Presentation is loading. Please wait.

Presentation is loading. Please wait.

Theme 8. Major probability distributions

Published byMelissa Dickerson Modified over 6 years ago

Similar presentations

Presentation on theme: "Theme 8. Major probability distributions"— Presentation transcript:

1 Theme 8. Major probability distributions
1. Discrete random variables: binomial distribution. 2. Continuous random variables: normal distribution. 3. Continuous random variables: t distribution. 4. Continuous random variables: Chi Square distribution. 5. Continuous random variables: F distribution.

2 8.1 Binomial distribution (discrete random variables)
It is used when:   1. We have a number n of "experiments" (observations), all independent of each other. 2. In each of these "experiments”, there is a binary outcome (success [p] vs. failure [1-p]) 3. The probability of "success" [p] is the same in every "experiment" Expected value= n * p With high values of n, this distribution approaches the normal distribution.

3 8.2 Normal distribution (or Gaussian)
It is the best known distribution. Its density function is: Where alpha can be any real number, and beta can be any positive real number; the first functions as mean and the second variance.

4 normal distribution (2)
It is symmetric and unimodal Like any other continuous distribution, the area under the curve is 1 (remember that the curve is asymptotic to the X axis standardized normal distribution It is one that has mean 0 and variance 1. It can be expressed as N (0,1)

5 8.3 Student t Distribution
It's symmetrical and unimodal, with mean 0 It's a family of curves, depending on the so-called "degrees of freedom". That is, there is a Student's t distribution with 1 df, Student's t-distribution with 2 df, etc. -As the degrees of freedom increase, the t distribution tends more and more to a standardized normal distribution. (It is used to contrast the means of two groups, etc.)

6 8.4 Distribution chi-square
It never adopts negative values It's positive asymmetrical It's actually a family of curves, depending on the so-called "degrees of freedom". That is, there is a chi-square distribution with 1 df, chi-square distribution with 2 df, etc. (Note: The degrees of freedom are always positive numbers.) -As the degrees of freedom increase, the distribution becomes more and more symmetrical. When to use it: In tests of goodness of fit (when comparing the predicted scores with observed scores), for instance.

7 8.5 Fisher’s F distribution (in some books "Snedecor’s F")
It can not adopt negative values It's positive asymmetrical It's actually a family of curves, depending on the so-called "degrees of freedom" of the numerator and denominator. That is, there is a Fisher F con1 gl in the numerator and 10 df in the denominator, etc. - It can be shown that the distribution F corresponds to a ratio of two chi-square, hence we speak in the case of F degrees of freedom in the numerator and denominator. (Analysis of Variance -ANOVA- among others)

Download ppt "Theme 8. Major probability distributions"

Similar presentations

Statistical Techniques I

Statistical Techniques I
Estimating a Population Variance

Estimating a Population Variance
Independent Sample T-test Formula

Independent Sample T-test Formula
Analysis of Variance: ANOVA. Group 1: control group/ no ind. Var. Group 2: low level of the ind. Var. Group 3: high level of the ind var.

Analysis of Variance: ANOVA. Group 1: control group/ no ind. Var. Group 2: low level of the ind. Var. Group 3: high level of the ind var.
Lesson #23 Analysis of Variance. In Analysis of Variance (ANOVA), we have: H 0 :  1 =  2 =  3 = … =  k H 1 : at least one  i does not equal the others.

Lesson #23 Analysis of Variance. In Analysis of Variance (ANOVA), we have: H 0 :  1 =  2 =  3 = … =  k H 1 : at least one  i does not equal the others.
BHS Methods in Behavioral Sciences I

BHS Methods in Behavioral Sciences I
Statistical Background

Statistical Background
OMS 201 Review. Range The range of a data set is the difference between the largest and smallest data values. It is the simplest measure of dispersion.

OMS 201 Review. Range The range of a data set is the difference between the largest and smallest data values. It is the simplest measure of dispersion.
Copyright © 2014 by McGraw-Hill Higher Education. All rights reserved.

Copyright © 2014 by McGraw-Hill Higher Education. All rights reserved.
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.
Chi-Square Tests and the F-Distribution

Chi-Square Tests and the F-Distribution
Analysis of Variance. v Single classification analysis of variance determines whether a relationship exists between a dependent variable and several classifications.

Analysis of Variance. v Single classification analysis of variance determines whether a relationship exists between a dependent variable and several classifications.
AP STATISTICS LESSON 13 – 1 (DAY 1) CHI-SQUARE PROCEDURES TEST FOR GOODNESS OF FIT.

AP STATISTICS LESSON 13 – 1 (DAY 1) CHI-SQUARE PROCEDURES TEST FOR GOODNESS OF FIT.
What if the population standard deviation, , is unknown? We could estimate it by the sample standard deviation s which is the square root of the sample.

What if the population standard deviation, , is unknown? We could estimate it by the sample standard deviation s which is the square root of the sample.
1 Tests with two+ groups We have examined tests of means for a single group, and for a difference if we have a matched sample (as in husbands and wives)

1 Tests with two+ groups We have examined tests of means for a single group, and for a difference if we have a matched sample (as in husbands and wives)
Review of Statistics Group Results. Which type of statistics? When comparing two group scores-Use the t-test. When comparing more than two scores: Use.

Review of Statistics Group Results. Which type of statistics? When comparing two group scores-Use the t-test. When comparing more than two scores: Use.
EDRS 6208 Analysis and Interpretation of Data Non Parametric Tests

EDRS 6208 Analysis and Interpretation of Data Non Parametric Tests
7.2 Confidence Intervals When SD is unknown. The value of , when it is not known, must be estimated by using s, the standard deviation of the sample.

7.2 Confidence Intervals When SD is unknown. The value of , when it is not known, must be estimated by using s, the standard deviation of the sample.
540201 Statistics for Engineer Week II and Week III: Random Variables and Probability Distribution.

Statistics for Engineer Week II and Week III: Random Variables and Probability Distribution.
(c) 2007 IUPUI SPEA K300 (4392) Outline Normal Probability Distribution Standard Normal Probability Distribution Standardization (Z-score) Illustrations.

(c) 2007 IUPUI SPEA K300 (4392) Outline Normal Probability Distribution Standard Normal Probability Distribution Standardization (Z-score) Illustrations.

Similar presentations

Ads by Google