Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Normal Distribution. Using Models to Describe Data Distributions The Density Curve All density curves are based on mathematical models (“equations”)

Published byGary Barker Modified over 9 years ago

Similar presentations

Presentation on theme: "The Normal Distribution. Using Models to Describe Data Distributions The Density Curve All density curves are based on mathematical models (“equations”)"— Presentation transcript:

1 The Normal Distribution

2 Using Models to Describe Data Distributions The Density Curve All density curves are based on mathematical models (“equations”) that can be used to describe the frequency for a given datum The area under all densities curves equals 1 the data the model

3 A Very Useful Model The Normal Distribution is a model that can be used to describe data that is: Uni-modal Symmetric Approximates the “bell curve” Can be described by the equation:

4 The “Rule” Normally distributed data has the following critical property: The 68-95-99.7 Rule

5 Example… You have just received the score on your law-school admissions test (LSAT). You got 163. The exam results are normally distributed with N(155,2.6) for that year of testing. In order to apply to a very prestigious law school you must finish in the 97 th percentile or better. Can you apply with this score?

6 Z-Scores and the Standard Normal Distribution All normal distributions share the same shape A simple linear transformation can convert any normal distribution to the Standard Form This gives us the concept of the Z-Score The 68-95-99.7 rule applies here and can give us a deeper insight into what a z-score means Converting to Z-scores allows you to use Table A (inside cover of book)

7 The Standard Normal Distribution Any normal distribution can be converted to the SND via z-score to N(m,s)  N(0,1)

8 Using z-scores… Z If the z-score for a data Point is 1 then this means That 84.13% of the samples In the population are less than The value of this data point How do you interpret a z-score of -1.71?

9 Who’s the Greatest? Ty Cobb batted 0.420 In 1911 N(0.266,0.0371) Ted Williams batted 0.406 in 1941 N(0.267,0.0326) George Brett batted 0.390 in 1980 N(0.261,0.0317) z = 4.15 z = 4.26 z = 4.07

10 Normal Quantile Plots (digging deeper) If you want to use what we have just learned to assess data then you must be sure that the data fits a normal distribution. Visual inspection (stemplot or histogram is a good start). The Normal Quantile Plot is even better…Plot data against the probability value that you get for the z- score of the data. If the graph is a straightline the data is normally distributed. Warning! Your text “messed-up!” All of the normal quantile plots have a deceptively labeled x-axis – instead of z-score it should be the probability associated with the z-score.

11 Example: Here is the data from an amazing star WZ Sagittae Am I justified in thinking that the noise in this data is normally distributed? My comparison sources – the “fuzz” in the data is the “noise” or error which I attribute to basic natural processes of measuring light

12 Look at the Data…

13 “Z-Score” Plot

14 In conclusion… Review the summary on pages 83-84. Make sure you understand z-scores, what they mean and how to use them. Sample problems to gauge your understanding: 1.81, 1.93, 1.97

Download ppt "The Normal Distribution. Using Models to Describe Data Distributions The Density Curve All density curves are based on mathematical models (“equations”)"

Similar presentations

Chapter 2: The Normal Distributions

Chapter 2: The Normal Distributions
Chapter 6: The Standard Deviation as a Ruler and the Normal Model

Chapter 6: The Standard Deviation as a Ruler and the Normal Model
Homework for 2.1 Day 1: 41, 43, 45, 47, 49, 51. 1) To use the 68-95-99.7 rule to estimate the percent of observations from a Normal Distribution that.

Homework for 2.1 Day 1: 41, 43, 45, 47, 49, 51. 1) To use the rule to estimate the percent of observations from a Normal Distribution that.
Statistics for the Social Sciences Psychology 340 Fall 2006 Review For Exam 1.

Statistics for the Social Sciences Psychology 340 Fall 2006 Review For Exam 1.
The Normal Distribution. Distribution – any collection of scores, from either a sample or population Can be displayed in any form, but is usually represented.

The Normal Distribution. Distribution – any collection of scores, from either a sample or population Can be displayed in any form, but is usually represented.
NORMAL DISTRIBUTION Normal distribution- continuous distribution.

NORMAL DISTRIBUTION Normal distribution- continuous distribution.
Ch. 6 The Normal Distribution

Ch. 6 The Normal Distribution
Chapter Six z-Scores and the Normal Curve Model. Copyright © Houghton Mifflin Company. All rights reserved.Chapter 6 - 2 The absolute value of a number.

Chapter Six z-Scores and the Normal Curve Model. Copyright © Houghton Mifflin Company. All rights reserved.Chapter The absolute value of a number.
The Normal Distributions

The Normal Distributions
5.4 The Central Limit Theorem Statistics Mrs. Spitz Fall 2008.

5.4 The Central Limit Theorem Statistics Mrs. Spitz Fall 2008.
Chapter 5 DESCRIBING DATA WITH Z-SCORES AND THE NORMAL CURVE.

Chapter 5 DESCRIBING DATA WITH Z-SCORES AND THE NORMAL CURVE.
The Normal Model Ch. 6. “All models are wrong – but some are useful.” -- George Box.

The Normal Model Ch. 6. “All models are wrong – but some are useful.” -- George Box.
C HAPTER 2: T HE N ORMAL D ISTRIBUTIONS. F INDING A VALUE GIVEN A PROPORTION If you want to find the observed value that pertains to a given proportion:

C HAPTER 2: T HE N ORMAL D ISTRIBUTIONS. F INDING A VALUE GIVEN A PROPORTION If you want to find the observed value that pertains to a given proportion:
Density Curve A density curve is the graph of a continuous probability distribution. It must satisfy the following properties: 1. The total area.

Density Curve A density curve is the graph of a continuous probability distribution. It must satisfy the following properties: 1. The total area.
Objectives (BPS 3) The Normal distributions Density curves

Objectives (BPS 3) The Normal distributions Density curves
3.3 Density Curves and Normal Distributions

3.3 Density Curves and Normal Distributions
Looking at Data - Distributions Density Curves and Normal Distributions IPS Chapter 1.3 © 2009 W.H. Freeman and Company.

Looking at Data - Distributions Density Curves and Normal Distributions IPS Chapter 1.3 © 2009 W.H. Freeman and Company.
Second graded Homework Assignment: 1.80; 1.84; 1.92; 1.110; 1.115; 1.141 (optional: 1.127) Due in Labs on Sept 14-15.

Second graded Homework Assignment: 1.80; 1.84; 1.92; 1.110; 1.115; (optional: 1.127) Due in Labs on Sept
The distribution of heights of adult American men is approximately normal with mean 69 inches and standard deviation 2.5 inches. Use the 68-95-99.7 rule.

The distribution of heights of adult American men is approximately normal with mean 69 inches and standard deviation 2.5 inches. Use the rule.
2.2A I NTRODUCTION TO N ORMAL D ISTRIBUTIONS. S ECTION 2.2A N ORMAL D ISTRIBUTIONS After this lesson, you should be able to… DESCRIBE and APPLY the 68-95-99.7.

2.2A I NTRODUCTION TO N ORMAL D ISTRIBUTIONS. S ECTION 2.2A N ORMAL D ISTRIBUTIONS After this lesson, you should be able to… DESCRIBE and APPLY the

Similar presentations

Ads by Google