Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Mighty Central Limit Theorem! Find: a. the frequency distribution (histogram, too, if you’re feelin’ saucy); b. the average (  ) ; and c. the standard.

Published bySteven Bradley Modified over 9 years ago

Similar presentations

Presentation on theme: "The Mighty Central Limit Theorem! Find: a. the frequency distribution (histogram, too, if you’re feelin’ saucy); b. the average (  ) ; and c. the standard."— Presentation transcript:

1 The Mighty Central Limit Theorem! Find: a. the frequency distribution (histogram, too, if you’re feelin’ saucy); b. the average (  ) ; and c. the standard deviation (  ) of the sum of your two tricky dice’s pips.

2 “Typical” dice

3 Blue (skewed left) dice Sum of pips frequency

4 Yellow (skewed right) dice Sum of pips frequency

5 Green (symmetric, wide) dice Sum of pips frequency

6 Orange (bimodal, asymmetric) dice Sum of pips frequency

7 Red (symmetric, skewed) dice Sum of pips frequency

8 For the purposes of our next activity, your dice represent the population you’re studying...now, suppose you want to find their  (and  ). You’ll never be able to know them directly the way you just did...why? So what do you do? (Quiz (IYL): Sampling Distributions) Can Excel help here?

9 The Mighty Central Limit Theorem! Suppose you want to study a population with an average of  and a standard deviation of  (neither of which you know). So, you take a random sample of size n.

10 The Mighty Central Limit Theorem! Suppose you want to study a population with an average of  and a standard deviation of  (neither of which you know). So, you take a random sample of size n. 1. Your sample mean will have a normal sampling distribution (yay!) centered on  (yay!) 2. This means that your sample mean is an accurate (unbiased) estimator of . In symbols,

11 The Mighty Central Limit Theorem! Suppose you want to study a population with an average of  and a standard deviation of  (neither of which you know). So, you take a random sample of size n. 2. However, there is still variation in your sample mean (it doesn’t exactly equal  ).

12 The Mighty Central Limit Theorem! Suppose you want to study a population with an average of  and a standard deviation of  (neither of which you know). So, you take a random sample of size n. 3. But, your sample standard deviation s (which many articles call the standard error of the mean, or SE) shrinks as your sample size grows (yay!) 3. In fact,

13 The Mighty Central Limit Theorem! Suppose you want to study a population with an average of  and a standard deviation of  (neither of which you know). So, you take a random sample of size n. 4. This means that, on average,  will be within a “usual” range of values:

14 The Mighty Central Limit Theorem! Suppose you want to study a population with an average of  and a standard deviation of  (neither of which you know). So, you take a random sample of size n. 5. Since SE is inversely proportional to the sample size, as the sample gets larger, the precision of our interval gets better (yay!) 4.

15

16 The Mighty Central Limit Theorem! Suppose you want to study a population with an average of  and a standard deviation of  (neither of which you know). So, you take a random sample of size n. 6. No need for huge samples to invoke the CLT…yay 5 ! As n  , the bells become perfect, but an accepted minimum is n = 30, although, as you saw, far fewer can be fine. Homework for The Mighty Central Limit Theorem!

Download ppt "The Mighty Central Limit Theorem! Find: a. the frequency distribution (histogram, too, if you’re feelin’ saucy); b. the average (  ) ; and c. the standard."

Similar presentations

Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 18 Sampling Distribution Models.

Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 18 Sampling Distribution Models.
Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 18 Sampling Distribution Models.

Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 18 Sampling Distribution Models.
Introduction to Summary Statistics

Introduction to Summary Statistics
Copyright © 2006 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Slide 18- 1.

Copyright © 2006 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Slide
Copyright © 2010 Pearson Education, Inc. Chapter 18 Sampling Distribution Models.

Copyright © 2010 Pearson Education, Inc. Chapter 18 Sampling Distribution Models.
McGraw-Hill Ryerson Copyright © 2011 McGraw-Hill Ryerson Limited. Adapted by Peter Au, George Brown College.

McGraw-Hill Ryerson Copyright © 2011 McGraw-Hill Ryerson Limited. Adapted by Peter Au, George Brown College.
THE MEANING OF STATISTICAL SIGNIFICANCE: STANDARD ERRORS AND CONFIDENCE INTERVALS.

THE MEANING OF STATISTICAL SIGNIFICANCE: STANDARD ERRORS AND CONFIDENCE INTERVALS.
Estimating the Population Mean Assumptions 1.The sample is a simple random sample 2.The value of the population standard deviation (σ) is known 3.Either.

Estimating the Population Mean Assumptions 1.The sample is a simple random sample 2.The value of the population standard deviation (σ) is known 3.Either.
1 Business 90: Business Statistics Professor David Mease Sec 03, T R 7:30-8:45AM BBC 204 Lecture 22 = More of Chapter “Confidence Interval Estimation”

1 Business 90: Business Statistics Professor David Mease Sec 03, T R 7:30-8:45AM BBC 204 Lecture 22 = More of Chapter “Confidence Interval Estimation”
The standard error of the sample mean and confidence intervals How far is the average sample mean from the population mean? In what interval around mu.

The standard error of the sample mean and confidence intervals How far is the average sample mean from the population mean? In what interval around mu.
1 Business 90: Business Statistics Professor David Mease Sec 03, T R 7:30-8:45AM BBC 204 Lecture 21 = Start Chapter “Confidence Interval Estimation” (CIE)

1 Business 90: Business Statistics Professor David Mease Sec 03, T R 7:30-8:45AM BBC 204 Lecture 21 = Start Chapter “Confidence Interval Estimation” (CIE)
HIM 3200 Normal Distribution Biostatistics Dr. Burton.

HIM 3200 Normal Distribution Biostatistics Dr. Burton.
Stat 2411 Statistical Methods Chapter 4. Measure of Variation.

Stat 2411 Statistical Methods Chapter 4. Measure of Variation.
Today Today: Chapter 8, start Chapter 9 Assignment: Recommended Questions: 9.1, 9.8, 9.20, 9.23, 9.25.

Today Today: Chapter 8, start Chapter 9 Assignment: Recommended Questions: 9.1, 9.8, 9.20, 9.23, 9.25.
Measures of Variability: Range, Variance, and Standard Deviation

Measures of Variability: Range, Variance, and Standard Deviation
QUIZ CHAPTER Seven Psy302 Quantitative Methods. 1. A distribution of all sample means or sample variances that could be obtained in samples of a given.

QUIZ CHAPTER Seven Psy302 Quantitative Methods. 1. A distribution of all sample means or sample variances that could be obtained in samples of a given.
Confidence Intervals W&W, Chapter 8. Confidence Intervals Although on average, M (the sample mean) is on target (or unbiased), the specific sample mean.

Confidence Intervals W&W, Chapter 8. Confidence Intervals Although on average, M (the sample mean) is on target (or unbiased), the specific sample mean.
The standard error of the sample mean and confidence intervals How far is the average sample mean from the population mean? In what interval around mu.

The standard error of the sample mean and confidence intervals How far is the average sample mean from the population mean? In what interval around mu.
McGraw-Hill/IrwinCopyright © 2009 by The McGraw-Hill Companies, Inc. All Rights Reserved. Chapter 7 Sampling Distributions.

McGraw-Hill/IrwinCopyright © 2009 by The McGraw-Hill Companies, Inc. All Rights Reserved. Chapter 7 Sampling Distributions.
Chapter 11: Estimation Estimation Defined Confidence Levels

Chapter 11: Estimation Estimation Defined Confidence Levels

Similar presentations

Ads by Google