Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Central Limit Theorem For simple random samples from any population with finite mean and variance, as n becomes increasingly large, the sampling distribution.

Published byLizbeth Carpenter Modified over 9 years ago

Similar presentations

Presentation on theme: "The Central Limit Theorem For simple random samples from any population with finite mean and variance, as n becomes increasingly large, the sampling distribution."— Presentation transcript:

1 The Central Limit Theorem For simple random samples from any population with finite mean and variance, as n becomes increasingly large, the sampling distribution of the sample means is approximately normally distributed.

2 The Central Limit Theorem The Central Limit Theorem states that under rather general conditions, sums and means of samples of random measurements drawn from a population tend to possess, approximately, a bell- shaped (normal) distribution in repeated sampling. Thus,  X =  X and  X =  X / SQRT(n)

3 Example Consider a population of die throws generated by tossing a die infinitely many times, with a resulting probability distribution given by: P(X) X1 23456 1/6  X = 3.5  X = 1.7078

4 Example Draw a sample of five ( n = 5 ) measurements from the population by tossing a die five times and record each of the five observations. Calculate the sum of the five measurements as well as the sample mean. For experimental purposes repeat the sampling procedure 100 times or preferably an even larger number of time.

5 The Central Limit Theorem If random samples of n observations are taken from any population with mean  X and standard deviation of  X, and if n is large enough ( n > 30 ), the distribution of possible X values will be approximately normal, with  X =  X and  X =  X / SQRT(n)

Download ppt "The Central Limit Theorem For simple random samples from any population with finite mean and variance, as n becomes increasingly large, the sampling distribution."

Similar presentations

Terminology A statistic is a number calculated from a sample of data. For each different sample, the value of the statistic is a uniquely determined number.

Terminology A statistic is a number calculated from a sample of data. For each different sample, the value of the statistic is a uniquely determined number.
Sampling distributions. Example Take random sample of students. Ask “how many courses did you study for this past weekend?” Calculate a statistic, say,

Sampling distributions. Example Take random sample of students. Ask “how many courses did you study for this past weekend?” Calculate a statistic, say,
The Central Limit Theorem Section 9.3.2. Starter Assume I have 1000 pennies in a jar Let X = the age of a penny in years –If the date is 2007, X = 0 –If.

The Central Limit Theorem Section Starter Assume I have 1000 pennies in a jar Let X = the age of a penny in years –If the date is 2007, X = 0 –If.
Distribution of Sample Means, the Central Limit Theorem If we take a new sample, the sample mean varies. Thus the sample mean has a distribution, called.

Distribution of Sample Means, the Central Limit Theorem If we take a new sample, the sample mean varies. Thus the sample mean has a distribution, called.
1 Sampling Distributions Chapter 9. 2 9.1 Introduction  In real life calculating parameters of populations is prohibitive because populations are very.

1 Sampling Distributions Chapter Introduction  In real life calculating parameters of populations is prohibitive because populations are very.
6-1 6-2 Chapter Six Sampling Distributions McGraw-Hill/Irwin Copyright © 2004 by The McGraw-Hill Companies, Inc. All rights reserved.

Chapter Six Sampling Distributions McGraw-Hill/Irwin Copyright © 2004 by The McGraw-Hill Companies, Inc. All rights reserved.
Statistics 270 - Lecture 20. Last Day…completed 5.1 Today Parts of Section 5.3 and 5.4.

Statistics Lecture 20. Last Day…completed 5.1 Today Parts of Section 5.3 and 5.4.
Chapter 7: Variation in repeated samples – Sampling distributions

Chapter 7: Variation in repeated samples – Sampling distributions
T07-01 - 1 T07-01 Sample Size Effect – Normal Distribution Purpose Allows the analyst to analyze the effect that sample size has on a sampling distribution.

T T07-01 Sample Size Effect – Normal Distribution Purpose Allows the analyst to analyze the effect that sample size has on a sampling distribution.
Introduction to Probability and Statistics Chapter 7 Sampling Distributions.

Introduction to Probability and Statistics Chapter 7 Sampling Distributions.
Chapter 11: Random Sampling and Sampling Distributions

Chapter 11: Random Sampling and Sampling Distributions
Normal and Sampling Distributions A normal distribution is uniquely determined by its mean, , and variance,  2 The random variable Z = (X-  /  is.

Normal and Sampling Distributions A normal distribution is uniquely determined by its mean, , and variance,  2 The random variable Z = (X-  /  is.
Continuous Probability Distribution  A continuous random variables (RV) has infinitely many possible outcomes  Probability is conveyed for a range of.

Continuous Probability Distribution  A continuous random variables (RV) has infinitely many possible outcomes  Probability is conveyed for a range of.
Standard error of estimate & Confidence interval.

Standard error of estimate & Confidence interval.
Chapter 6 Sampling and Sampling Distributions

Chapter 6 Sampling and Sampling Distributions
SAMPLING DISTRIBUTION

SAMPLING DISTRIBUTION
AP Statistics Chapter 9 Notes.

AP Statistics Chapter 9 Notes.
Copyright ©2011 Nelson Education Limited The Normal Probability Distribution CHAPTER 6.

Copyright ©2011 Nelson Education Limited The Normal Probability Distribution CHAPTER 6.
© 2003 Prentice-Hall, Inc.Chap 7-1 Basic Business Statistics (9 th Edition) Chapter 7 Sampling Distributions.

© 2003 Prentice-Hall, Inc.Chap 7-1 Basic Business Statistics (9 th Edition) Chapter 7 Sampling Distributions.
Sampling and sampling distibutions. Sampling from a finite and an infinite population Simple random sample (finite population) – Population size N, sample.

Sampling and sampling distibutions. Sampling from a finite and an infinite population Simple random sample (finite population) – Population size N, sample.

Similar presentations

Ads by Google