Presentation is loading. Please wait.

Presentation is loading. Please wait.

Module 6: Continuous Probability Distributions

Published byMoses Reynolds Modified over 9 years ago

Similar presentations

Presentation on theme: "Module 6: Continuous Probability Distributions"— Presentation transcript:

1 Module 6: Continuous Probability Distributions
Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

2 The Uniform Distribution
The uniform probability distribution is perhaps the simplest distribution for a continuous random variable. This distribution is rectangular in shape and is defined by minimum and maximum values. Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

3 The Uniform Distribution – Mean and Standard Deviation
Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

4 Draw a graph of this distribution.
Southwest Arizona State University provides bus service to students while they are on campus. A bus arrives at the North Main Street and College Drive stop every 30 minutes between 6 A.M. and 11 P.M. during weekdays. Students arrive at the bus stop at random times. The time that a student waits is uniformly distributed from 0 to 30 minutes. Draw a graph of this distribution. Show that the area of this uniform distribution is 1.00. How long will a student “typically” have to wait for a bus? In other words, what is the mean waiting time? What is the standard deviation of the waiting times? What is the probability a student will wait more than 25 minutes? What is the probability a student will wait between 10 and 20 minutes? Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

5 What is the Standard Deviation of the distribution?
The length of time patients must wait to see a doctor in a local clinic is uniformly distributed between 15 minutes and 2 1/2 hours. What is the probability that a patient would have to wait between ¾ of an hour and 2 hours? Calculate the probability that a patient would have to wait over 2 hours. The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes. What is the probability that she will finish her trip in 80 minutes or less? What is the probability that her trip will take longer than 60 minutes? What is the Standard Deviation of the distribution? Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

6 Characteristics of Normal Curve
Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

7 Characteristics of Normal Curve
Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

8 Areas Under the Curve Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

9 Applications of Normal Distribution
A plant manager knows that the number of boxes of supplies received weekly is normally distributed with a mean of 200 and a standard deviation of 20. What percentage of the time will the number of boxes received weekly be greater than 210 or Less than 180?  What percentage of the time will the number of boxes received weekly be greater than 200  What percentage of the time will the number of boxes received weekly be less than 160?  What percentage of the time will the number of boxes received weekly be greater than 210 or Less than 180?  What percentage of the time will the number of boxes received weekly be greater than 175 Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

10 Normal Approximation to Binomial: Continuity Correction Factor
The “Test” … 𝑛 𝑥 𝑝>5 𝐴𝑁𝐷 𝑛 𝑥 𝑞>5 Apply a Continuity Correction Factor of 0.50 to convert a Discrete Variable to a Continuous Variable Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

11 Normal Approximation to the Binomial
The probability that a call to an emergency help line is answered in less than 10 seconds is 0.8. Assume that the calls are independent of each other. Using the normal approximation for binomial with a correction for continuity, the probability that at least 75 of 100 calls are answered within 10 seconds is approximately _______ Assuming an equal chance of a new baby being a boy or a girl we would like to find the probability of 40 or more of the next 100 births at a local hospital will be boys. Use the normal approximation for binomial with a correction for continuity. Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

12 X = μ + (zσ) The “Magic Formula” for Normal Distribution!
Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license. The “Magic Formula” for Normal Distribution!

13 Solving for X Suppose you are working with a data set that is normally distributed with a mean of 400 and a standard deviation of 20. Determine the value of x such that 60% of the values are greater than x. Suppose x is a normal random variable with mean 60 and standard deviation 2. A z score was calculated for a number, and the z score is What is x? Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

14 Solving for σ and/or μ The weight of a product is normally distributed with a mean 5 ounces. A randomly selected unit of this product weighs 7.1 ounces. The probability of a unit weighing more than 7.1 ounces is The production supervisor has lost files containing various pieces of information regarding this process including the standard deviation. Determine the value of standard deviation for this process.  Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

15 Solving for σ and/or μ If the mileage per gallon for a car is normally distributed, 32 mpg has a z-score of 1.2, and 24 mpg has a z-score of -.4, what is the mean mpg of the distribution?  Given the length an athlete throws a hammer is a normal random variable with a standard deviation of 5 feet. If the probability he throws it no less than 55 feet is 15.87%, what is the average distance an athlete can throw a hammer?   Content created by Linda Williams of Tidewater Community College for Z Degree Project, originally published at under a CC BY-NC-SA license.

Download ppt "Module 6: Continuous Probability Distributions"

Similar presentations

1 1 Slide © 2009 Thomson South-Western. All Rights Reserved Slides by JOHN LOUCKS St. Edward’s University.

1 1 Slide © 2009 Thomson South-Western. All Rights Reserved Slides by JOHN LOUCKS St. Edward’s University.
Section 5.2 Normal Distributions: Finding Probabilities.

Section 5.2 Normal Distributions: Finding Probabilities.
Continuous Random Variables and the Central Limit Theorem

Continuous Random Variables and the Central Limit Theorem
©The McGraw-Hill Companies, Inc. 2008McGraw-Hill/Irwin The Normal Probability Distribution Chapter 7.

©The McGraw-Hill Companies, Inc. 2008McGraw-Hill/Irwin The Normal Probability Distribution Chapter 7.
Continuous Probability Distributions Chapter 07 Copyright © 2013 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.

Continuous Probability Distributions Chapter 07 Copyright © 2013 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.
©The McGraw-Hill Companies, Inc. 2008McGraw-Hill/Irwin The Normal Probability Distribution Chapter 7.

©The McGraw-Hill Companies, Inc. 2008McGraw-Hill/Irwin The Normal Probability Distribution Chapter 7.
The Normal Distribution

The Normal Distribution
Continuous Probability Distributions Chapter 07 McGraw-Hill/Irwin Copyright © 2013 by The McGraw-Hill Companies, Inc. All rights reserved.

Continuous Probability Distributions Chapter 07 McGraw-Hill/Irwin Copyright © 2013 by The McGraw-Hill Companies, Inc. All rights reserved.
The Normal Distribution

The Normal Distribution
Continuous Probability Distributions Chapter 7 Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.

Continuous Probability Distributions Chapter 7 Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.
Yaochen Kuo KAINAN University . SLIDES . BY.

Yaochen Kuo KAINAN University . SLIDES . BY.
1 1 Slide IS 310 – Business Statistics IS 310 Business Statistics CSU Long Beach.

1 1 Slide IS 310 – Business Statistics IS 310 Business Statistics CSU Long Beach.
1 1 Slide 2009 University of Minnesota-Duluth, Econ-2030 (Dr. Tadesse) Chapter-6 Continuous Probability Distributions.

1 1 Slide 2009 University of Minnesota-Duluth, Econ-2030 (Dr. Tadesse) Chapter-6 Continuous Probability Distributions.
Modular 12 Ch 7.2 Part II to 7.3. Ch 7.2 Part II Applications of the Normal Distribution Objective B : Finding the Z-score for a given probability Objective.

Modular 12 Ch 7.2 Part II to 7.3. Ch 7.2 Part II Applications of the Normal Distribution Objective B : Finding the Z-score for a given probability Objective.
Normal Distribution * Numerous continuous variables have distribution closely resemble the normal distribution. * The normal distribution can be used to.

Normal Distribution * Numerous continuous variables have distribution closely resemble the normal distribution. * The normal distribution can be used to.
Section 7.4 Approximating the Binomial Distribution Using the Normal Distribution HAWKES LEARNING SYSTEMS math courseware specialists Copyright © 2008.

Section 7.4 Approximating the Binomial Distribution Using the Normal Distribution HAWKES LEARNING SYSTEMS math courseware specialists Copyright © 2008.
1 1 Slide STATISTICS FOR BUSINESS AND ECONOMICS Seventh Edition AndersonSweeneyWilliams Slides Prepared by John Loucks © 1999 ITP/South-Western College.

1 1 Slide STATISTICS FOR BUSINESS AND ECONOMICS Seventh Edition AndersonSweeneyWilliams Slides Prepared by John Loucks © 1999 ITP/South-Western College.
CHAPTER 6 CONTINUOUS RANDOM VARIABLES AND THE NORMAL DISTRIBUTION Prem Mann, Introductory Statistics, 8/E Copyright © 2013 John Wiley & Sons. All rights.

CHAPTER 6 CONTINUOUS RANDOM VARIABLES AND THE NORMAL DISTRIBUTION Prem Mann, Introductory Statistics, 8/E Copyright © 2013 John Wiley & Sons. All rights.
CONTINUOUS RANDOM VARIABLES AND THE NORMAL DISTRIBUTION

CONTINUOUS RANDOM VARIABLES AND THE NORMAL DISTRIBUTION
CONTINUOUS RANDOM VARIABLES AND THE NORMAL DISTRIBUTION

CONTINUOUS RANDOM VARIABLES AND THE NORMAL DISTRIBUTION

Similar presentations

Ads by Google