Chapter 6 The Normal Distribution In this handout: Probability model for a continuous random variable Normal distribution.

Slides:

Advertisements

Similar presentations

Stat350, Lecture#4 :Density curves and normal distribution Try to draw a smooth curve overlaying the histogram. The curve is a mathematical model for the.

Advertisements

Topic 3 The Normal Distribution. From Histogram to Density Curve 2 We used histogram in Topic 2 to describe the overall pattern (shape, center, and spread)

Continuous Random Variables and Probability Distributions

Chapter 6 The Normal Distribution

BCOR 1020 Business Statistics

Ch. 6 The Normal Distribution

6-2 The Standard Normal Distribution

QMS 6351 Statistics and Research Methods Probability and Probability distributions Chapter 4, page 161 Chapter 5 (5.1) Chapter 6 (6.2) Prof. Vera Adamchik.

BPS - 5th Ed. Chapter 31 The Normal Distributions.

Continuous Probability Distributions A continuous random variable can assume any value in an interval on the real line or in a collection of intervals.

Chapter 6: Normal Probability Distributions

Chapter 4 Continuous Random Variables and Probability Distributions

Chapter 6 The Normal Probability Distribution

Section Copyright © 2014, 2012, 2010 Pearson Education, Inc. Lecture Slides Elementary Statistics Twelfth Edition and the Triola Statistics Series.

Section 7.1 The STANDARD NORMAL CURVE

Normal Distributions Section Starter A density curve starts at the origin and follows the line y = 2x. At some point on the line where x = p, the.

Continuous Probability Distributions  Continuous Random Variable  A random variable whose space (set of possible values) is an entire interval of numbers.

Copyright © Cengage Learning. All rights reserved. 6 Normal Probability Distributions.

Continuous Random Variables

Copyright © 2013, 2009, and 2007, Pearson Education, Inc. 1 PROBABILITIES FOR CONTINUOUS RANDOM VARIABLES THE NORMAL DISTRIBUTION CHAPTER 8_B.

1 Normal Random Variables In the class of continuous random variables, we are primarily interested in NORMAL random variables. In the class of continuous.

1 Chapter 5. Section 5-1 and 5-2. Triola, Elementary Statistics, Eighth Edition. Copyright Addison Wesley Longman M ARIO F. T RIOLA E IGHTH E DITION.

QBM117 Business Statistics Probability and Probability Distributions Continuous Probability Distributions 1.

Lecture 9 Dustin Lueker.  Can not list all possible values with probabilities ◦ Probabilities are assigned to intervals of numbers  Probability of an.

Copyright © 2010, 2007, 2004 Pearson Education, Inc. Lecture Slides Elementary Statistics Eleventh Edition and the Triola Statistics Series by.

Copyright © 2010, 2007, 2004 Pearson Education, Inc. All Rights Reserved. Section 6-1 Review and Preview.

Transformations, Z-scores, and Sampling September 21, 2011.

Copyright © 2014, 2013, 2010 and 2007 Pearson Education, Inc. Chapter The Normal Probability Distribution 7.

4.3 NORMAL PROBABILITY DISTRIBUTIONS The Most Important Probability Distribution in Statistics.

Essential Statistics Chapter 31 The Normal Distributions.

Normal distribution and intro to continuous probability density functions...

Density curves Like drawing a curve through the tops of the bars in a histogram and smoothing out the irregular ups and downs. Show the proportion of observations.

Chapter 6.1 Normal Distributions. Distributions Normal Distribution A normal distribution is a continuous, bell-shaped distribution of a variable. Normal.

CHAPTER 3: The Normal Distributions

Modular 11 Ch 7.1 to 7.2 Part I. Ch 7.1 Uniform and Normal Distribution Recall: Discrete random variable probability distribution For a continued random.

The Normal Distribution Chapter 6. Outline 6-1Introduction 6-2Properties of a Normal Distribution 6-3The Standard Normal Distribution 6-4Applications.

Copyright © 2013, 2009, and 2007, Pearson Education, Inc. Chapter 6 Probability Distributions Section 6.2 Probabilities for Bell-Shaped Distributions.

BPS - 5th Ed. Chapter 31 The Normal Distributions.

Essential Statistics Chapter 31 The Normal Distributions.

Lecture PowerPoint Slides Basic Practice of Statistics 7 th Edition.

NORMAL DISTRIBUTION Chapter 3. DENSITY CURVES Example: here is a histogram of vocabulary scores of 947 seventh graders. BPS - 5TH ED. CHAPTER 3 2 The.

Copyright © 2014, 2013, 2010 and 2007 Pearson Education, Inc. Chapter The Normal Probability Distribution 7.

© 2010 Pearson Prentice Hall. All rights reserved Chapter The Normal Probability Distribution © 2010 Pearson Prentice Hall. All rights reserved 3 7.

Lecture 8 Dustin Lueker.  Can not list all possible values with probabilities ◦ Probabilities are assigned to intervals of numbers  Probability of an.

Descriptive Statistics Review – Chapter 14. Data  Data – collection of numerical information  Frequency distribution – set of data with frequencies.

Chapter 6 The Normal Distribution.  The Normal Distribution  The Standard Normal Distribution  Applications of Normal Distributions  Sampling Distributions.

1 Chapter 2: The Normal Distribution 2.1Density Curves and the Normal Distributions 2.2Standard Normal Calculations.

© 2010 Pearson Prentice Hall. All rights reserved 7-1.

Copyright © 2013, 2010 and 2007 Pearson Education, Inc. Chapter The Normal Probability Distribution 7.

Chapter 5 Normal Probability Distributions. Chapter 5 Normal Probability Distributions Section 5-1 – Introduction to Normal Distributions and the Standard.

Section 6-1 Overview. Chapter focus is on: Continuous random variables Normal distributions Overview Figure 6-1 Formula 6-1 f(x) =  2  x-x-  )2)2.

Chapter 7 The Normal Probability Distribution 7.1 Properties of the Normal Distribution.

CHAPTER 2.3 PROBABILITY DISTRIBUTIONS. 2.3 GAUSSIAN OR NORMAL ERROR DISTRIBUTION  The Gaussian distribution is an approximation to the binomial distribution.

1 ES Chapter 3 ~ Normal Probability Distributions.

Lecture 8: Measurement Errors 1. Objectives List some sources of measurement errors. Classify measurement errors into systematic and random errors. Study.

Chapter 7 The Normal Probability Distribution

STA 291 Spring 2010 Lecture 8 Dustin Lueker.

Estimating the Value of a Parameter Using Confidence Intervals

Properties of the Normal Distribution

The Normal Probability Distribution

2.1 Normal Distributions AP Statistics.

Problem: Diagnosing Spina Bifida

5.4 Finding Probabilities for a Normal Distribution

Basic Practice of Statistics - 3rd Edition The Normal Distributions

Basic Practice of Statistics - 3rd Edition The Normal Distributions

The Normal Curve Section 7.1 & 7.2.

Section 13.6 The Normal Curve

STA 291 Spring 2008 Lecture 8 Dustin Lueker.

Chapter 5 Continuous Random Variables and Probability Distributions

Presentation transcript:

Chapter 6 The Normal Distribution In this handout: Probability model for a continuous random variable Normal distribution

The idea of a continuous probability distribution draws from the relative frequency histogram for a large number of measurements (recall chapter 2). Group data in class intervals, compute the relative frequencies of the intervals, and build a histogram (figure (a)). The total area under the histogram is 1. For two boundary points a and b of a class, the relative frequency of measurements in interval [a,b] is the area above this interval in the histogram. With increasing number of observations, refine the histogram by having more class intervals with smaller widths (fig. (b)). By proceeding in this manner, the jumps between consecutive rectangles tend to dampen out, and the top of the histogram approximates the shape of a smooth curve, as illustrated in figure (c). This curve is called probability density curve.

Boxes on Page 223 Probability density function; continuous random sample

For important distributions, areas have been extensively tabulated. In most tables, the entire area to the left of each point is tabulated. To obtain the probabilities of other intervals, we must apply the following rules: P[a < X < b] = (Area to left of b) – (Area to left of a)

Figure 6.2 (p. 225) Different shapes of probability density curves. (a) Symmetry and deviations from symmetry; (b) different peakedness.

Figure 6.3 (p. 225) Mean as the balance point and median as the point of equal division of the probability mass.

Figure 6.4 (p. 226) Quartiles of two continuous distributions.

Statisticians often find it convenient to convert random variables to a dimensionless scale. E.g., if a random variable X has mean 400 and standard deviation 60, then the standardized variable is Z = (X - 400)/60

Normal distribution A bell-shaped distribution has been found to provide a reasonable approximation in many situations. The normal distribution with a mean of μ and a standard deviation of σ is denoted by N(μ, σ). The curve never reaches 0 for any value of x, but because the tail areas outside (μ-3σ, μ+3σ) are very small, we usually terminate the graph at these points.

Figure 6.6 (p. 230) Two normal distributions with different means but the same standard deviation.

Figure 6.7 (p. 230) Decreasing  increases the maximum height and the concentration of probability about .