Comparing Two Population Parameters Comparing two- population proportions.

Slides:



Advertisements
Similar presentations
Chapter 10: Comparing Two Populations or Groups
Advertisements

AP STATISTICS LESSON 12 – 2 ( DAY 2 )
Chapter 22 Comparing 2 Proportions © 2006 W.H. Freeman and Company.
Objective: To test claims about inferences for two proportions, under specific conditions Chapter 22.
9.2a Tests about a Population Proportion Target Goal: I can check the conditions for carrying out a test about a population proportion. I can perform a.
Comparing Two Proportions
Warm-up An experiment on the side effects of pain relievers assigned arthritis patients to one of several over-the-counter pain medications. Of the 440.
Significance Tests and Two Proportions
AP Statistics Section 13.1 A. Which of two popular drugs, Lipitor or Pravachol, helps lower bad cholesterol more? 4000 people with heart disease were.
Hypothesis Testing – Examples and Case Studies
Chapter 8: Hypothesis Testing for Population Proportions
Inference for proportions - Comparing 2 proportions IPS chapter 8.2 © 2006 W.H. Freeman and Company.
+ Unit 6 - Comparing Two Populations or Groups Comparing Two Proportions 11.2Comparing Two Means.
Ch 10 Comparing Two Proportions Target Goal: I can determine the significance of a two sample proportion. 10.1b h.w: pg 623: 15, 17, 21, 23.
Inference for proportions - Comparing 2 proportions IPS chapter 8.2 © 2006 W.H. Freeman and Company.
Comparing 2 proportions BPS chapter 21 © 2006 W. H. Freeman and Company These PowerPoint files were developed by Brigitte Baldi at the University of California,
Example 1: a) Describe the shape, center, and spread of the sampling distribution of. Because n 1 p 1 = 100(0.7) = 70, n 1 (1 − p 1 ) = 100(0.3) = 30,
Chapter 12: Inference for Proportions
+ Section 10.1 Comparing Two Proportions After this section, you should be able to… DETERMINE whether the conditions for performing inference are met.
8.1 Inference for a Single Proportion
Comparing Two Populations or Groups
Comparing Two Proportions
Chapter 22: Comparing Two Proportions
The Practice of Statistics Third Edition Chapter 13: Comparing Two Population Parameters Copyright © 2008 by W. H. Freeman & Company Daniel S. Yates.
Chapter 10: Comparing Two Populations or Groups
Confidence intervals are one of the two most common types of statistical inference. Use a confidence interval when your goal is to estimate a population.
Copyright © 2007 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Slide
AP Statistics Section 13.1 A. Which of two popular drugs, Lipitor or Pravachol, helps lower bad cholesterol more? 4000 people with heart disease were.
AP Statistics Section 13.2 B. An observed difference between two sample proportions can reflect a difference in the populations or it may just be due.
Two-sample Proportions Section Starter One-sample procedures for proportions can also be used in matched pairs experiments. Here is an.
+ Chi Square Test Homogeneity or Independence( Association)
10.1 Comparing Two Proportions. Section 10.1 Comparing Two Proportions After this section, you should be able to… DETERMINE whether the conditions for.
Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 22 Comparing Two Proportions.
Chapter 10: Comparing Two Populations or Groups
Comparing Two Population Parameters Comparing 2 Means.
12.2 (13.2) Comparing Two Proportions. The Sampling Distribution of.
Comparing 2 Proportions © 2006 W.H. Freeman and Company.
AP Statistics.  Has been about the distribution of sample means  and the distribution of the difference of sample means.  and the distribution of sample.
+ The Practice of Statistics, 4 th edition – For AP* STARNES, YATES, MOORE Chapter 10: Comparing Two Populations or Groups Section 10.1 Comparing Two Proportions.
Copyright © 2013, 2009, and 2007, Pearson Education, Inc. Chapter 10 Comparing Two Groups Section 10.1 Categorical Response: Comparing Two Proportions.
* Chapter 8 – we were estimating with confidence about a population * Chapter 9 – we were testing a claim about a population * Chapter 10 – we are comparing.
+ Section 10.1 Comparing Two Proportions After this section, you should be able to… DETERMINE whether the conditions for performing inference are met.
Inference for Proportions Section Starter Do dogs who are house pets have higher cholesterol than dogs who live in a research clinic? A.
Chapter 22 Comparing Two Proportions.  Comparisons between two percentages are much more common than questions about isolated percentages.  We often.
Learning Objectives After this section, you should be able to: The Practice of Statistics, 5 th Edition1 DESCRIBE the shape, center, and spread of the.
HS 1679B: Comparing Proportions1 9B: Comparing two proportions.
AP STATISTICS COMPARING TWO PROPORTIONS Chapter 22.
Objectives (Chapter 20) Comparing two proportions  Comparing 2 independent samples  Confidence interval for 2 proportion  Large sample method  Plus.
Chapter 10 Comparing Two Populations or Groups Sect 10.1 Comparing two proportions.
20. Comparing two proportions
Warm-up An experiment on the side effects of pain relievers assigned arthritis patients to one of several over-the-counter pain medications. Of the 440.
Chapter 10: Comparing Two Populations or Groups
AP Statistics Comparing Two Proportions
AP Stats Check In Where we’ve been…
Chapter 10: Comparing Two Populations or Groups
Unit 6 - Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
In a simple random sample of 300 elderly men, 65% were married while in an independent simple random sample of 400 elderly women, 48% were married. Determine.
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Chapter 10: Comparing Two Populations or Groups
Presentation transcript:

Comparing Two Population Parameters Comparing two- population proportions

Test-statistic

Cholesterol and Heart attack High levels of cholesterol in the blood are associated with higher risk of heart attacks. Will using a drug to lower blood cholesterol reduce heart attacks? The Helsinki Heart Study looked at this question. Middle-aged men were assigned at random to one of two treatments: 2051 men took the drug gemfibrozil to reduce their cholesterol levels, and a control group of 2030 men took a placebo. During the next five years, 56 men in the gemfibrozil group and 84 men in the placebo group had heart attacks. gemfibroz il X156 n1n p1p placeb o X284 n2n p2p

Step 1: Hypotheses p 1 the proportion of middle-aged men who would suffer heart attacks after taking gemfibrozil, and p 2, the proportion of middle-aged men who would suffer heart attacks if they only took a placebo

Step 2: Hypotheses SRS The two samples can be viewed as SRSs from their respective populations or are the two groups in a randomized experiment. Normality The estimated counts of “successes” and “failures” n 1 c, n 1 (q), n 2 c, and n 2 (q) are all greater than 5. Independence The samples are independent. When sampling without replacement, the two populations must be at least 10 times as large as the corresponding samples.

Step 3: Test Statistic P =

Step 4: Interpretation Since P < 0.01, the results are statistically significant at the α = 0.01 level. There is strong evidence that gemfibrozil reduced the rate of heart attacks. Step 3: Test Statistic P =

Practice: Don't drink the water! Two-proportion z test for an observational study The movie A Civil Action tells the story of a major legal battle that took place in the small town of Woburn, Massachusetts. A town well that supplied water to East Woburn residents was contaminated by industrial chemicals. During the period that residents drank water from this well, a sample of 414 births showed 16 birth defects. On the west side of Woburn, a sample of 228 babies born during the same time period revealed 3 with birth defects. The plaintiffs suing the companies responsible for the contamination claimed that these data show that the rate of birth defects was significantly higher in East Woburn, where the contaminated well water was in use. How strong is the evidence supporting this claim? What should the judge for this case conclude?

Step 3: Calculations Test statistic From the computer output, the test statistic is z = P-value The computer output shows that the P-value is Step 4: Interpretation The P-value, , tells us that it is unlikely that we would obtain a difference in sample proportions as large as we did if the null hypothesis is true. Judges have generally adopted a 5% significance level as their standard for convincing evidence. More than likely, the judge in this case would conclude that the companies who contaminated the well water were responsible for the higher proportion of birth defects in East Woburn.

n 1 c = (414) (0.0296) = n 2 c = (228) (0.0296) = 6.75 n 1 (1 − c) = (414) (0.9704) = n 2 (1 − c ) = (228) (0.9704) = Since all four of these values are larger than 5, we are safe using a Normal approximation. Independence We must consider that both populations are at least 10 times as large as the samples of babies. Normality

Step 3: Calculations Test statistic From the computer output, the test statistic is z = P-value The computer output shows that the P-value is Step 4: Interpretation The P-value, , tells us that it is unlikely that we would obtain a difference in sample proportions as large as we did if the null hypothesis is true. Judges have generally adopted a 5% significance level as their standard for convincing evidence. More than likely, the judge in this case would conclude that the companies who contaminated the well water were responsible for the higher proportion of birth defects in East Woburn.