1. Business Research Methods William G. Zikmund Chapter 21: Univariate Statistics

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3. Copyright © 2000 by Harcourt, Inc. All rights reserved. UNIVARIATE STATISTICS TEST OF STATISTICAL SIGNIFICANCE HYPOTHESIS TESTING ONE VARIABLE AT A TIME

4. Copyright © 2000 by Harcourt, Inc. All rights reserved. HYPOTHESIS UNPROVEN PROPOSITION SUPPOSITION THAT TENATIVELY EXPLAINS CERTAIN FACTS OR PHENOMONA ASSUMPTION ABOUT NATURE OF THE WORLD

5. Copyright © 2000 by Harcourt, Inc. All rights reserved. HYPOTHESIS AN UNPROVEN PROPOSITION OR SUPPOSITION THAT TENTATIVELY EXPLAINS CERTAIN FACTS OF PHENOMENA NULL HYPOTHESIS ALTERNATIVE HYPOTHESIS

6. Copyright © 2000 by Harcourt, Inc. All rights reserved. NULL HYPOTHESIS STATEMENT ABOUT THE STATUS QUO NO DIFFERENCE

7. Copyright © 2000 by Harcourt, Inc. All rights reserved. ALTERNATIVE HYPHOTESIS STATEMENT THAT INDICATES THE OPPOSITE OF THE NULL HYPOTHESIS

8. Copyright © 2000 by Harcourt, Inc. All rights reserved. SIGNIFICANCE LEVEL CRITICAL PROBABLITY IN CHOOSING BETWEEN THE NULL HYPOTHESIS AND THE ALTERNATIVE HYPOTHESIS

9. Copyright © 2000 by Harcourt, Inc. All rights reserved. SIGNIFICANCE LEVEL CRITICAL PROBABLITY CONFIDENCE LEVEL ALPHA PROBABLITY LEVEL SELECTED IS TYPICALLY.05 OR.01 TOO LOW TO WARRANT SUPPORT FOR THE NULL HYPOTHESIS

10. Copyright © 2000 by Harcourt, Inc. All rights reserved. The null hypothesis that the mean is equal to 3.0:

11. Copyright © 2000 by Harcourt, Inc. All rights reserved. The alternative hypothesis that the mean does not equal to 3.0:

12. Copyright © 2000 by Harcourt, Inc. All rights reserved. A SAMPLING DISTRIBUTION 

13. Copyright © 2000 by Harcourt, Inc. All rights reserved. A SAMPLING DISTRIBUTION  

14. Copyright © 2000 by Harcourt, Inc. All rights reserved. A SAMPLING DISTRIBUTION LOWER LIMIT UPPER LIMIT 

15. Copyright © 2000 by Harcourt, Inc. All rights reserved. Critical values of  Critical value - upper limit

16. Copyright © 2000 by Harcourt, Inc. All rights reserved. Critical values of 

17. Copyright © 2000 by Harcourt, Inc. All rights reserved. Critical values of  Critical value - lower limit

18. Copyright © 2000 by Harcourt, Inc. All rights reserved. Critical values of 

19. Copyright © 2000 by Harcourt, Inc. All rights reserved. REGION OF REJECTION LOWER LIMIT UPPER LIMIT 

20. Copyright © 2000 by Harcourt, Inc. All rights reserved. HYPOTHESIS TEST  2.804 3.196  3.78

21. Copyright © 2000 by Harcourt, Inc. All rights reserved. TYPE I AND TYPE II ERRORS Accept nullReject null Null is true Null is false Correct- no error Type I error Type II errorCorrect- no error

22. Copyright © 2000 by Harcourt, Inc. All rights reserved. Type I and Type II Errors in Hypothesis Testing State of Null Hypothesis Decision in the PopulationAccept HoReject Ho Ho is trueCorrect--no errorType I error Ho is falseType II errorCorrect--no error

23. Copyright © 2000 by Harcourt, Inc. All rights reserved. CALCULATING Z OBS

24. Copyright © 2000 by Harcourt, Inc. All rights reserved. Alternate way of testing the hypothesis

25. Copyright © 2000 by Harcourt, Inc. All rights reserved. Alternate way of testing the hypothesis

26. Copyright © 2000 by Harcourt, Inc. All rights reserved. CHOOSING THE APPROPRAITE STATISTICAL TECHNIQUE Type of question to be answered Number of variables –Univariate –Bivariate –Multivariate Scale of measurement

27. Copyright © 2000 by Harcourt, Inc. All rights reserved. PARAMETRIC STATISTICS NONPARAMETRIC STATISTICS

28. Copyright © 2000 by Harcourt, Inc. All rights reserved. t-distribution Symmetrical, bell-shaped distribution Mean of zero and a unit standard deviation Shape influenced by degrees of freedom

29. Copyright © 2000 by Harcourt, Inc. All rights reserved. DEGREES OF FREEDOM Abbreviated d.f. Number of observations Number of constraints

30. Copyright © 2000 by Harcourt, Inc. All rights reserved. or Confidence interval estimate using the t-distribution

31. Copyright © 2000 by Harcourt, Inc. All rights reserved. = population mean = sample mean = critical value of t at a specified confidence level = standard error of the mean = sample standard deviation = sample size Confidence interval estimate using the t-distribution

32. Copyright © 2000 by Harcourt, Inc. All rights reserved. Confidence Interval using t

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35. HYPOTHESIS TEST USING THE t-DISTRIBUTION

36. Copyright © 2000 by Harcourt, Inc. All rights reserved. Univariate hypothesis test utilizing the t-distribution Suppose that a production manager believes the average number of defective assemblies each day to be 20. The factory records the number of defective assemblies for each of the 25 days it was opened in a given month. The mean was calculated to be 22, and the standard deviation,,to be 5.

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39. Univariate hypothesis test utilizing the t-distribution The researcher desired a 95 percent confidence, and the significance level becomes.05.The researcher must then find the upper and lower limits of the confidence interval to determine the region of rejection. Thus, the value of t is needed. For 24 degrees of freedom (n-1, 25-1), the t-value is 2.064.

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42. Univariate hypothesis test - t-test

43. Copyright © 2000 by Harcourt, Inc. All rights reserved. TESTING A HYPOTHESIS ABOUT A DISTRIBUTION CHI-SQUARE TEST TEST FOR SIGNIFANCE IN THE ANALYSIS OF FREQUENCY DISTRIBUTIONS COMPARE OBSERVED FREQUENCIES WITH EXPECTED FREQUENCIES “GOODNESS OF FIT”

44. Copyright © 2000 by Harcourt, Inc. All rights reserved. Chi-Square Test

45. Copyright © 2000 by Harcourt, Inc. All rights reserved. Chi-Square Test x² = chi-square statistics O i = observed frequency in the i th cell E i = expected frequency on the i th cell

46. Copyright © 2000 by Harcourt, Inc. All rights reserved. Chi-Square Test - estimation for expected number for each cell

47. Copyright © 2000 by Harcourt, Inc. All rights reserved. Chi-Square Test - estimation for expected number for each cell R i = total observed frequency in the i th row C j = total observed frequency in the j th column n = sample size

48. Copyright © 2000 by Harcourt, Inc. All rights reserved. Univariate hypothesis test - Chi-square Example

49. Copyright © 2000 by Harcourt, Inc. All rights reserved. Univariate hypothesis test - Chi-square Example

50. Copyright © 2000 by Harcourt, Inc. All rights reserved. HYPOTHESIS TEST OF A PROPORTION  is the population proportion p is the sample proportion  is estimated with p

51. Copyright © 2000 by Harcourt, Inc. All rights reserved. Hypothesis Test of a Proportion 5. :H 5. :H 1 0  

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54. 0115.S p  000133.S p  1200 16. S p  1200 )8)(.2(. S p  n pq S p  20.p  200,1n  Hypothesis Test of a Proportion: Another Example

55. Copyright © 2000 by Harcourt, Inc. All rights reserved. Indeed.001 the beyond t significant is it level..05 the at rejected be should hypothesis null the so 1.96, exceeds value Z The 348.4Z 0115. 05. Z 0115. 15.20. Z S p Z p       Hypothesis Test of a Proportion: Another Example