Presentation is loading. Please wait.

Presentation is loading. Please wait.

CHAPTER 2 – DISCRETE DISTRIBUTIONS HÜSEYIN GÜLER MATHEMATICAL STATISTICS Discrete Distributions 1.

Published byMercedes Vercoe Modified over 10 years ago

Similar presentations

Presentation on theme: "CHAPTER 2 – DISCRETE DISTRIBUTIONS HÜSEYIN GÜLER MATHEMATICAL STATISTICS Discrete Distributions 1."— Presentation transcript:

1 CHAPTER 2 – DISCRETE DISTRIBUTIONS HÜSEYIN GÜLER MATHEMATICAL STATISTICS Discrete Distributions 1

2 2.1. DISCRETE PROBABILITY DISTRIBUTIONS The concept of random variable: S: Space or support of an experiment A random variable (r.v.) X is a real valued function defined on the space. X: S → R x: Represents the value of X x ε S X is a discrete r.v. if its possible values are finite, or countably infinite. Discrete Distributions 2

3 A chip is selected randomly from the bowl: Discrete Distributions 3  S = {1, 2, 3, 4}  X: The number on the selected chip  X is a r.v. with space S  x = 1, 2, 3, 4. X is a discrete r.v. (it takes 4 different values)

4 P(X = x): Represents the probability that X is equal to x. Discrete Distributions 4 The distribution of probability on the support S The probability mass function (p.m.f.)

5 Discrete Distributions 5

6 CALCULATING PROBABILITIES USING P.M.F. Discrete Distributions 6  Compute the probability that the number on the chip is 3 or 4.  If A is a subset of S then

7 CALCULATING PROBABILITIES USING P.M.F. Discrete Distributions 7  Compute the probability that the number on the chip is less than or equal to 3.

8 RELATIVE FREQUENCIES AND RELATIVE FREQUENCY HISTOGRAM Discrete Distributions 8  The histogram of relative frequencies is called relative frequency histogram.  Relative frequencies converge to the p.m.f as n increases.  When the experiment is performed n times the relative frequency of x is

9 The chip experiment is repeated n = 1000 times using a computer simulation. Discrete Distributions 9 x1234Total Frequency 98209305388 n = 1000 h (x) 0.0980.2090.3050.388 1

10 THE COMPARISON OF f(x) AND h(x) Discrete Distributions 10  f(x) is theoretically obtained while h(x) is obtained from a sample. x1234Total f (x) 0.10.20.30.4 1 h (x) 0.0980.2090.3050.388 1

11 THE MEAN OF THE (PROBABILITY) DISTRIBUTION Discrete Distributions 11 called the mean of X.  It is possible to estimate μ using relative frequencies.  The weighted average of X is

12 THE MEAN OF THE EMPIRICAL DISTRIBUTION x 1, x 2,..., x n : Observed values of x f j : The frequency of u j u j = 1, 2, 3, 4. Discrete Distributions 12 the empirical distribution the mean of the empirical distribution or the sample mean

13 THE VARIANCE AND THE STANDARD DEVIATION OF THE DISTRIBUTION Discrete Distributions 13  The variance of X is  The standart deviation of X is

14 AN ALTERNATIVE FOR THE VARIANCE OF THE DISTRIBUTION Discrete Distributions 14 r_th moment about the origin

15 THE VARIANCE OF THE EMPIRICAL DISTRIBUTION Discrete Distributions 15

16 THE VARIANCE AND THE STANDART DEVIATION OF THE SAMPLE Discrete Distributions 16  s 2 (the variance of the sample) is an estimate of (the variance of X).

Download ppt "CHAPTER 2 – DISCRETE DISTRIBUTIONS HÜSEYIN GÜLER MATHEMATICAL STATISTICS Discrete Distributions 1."

Similar presentations

TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST

TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST
Chapter 5 One- and Two-Sample Estimation Problems.

Chapter 5 One- and Two-Sample Estimation Problems.
Quantitative Methods Topic 5 Probability Distributions

Quantitative Methods Topic 5 Probability Distributions
STATISTICS Sampling and Sampling Distributions

STATISTICS Sampling and Sampling Distributions
R_SimuSTAT_2 Prof. Ke-Sheng Cheng Dept. of Bioenvironmental Systems Eng. National Taiwan University.

R_SimuSTAT_2 Prof. Ke-Sheng Cheng Dept. of Bioenvironmental Systems Eng. National Taiwan University.
STATISTICS Random Variables and Distribution Functions

STATISTICS Random Variables and Distribution Functions
Sampling Distributions and Estimators

Sampling Distributions and Estimators
0 - 0.

0 - 0.
MULT. INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.

MULT. INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.
Addition Facts 1 - 20.

Addition Facts
C82MST Statistical Methods 2 - Lecture 2 1 Overview of Lecture Variability and Averages The Normal Distribution Comparing Population Variances Experimental.

C82MST Statistical Methods 2 - Lecture 2 1 Overview of Lecture Variability and Averages The Normal Distribution Comparing Population Variances Experimental.
Lecture 2 ANALYSIS OF VARIANCE: AN INTRODUCTION

Lecture 2 ANALYSIS OF VARIANCE: AN INTRODUCTION
The Poisson distribution

The Poisson distribution
Probability Distributions

Probability Distributions
Discrete Random Variables 2 To understand and calculate with cumulative distribution functions To be able to calculate the mean or expected value of a.

Discrete Random Variables 2 To understand and calculate with cumulative distribution functions To be able to calculate the mean or expected value of a.
STATISTICAL INFERENCE ABOUT MEANS AND PROPORTIONS WITH TWO POPULATIONS

STATISTICAL INFERENCE ABOUT MEANS AND PROPORTIONS WITH TWO POPULATIONS
Chapter 7 Sampling and Sampling Distributions

Chapter 7 Sampling and Sampling Distributions
CHAPTER 11: Sampling Distributions

CHAPTER 11: Sampling Distributions
Department of Engineering Management, Information and Systems

Department of Engineering Management, Information and Systems
1 Econ 240A Power Four 1 1. 2 Last Time Probability.

1 Econ 240A Power Four Last Time Probability.

Similar presentations

Ads by Google