Ch 11 實習 (1)

1. Ch 11 實習 (1)

2. Introduction • 所謂假設檢定，係指在尚未蒐集樣本資料、進行推論之前，就事先對母體的某種特徵性質作一合理的假設敘述，再利用隨機抽出的樣本及抽樣分配，配合機率原理，以判斷此項假設是否為真 • 若抽出的樣本資料與所陳述的假設很不一致，檢定的結果必然認為這個假設不對，則否定或拒絕（reject）這個假設 Jia-Ying Chen

3. Introduction • 若抽出的樣本資料與所陳述的假設不會很不一致，檢定的結果就沒有充分理由斷定這個假設不對，但也不認為這個假設是對的 • 假設檢定的主要精神在於尋找證據來拒絕H0，所以假設檢定只能檢定H0是否顯著錯誤，而不能判斷其絕對正確 Jia-Ying Chen

4. Developing Null and Alternative Hypotheses • Hypothesis testing can be used to determine whether a statement about the value of a population parameter should or should not be rejected. • The null hypothesis, denoted by H0 , is a tentative assumption about a population parameter. • The alternative hypothesis, denoted by H1, is the opposite of what is stated in the null hypothesis. • Hypothesis testing is similar to a criminal trial. The hypotheses are: H0: The defendant is innocent H1: The defendant is guilty Jia-Ying Chen

5. A Summary of Forms for Null and Alternative Hypotheses about a Population Mean • The equality part of the hypotheses always appears in the null hypothesis. • In general, a hypothesis test about the value of a population mean  must take one of the following three forms (where 0 is the hypothesized value of the population mean). H0:  = 0 H0:  = 0 H0:  = 0 H1:  < 0 H1:  > 0 H1: 0 Jia-Ying Chen

6. Concepts of Hypothesis Testing • The critical concepts of hypothesis testing. • Example: • An operation manager needs to determine if the mean demand during lead time is greater than 350. • If so, changes in the ordering policy are needed. • There are two hypotheses about a population mean: • H0: The null hypothesis μ = 350 • H1: The alternative hypothesis μ > 350 This is what you want to prove Jia-Ying Chen

7. Example 1 • A spouse suspects that the average amount of money spent on Christmas gifts for immediate family members is above $1,200. The correct set of hypotheses is: a. H0: μ = 1200 vs. H1: μ < 1200 b. H0: μ > 1200 vs. H1: μ = 1200 c.H0: μ = 1200 vs. H1: μ > 1200 d. H0: μ < 1200 vs. H1: μ = 1200 Jia-Ying Chen

8. m = 350 Concepts of Hypothesis Testing • Assume the null hypothesis is true (m= 350). • Sample from the demand population, and build a statistic related to the parameter hypothesized (the sample mean). • Pose the question: How probable is it to obtain a sample mean at least as extreme as the one observed from the sample, if H0 is correct? Jia-Ying Chen

9. Concepts of Hypothesis Testing • Assume the null hypothesis is true (m= 350). m = 350 • Since the is much larger than 350, the mean m is likely to be greater than 350. Reject the null hypothesis. • In this case the mean m is not likely to be greater than 350. Do not reject the null hypothesis. Jia-Ying Chen

10. Types of Errors • Two types of errors may occur when deciding whether to reject H0 based on the statistic value. • Type I error: Reject H0 when it is true. • Type II error: Do not reject H0 when it is false. • Example continued • Type I error: Reject H0 (m = 350) in favor of H1 (m > 350) when the real value of m is 350. • Type II error: Believe that H0 is correct (m = 350) when the real value of m is greater than 350. Jia-Ying Chen

11. Type I and Type II Errors • Since hypothesis tests are based on sample data, we must allow for the possibility of errors. • The person conducting the hypothesis test specifies the maximum allowable probability of making a Type I error, denoted by  and called the level of significance. • Generally, we cannot control for the probability of making a Type II error, denoted by . • Statistician avoids the risk of making a Type II error by using “do not reject H0” and not “accept H0”. Jia-Ying Chen

12. Null True Null False Fail to Correct Type II error reject null Decision ( )  Reject null Type I error Correct Decision (Power) ( )  Decision Table for Hypothesis Testing Jia-Ying Chen

13. Critical value m = 350 Controlling the probability of conducting a type I error • Recall: • H0: m = 350 and H1: m > 350. • H0 is rejected if is sufficiently large • Thus, a type I error is made if when m = 350. • By properly selecting the critical value we can limit the probability of conducting a type I error to an acceptable level. Jia-Ying Chen

14. Steps in Hypothesis Testing 1. Establish hypotheses: state the null and alternative hypotheses. 2. Determine the appropriate statistical test and sampling distribution. 3. Specify the Type I error rate ( 4. State the decision rule. 5. Gather sample data. 6. Calculate the value of the test statistic. 7. State the statistical conclusion. 8. Make a managerial decision. Jia-Ying Chen

15. Testing the Population Mean When the Population Standard Deviation is Known • Example • A new billing system for a department store will be cost- effective only if the mean monthly account is more than $170. • A sample of 400 accounts has a mean of $178. • If accounts are approximately normally distributed with s = $65, can we conclude that the new system will be cost effective? Jia-Ying Chen

16. Testing the Population Mean (s is Known) • Example 11.1 – Solution • The population of interest is the credit accounts at the store. • We want to know whether the mean account for all customers is greater than $170. H1 : m > 170 • The null hypothesis must specify a single value of the parameter m, H0 : m = 170 Jia-Ying Chen

17. Approaches to Testing • There are two approaches to test whether the sample mean supports the alternative hypothesis (H1) • The rejection region method is mandatory for manual testing (but can be used when testing is supported by a statistical software) • The p-value method which is mostly used when a statistical software is available. Jia-Ying Chen

18. The Rejection Region Method The rejection region is a range of values such that if the test statistic falls into that range, the null hypothesis is rejected in favor of the alternative hypothesis. Jia-Ying Chen

19. Reject the null hypothesis if The Rejection Region Method for a Right - Tail Test • Example 11.1 – solution continued • Define a critical value for that is just large enough to reject the null hypothesis. Jia-Ying Chen

20. Determining the Critical Value for the Rejection Region • Allow the probability of committing a Type I error be a (also called the significance level). • Find the value of the sample mean that is just large enough so that the actual probability of committing a Type I error does not exceed a. Watch… Jia-Ying Chen

21. a we have: Determining the Critical Value – for a Right – Tail Test Example – solution continued P(commit a Type I error) = P(reject H0 given that H0 is true) = P( given that H0 is true) … is allowed to be a. Jia-Ying Chen

22. Determining the Critical Value – for a Right – Tail Test Example – solution continued a = 0.05 Jia-Ying Chen

23. Determining the Critical value for a Right - Tail Test Conclusion Since the sample mean (178) is greater than the critical value of 175.34, there is sufficient evidence to infer that the mean monthly balance is greater than $170 at the 5% significance level. Jia-Ying Chen

24. The standardized test statistic • Instead of using the statistic , we can use the standardized value z. • Then, the rejection region becomes One tail test Jia-Ying Chen

25. The standardized test statistic • Example - continued • We redo this example using the standardized test statistic. Recall: H0: m = 170 H1: m > 170 • Test statistic: • Rejection region: z > z.05 = 1.645. Jia-Ying Chen

26. The standardized test statistic • Example - continued • Conclusion • Since Z = 2.46 > 1.645, reject the null hypothesis in favor of the alternative hypothesis. Jia-Ying Chen

27. The p-value of a test is the probability of observing a test statistic at least as extreme as the one computed, • given that the null hypothesis is true. • 虛無假設成立，獲得檢定統計量及更極端數值之機率。 • Let us demonstrate the concept on Example P-value Method • The p-value provides information about the amount of statistical evidence that supports the alternative hypothesis. Jia-Ying Chen

28. P-value Method The probability of observing a test statistic at least as extreme as 178, given that m = 170 is… The p-value Jia-Ying Chen

29. Note how the event is rare under H0 when but... …it becomes more probable under H1, when Interpreting the p-value Because the probability that the sample mean will assume a value of more than 178 when m = 170 is so small (.0069), there are reasons to believe that m > 170. Jia-Ying Chen

30. Interpreting the p-value We can conclude that the smaller the p-value the more statistical evidence exists to support the alternative hypothesis. Jia-Ying Chen

31. The p-value a = 0.05 The p-value and the Rejection Region Methods • The p-value can be used when making decisions based on rejection region methods as follows: • Define the hypotheses to test, and the required significance level α. • Perform the sampling procedure, calculate the test statistic and the p-value associated with it. • Compare the p-value to α. Reject the null hypothesis only if p-value < α; otherwise, do not reject the null hypothesis. Jia-Ying Chen

32. Conclusions of a Test of Hypothesis • If we reject the null hypothesis, we conclude that there is enough evidence to infer that the alternative hypothesis is true. • If we do not reject the null hypothesis, we conclude that there is not enough statistical evidence to infer that the alternative hypothesis is true. The alternative hypothesis is the more important one. It represents what we are investigating. Jia-Ying Chen

33. Example 2 • If a hypothesis is not rejected at the 0.10 level of significance, it: a.must be rejected at the 0.05 level. b.may be rejected at the 0.05 level. c.will not be rejected at the 0.05 level. d.must be rejected at the 0.025 level. Jia-Ying Chen

34. Example 3 • Calculate the value of the test statistic, set up the rejection region, determine the p-value, interpret the result, and draw the sampling distribution. Jia-Ying Chen

35. Solution • Rejection region z<z0.1=-1.28 Jia-Ying Chen

36. Example 4 • A business student claims that on average an MBA students is required to prepare more than five cases per week. To examine the claim, a statistics professor asks a random sample of 10 MBA students to report the number of cases they prepare weekly. The results are exhibited here. Can the professor conclude at the 5% significance level that the claim is true, assuming that the number of cases is normally distributed with a standard deviation of 1.5? 2 7 4 8 9 5 11 3 7 4 Jia-Ying Chen

37. Solution Jia-Ying Chen

38. Example 5 • A random sample of 12 second-year university students enrolled in a business statistics course was drawn. At the course’s completion, each student was asked how many hours he or she spent doing homework in statistics. The data are listed here. It is known that the population standard deviation is σ=8. The instructor has recommended that students devote 3 hours per week for the duration of the 12-week semester, for a total of 36 hours. Test to determine whether there is evidence that the average student spent less than the recommend amount of time. Compute the p-value of the test. 31 40 26 30 36 38 29 40 38 30 35 38 Jia-Ying Chen

39. Solution Jia-Ying Chen