: keyword in the problem “an increase”) Step 2: Select the level of significance. α = 0.01 as stated in the problem Step 3: Select the test statistic. Use z-distribution since σ is known Step 4: Formulate the decision rule. Reject H 0 if Z > Z  Step 5: Make a decision and interpret the result. Because 1.55 does not fall in the rejection region, H 0 is not rejected. We conclude that the average number of desks assembled in the last 50 weeks is not more than 200 LO

Testing for the Population Mean: Population Standard Deviation Unknown When the population standard deviation (σ) is unknown, the sample standard deviation (s) is used in its place the t- distribution is used as test statistic, which is computed using the formula: EXAMPLE The McFarland Insurance Company Claims Department reports the mean cost to process a claim is $60. An industry comparison showed this amount to be larger than most other insurance companies, so the company instituted cost-cutting measures. To evaluate the effect of the cost-cutting measures, the Supervisor of the Claims Department selected a random sample of 26 claims processed last month. The sample information is reported below. At the.01 significance level is it reasonable a claim is now less than $60? LO

Testing for the Population Mean: Population Standard Deviation Unknown – Example Step 1: State the hypotheses. H0:  ≥ $60 H1:  < $60 Step 2: Select the level of significance. α = 0.01 as stated in the problem Step 3: Select the test statistic. Use t-distribution since σ is unknown Step 4: Formulate the decision rule. Reject H 0 if t < ̶ t ,n-1 Step 5: Make a decision and interpret the result. Because does not fall in the rejection region, H 0 is not rejected at the.01 significance level. We have not demonstrated that the cost-cutting measures reduced the mean cost per claim to be less than $60. LO

Type of Errors and p-value in Hypothesis Testing  Type I Error - Defined as the probability of rejecting the null hypothesis when it is actually true. This is denoted by the Greek letter . Also known as the significance level of a test.  Type II Error: Defined as the probability of “accepting” the null hypothesis when it is actually false. This is denoted by the Greek letter β.  p-VALUE is the probability of observing a sample value as extreme as, or more extreme than, the value observed, given that the null hypothesis is true.  In testing a hypothesis, we can also compare the p-value to the significance level (  ).  Decision rule using the p-value: Reject H 0 if p-value < significance level. LO 10-7 Compute and interpret a p-value 10-12

EAMPLE p-Value Recall the last problem where the hypothesis and decision rules were set up as: H 0 :  ≤ 200 H 1 :  > 200 Reject H 0 if z > z  where z = 1.55 and z  =2.33 Reject H 0 if p-value <  is not < 0.01 Conclude: Fail to reject H 0 Type of Errors and p-value in Hypothesis Testing LO

Tests Concerning Proportion using the z-Distribution  A Proportion is the fraction or percentage that indicates the part of the population or sample having a particular trait of interest.  The sample proportion is denoted by p and is found by x/n  It is assumed that the binomial assumptions discussed in Chapter 6 are met: (1) the sample data collected are the result of counts; (2) the outcome of an experiment is classified into one of two mutually exclusive categories— a “success” or a “failure”; (3) the probability of a success is the same for each trial; and (4) the trials are independent  Both n  and n(1 ̶  ) are at least 5.  When the above conditions are met, the normal distribution can be used as an approximation to the binomial distribution  The test statistic is computed as follows: LO 10-8 Conduct a test of hypothesis about a population proportion

Test Statistic for Testing a Single Population Proportion – Example EXAMPLE Suppose prior elections in a certain state indicated it is necessary for a candidate for governor to receive at least 80 percent of the vote in the northern section of the state to be elected. The incumbent governor is interested in assessing his chances of returning to office and plans to conduct a survey of 2,000 registered voters in the northern section of the state. A sample survey of 2,000 potential voters in the northern part of the state revealed that 1,550 planned to vote for the incumbent governor. Using the hypothesis-testing procedure, assess the governor’s chances of reelection. Step 1: State the null hypothesis and the alternate hypothesis. H 0 :  ≥.80 H 1 :  <.80 (note: keyword in the problem “at least”) Step 2: Select the level of significance. α = 0.01 as stated in the problem Step 3: Select the test statistic. Use z-distribution since the assumptions are met and n  and n( 1 ̶  ) ≥ 5 Step 4: Formulate the decision rule. Reject H 0 if z < -z  Step 5: Make a decision and interpret the result. The computed value of z (2.80) is in the rejection region, so the null hypothesis is rejected at the.05 level. The evidence at this point does not support the claim that the incumbent governor will return to the governor’s mansion for another four years. LO