Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Estimation of Population Mean Dr. T. T. Kachwala.

Published byWilla Burke Modified over 8 years ago

Similar presentations

Presentation on theme: "1 Estimation of Population Mean Dr. T. T. Kachwala."— Presentation transcript:

1 1 Estimation of Population Mean Dr. T. T. Kachwala

2 Estimation of Population Characteristics from Sample Characteristics 2 Statistical inference is based on estimation and hypothesis testing. In both, we shall be making inferences about the characteristics of populations from information contained in samples. To calculate exact population mean would be an impossible goal. However, we can make an estimate with a statement about the error that will accompany this estimate. Any sample statistic that is used to estimate a population parameter is called an estimator i.e. an estimator is a sample statistic used to estimate a population parameter.

3 Estimator & its desirable properties 3 For example sample mean ' ' is an estimator of the population mean . A good estimator is unbiased and efficient. An unbiased estimator is an estimator such that mean of its sampling distribution = population mean. For example A.M is unbiased because. On the other hand efficiency refers to the size of standard error of the statistic. Amongst the unbiased estimators, the estimator with the least variance is an efficient estimator.

4 Unbiased & Efficient Estimators 4 On similar lines, Standard Deviation s is unbiased and efficient estimator of  Using '(n-1)' in the denominator for ‘s’ gives us an unbiased estimator of  { i.e. if we used the formula; if can be proved that the estimator 's' will be a biased estimator of the population standard deviation  }

5 Point Estimate & Interval Estimate 5 There are two types of estimates about a population 1.Point estimate 2.Interval estimate A point estimate is a single number that is used to estimate an unknown population parameter. It is often insufficient because it is either right or wrong for e.g. the attendance in class of 60 students today will be 52 students. Point estimate is accompanied by an estimate of the error that might be involved. For example 52  5 On the other hand, an interval estimate is a range of values used to estimate a population parameter. For e.g. "47 - 57”. It indicates the error in two ways: by the extent of its range and by the probability of the true population parameter lying within that range.

6 Interval Estimates-Basic Concepts 6 An interval estimate describes a range of values within which a population parameters is likely to lie One can obtain intervals of different widths using the following mathematical formula: Interval estimate = Point estimate ± Margin of error Where 'z' is the table value from Standard Normal Table. For different values of z one can obtain different interval width {the value of z lies between 0.01 to 3.09 to infinity}. Also for each value of 'z' one can obtain the corresponding value of 'a' using Standard Normal Table.

7 Interval Estimates-Basic Concepts 7 There is a direct relationship existing between confidence level and the width of interval estimate - for example: Value of z Width of Interval Estimate Confidence level z = 1.645 90% Confidence level z = 1.96 95% Confidence level z = 2.575 99% Confidence level In statistics, the probability that we associate with an interval estimate is called the confidence level. It indicates how confident we are that the interval estimate will include the population parameter. The most frequently used confidence intervals are 90 percent, 95 percent and 99 percent confidence intervals. The corresponding three popular values of z are: 1.645, 1.96 & 2.575.

8 Interval Estimates using the 't' Distribution 8 When the population standard derivation '  ' is not known and the sample size is '30 or less’; then normal distribution is not the appropriate sampling distribution. Fortunately, another distribution exists that is appropriate in these cases. It is called the 't' distribution. Statistician 'Gosset' who adopted the pen name 'student' developed the t distribution commonly referred as student's t distribution. Use of t distribution for estimating is required when: the sample size is 30 or less Population standard deviation is not known Population is normal or approximately normal The ‘t’ distribution like the normal distribution is symmetrical. There is a different t distribution for each of the possible “level of significance” and "degree of freedom".

9 9 Concept of Level of Significance α Mathematically Level of Significance α = 1 – Confidence level For example 95% confidence level is the same as 5% level of significance Level of Significance α signifies the total area under the tail of the distribution

10 Concept of Degree of Freedom 10 Degree of Freedom can be defined as the number of values we can choose freely. Alternatively, by degree of freedom we mean the number of independent observations that can be assigned arbitrarily without violating the restrictions or limitations placed. Symbolically, = N - K (nu) (observn) (constraint) In general, for problems concerning one sample of size 'n' = n - 1 and for problems concerning two samples of size n 1 & n 2, ν = n 1 + n 2 – 2

11 Characteristics of the ‘t’ distribution 11 The 't' table differs from 'z' table. Because there is a different t distribution for each numbers of degree of freedom, t values are given only for a few percentage (level of significance for e.g. :  = 0.1, 0.05, 0.01) Another difference in the 't' table is that it focuses on rejection area (level of significance  = 0.05, 0.01) while z table focuses on acceptance area (confidence level = 95%, 99%) Finally, while specifying t table, we must specify level of significance and degree of freedom for e.g. t 0.05, 10 = 2.22

12 Relationship between 't' distribution and Normal distribution 12 Both 't' distribution and Normal distribution are symmetrical. In general, 't' distribution is flatter than the normal distribution and there is a different 't' distribution for every degree of freedom. As sample size gets larger t distribution approximates normal distribution as indicated below: (t distribution n>30) Normal Distribution t distribution n = 2

13 Relationship between 't' distribution and Normal distribution 13 A t distribution is lower at the mean and higher at the tails than a normal distribution. A t distribution has proportionately more of its area in its tail than the normal distribution. As a result, the ordinates have to go further out from the mean of a t distribution to include the same area under the curve. Interval widths from t distribution are wider than those based on normal distribution.

14 14 Thank You Dr. T. T. Kachwala

Download ppt "1 Estimation of Population Mean Dr. T. T. Kachwala."

Similar presentations

Estimation of Means and Proportions

Estimation of Means and Proportions
Parameter Estimation Chapter 8 Homework: 1-7, 9, 10 Focus: when  is known (use z table)

Parameter Estimation Chapter 8 Homework: 1-7, 9, 10 Focus: when  is known (use z table)
Sampling: Final and Initial Sample Size Determination

Sampling: Final and Initial Sample Size Determination
Hypothesis: It is an assumption of population parameter ( mean, proportion, variance) There are two types of hypothesis : 1) Simple hypothesis :A statistical.

Hypothesis: It is an assumption of population parameter ( mean, proportion, variance) There are two types of hypothesis : 1) Simple hypothesis :A statistical.
Chap 8-1 Statistics for Business and Economics, 6e © 2007 Pearson Education, Inc. Chapter 8 Estimation: Single Population Statistics for Business and Economics.

Chap 8-1 Statistics for Business and Economics, 6e © 2007 Pearson Education, Inc. Chapter 8 Estimation: Single Population Statistics for Business and Economics.
Chapter 11- Confidence Intervals for Univariate Data Math 22 Introductory Statistics.

Chapter 11- Confidence Intervals for Univariate Data Math 22 Introductory Statistics.
Class Handout #3 (Sections 1.8, 1.9)

Class Handout #3 (Sections 1.8, 1.9)
BCOR 1020 Business Statistics Lecture 17 – March 18, 2008.

BCOR 1020 Business Statistics Lecture 17 – March 18, 2008.
Chapter 8 Estimation: Single Population

Chapter 8 Estimation: Single Population
Inference about a Mean Part II

Inference about a Mean Part II
Sampling and Sampling Distributions

Sampling and Sampling Distributions
1 (Student’s) T Distribution. 2 Z vs. T Many applications involve making conclusions about an unknown mean . Because a second unknown, , is present,

1 (Student’s) T Distribution. 2 Z vs. T Many applications involve making conclusions about an unknown mean . Because a second unknown, , is present,
Business Statistics, A First Course (4e) © 2006 Prentice-Hall, Inc. Chap 8-1 Chapter 8 Confidence Interval Estimation Business Statistics, A First Course.

Business Statistics, A First Course (4e) © 2006 Prentice-Hall, Inc. Chap 8-1 Chapter 8 Confidence Interval Estimation Business Statistics, A First Course.
Confidence Interval A confidence interval (or interval estimate) is a range (or an interval) of values used to estimate the true value of a population.

Confidence Interval A confidence interval (or interval estimate) is a range (or an interval) of values used to estimate the true value of a population.
Business Statistics: Communicating with Numbers

Business Statistics: Communicating with Numbers
Estimation Goal: Use sample data to make predictions regarding unknown population parameters Point Estimate - Single value that is best guess of true parameter.

Estimation Goal: Use sample data to make predictions regarding unknown population parameters Point Estimate - Single value that is best guess of true parameter.
AM 680.01 Recitation 2/10/11.

AM Recitation 2/10/11.
Statistical inference: confidence intervals and hypothesis testing.

Statistical inference: confidence intervals and hypothesis testing.
Chapter 7 Estimation: Single Population

Chapter 7 Estimation: Single Population
Confidence Interval Estimation

Confidence Interval Estimation

Similar presentations

Ads by Google