Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Normal Distribution

Published byBrett Gibson Modified over 5 years ago

Similar presentations

Presentation on theme: "The Normal Distribution"— Presentation transcript:

1 The Normal Distribution
Chapter 2

2 Continuous Random Variable
A continuous random variable: Represented by a function/graph. Area under the curve represents the proportions of the observations Total area is exactly 1. How do we locate the median for a continuous random variable? the mean? The median is the value that divides the graph into equal area while the mean is the “balance” point.

3 Continuous Random Variable 1
.4(1) =0.4 0.4 0.5 What percent of the observations lie below 0.4? 40%

4 Continuous Random Variable 2
1.4(.5) =0.7 0.6 What proportion of the observations lie above 0.6? Notice, to find proportion for observation above, we can use the complement rule.

5 Continuous Random Variable 3
Where is the mean and median? How will the curve change as s changes?

6 Normal Distributions Symmetric, single-peaked, and mound-shaped distributions are called normal distributions Normal curves: Mound shaped Mean = Median The mean m and standard deviation s completely determine the shape

7 The Normal Curve Will finding proportions work differently than previous random variable examples? Empirical Rule Discovery

8 68% of observations fall within 1s of m

9 95% of observations fall within 2s of m

10 99.7% of observations fall within 3s of m

11 Rule Applet

12 Rule 34% 34% .15% 2.35% 13.5% 13.5% 2.35% .15% Applet

13 Percentiles? .15th 2.5th 16th 50th 84th 97.5th 99.85th 34% 34% 2.35%
13.5% 13.5% 2.35%

14 What’s Normal in Statistics?
Normal distributions are good descriptions for real data allowing measures of relative position to be easily calculated (i.e. percentiles) Much of statistical inference (in this course) procedures area based on normal distributions FYI: many distributions aren’t normal

15 Distribution of dates is approximately normal with mean 1243 and standard deviation of 36 years.
1207 1243 1279

16 Assume the heights of college women are normally distributed with a mean of 65 inches and standard deviation of 2.5 inches. 62.5 65 67.5

17 What percentage of women are taller than 65 in.?
50% 62.5 65 67.5

18 What percentage of women are shorter than 65 in.?
50% 62.5 65 67.5

19 What percentage of women are between 62.5 in. and 67.5 in.?
68% 62.5 65 67.5

20 What percentage of women are between 60 in. and 70 in.?
95% 62.5 65 67.5

21 What percentage of women are between 60 and 67.5 in?
68% 13.5% 81.5% 62.5 65 67.5

22 What percentage of women are shorter than 70 in.?
50% 34% 13.5% 97.5% 62.5 65 67.5

Download ppt "The Normal Distribution"

Similar presentations

Chapter 2: The Normal Distributions

Chapter 2: The Normal Distributions
The Normal Distribution

The Normal Distribution
Normal distribution. An example from class HEIGHTS OF MOTHERS CLASS LIMITS(in.)FREQUENCY 52-530.5 53-541.5 54-551 55-562 56-576.5 57-5818 58-5934.5 59-6079.5.

Normal distribution. An example from class HEIGHTS OF MOTHERS CLASS LIMITS(in.)FREQUENCY
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.

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.
The 68-95-99.7 Rule Normal Distributions.

The Rule Normal Distributions.
AP Statistics: Section 2.2 A. One particularly important class of density curves are Normal curves which describe Normal distributions. Normal curves.

AP Statistics: Section 2.2 A. One particularly important class of density curves are Normal curves which describe Normal distributions. Normal curves.
NORMAL CURVE Needed for inferential statistics. Find percentile ranks without knowing all the scores in the distribution. Determine probabilities.

NORMAL CURVE Needed for inferential statistics. Find percentile ranks without knowing all the scores in the distribution. Determine probabilities.
Statistics 270 - Lecture 14. Example Consider a rv, X, with pdf Sketch pdf.

Statistics Lecture 14. Example Consider a rv, X, with pdf Sketch pdf.
Normal Distributions What is a Normal Distribution? Why are Many Variables Normally Distributed? Why are Many Variables Normally Distributed? How Are Normal.

Normal Distributions What is a Normal Distribution? Why are Many Variables Normally Distributed? Why are Many Variables Normally Distributed? How Are Normal.
Discrete and Continuous Random Variables Continuous random variable: A variable whose values are not restricted. 12.5 – The Normal Distribution Discrete.

Discrete and Continuous Random Variables Continuous random variable: A variable whose values are not restricted – The Normal Distribution Discrete.
Chapter 2: The Normal Distribution

Chapter 2: The Normal Distribution
Normal Distributions.

Normal Distributions.
Warm-Up If the variance of a set of data is 12.4, what is the standard deviation? If the standard deviation of a set of data is 5.7, what is the variance?

Warm-Up If the variance of a set of data is 12.4, what is the standard deviation? If the standard deviation of a set of data is 5.7, what is the variance?
Normal Distributions and the Empirical Rule Learning Target: I can use percentiles and the Empirical rule to determine relative standing of data on the.

Normal Distributions and the Empirical Rule Learning Target: I can use percentiles and the Empirical rule to determine relative standing of data on the.
12.913.714.114.214.5 14.614.715.115.215.3 15.515.6 15.8 16.0 16.2 16.316.4 16.516.6 16.817.0 17.217.4 17.918.4 Do NOT glue (we’ll do that later)— simply.

Do NOT glue (we’ll do that later)— simply.
Density Curves Can be created by smoothing histograms ALWAYS on or above the horizontal axis Has an area of exactly one underneath it Describes the proportion.

Density Curves Can be created by smoothing histograms ALWAYS on or above the horizontal axis Has an area of exactly one underneath it Describes the proportion.
AP Statistics Monday, 21 September 2015 OBJECTIVE TSW examine density curves, z-scores, Chebyshev’s Rule, normal curves, and the empirical rule. ASSIGNMENT.

AP Statistics Monday, 21 September 2015 OBJECTIVE TSW examine density curves, z-scores, Chebyshev’s Rule, normal curves, and the empirical rule. ASSIGNMENT.
AP Statistics Chapter 2 Notes. Measures of Relative Standing Percentiles The percent of data that lies at or below a particular value. e.g. standardized.

AP Statistics Chapter 2 Notes. Measures of Relative Standing Percentiles The percent of data that lies at or below a particular value. e.g. standardized.
Copyright © 2013, 2009, and 2007, Pearson Education, Inc. Chapter 6 Probability Distributions Section 6.2 Probabilities for Bell-Shaped Distributions.

Copyright © 2013, 2009, and 2007, Pearson Education, Inc. Chapter 6 Probability Distributions Section 6.2 Probabilities for Bell-Shaped Distributions.
Using the Empirical Rule. Normal Distributions These are special density curves. They have the same overall shape  Symmetric  Single-Peaked  Bell-Shaped.

Using the Empirical Rule. Normal Distributions These are special density curves. They have the same overall shape  Symmetric  Single-Peaked  Bell-Shaped.

Similar presentations

Ads by Google