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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.

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Presentation on theme: "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."— Presentation transcript:

1 OMS 201 Review

2 Range The range of a data set is the difference between the largest and smallest data values. It is the simplest measure of dispersion. It is very sensitive to the smallest and largest data values. OMS 201 Review

3 Variance n Thevariance is the average of the squared differences between each data value and the mean. n If the data set is a sample, the variance is denoted by s 2. n If the data set is a population, the variance is denoted by  2. s x i x n 2 1     () i 2      2    ()x N 2 ) OMS 201 Review

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6 Random Variables A random variable is a numerical description of the outcome of an experiment. A discrete random variable may assume either a finite number of values or an infinite sequence of values. A continuous random variable may assume any numerical value in an interval or collection of intervals. OMS 201 Review

7 Expected Value and Variance The expected value, or mean, of a random variable is a measure of its central location. –Expected value of a discrete random variable: E (x ) =  =  x f (x ) OMS 201 Review

8 The Binomial Probability Distribution where f (x ) = the probability of x successes in n trials n = the number of trials p = the probability of success on any one trial fx n xnx pp xn x () ! !()! () ( )     1 OMS 201 Review

9 Example: Evans Electronics Using the Tables of Binomial Probabilities OMS 201 Review

10 The Normal Probability Distribution Graph of the Normal Probability Density Function  x f (x ) OMS 201 Review

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12 Sampling Distribution of for the SAT Scores From Census OMS 201 Review

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14 Using the standard normal probability table with z = 10/11.3 =.88, we have area = (.3106)(2) =.6212. There is a.6212 probability that the sample mean will be within +/-10 of the actual population mean. How do we increase this probability? When n is increased the standard error of the mean is decreased Large sample sizes will provide a higher probability that the sample mean is within a specified distance of the mean! OMS 201 Review

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19 Interval Estimation of a Population Mean: Small-Sample Case (n < 30) If Population is not normally distributed: –The only option is to increase the sample size to n > 30 and use the large-sample interval-estimation procedures. If Population is normally distributed and  is known: –The large-sample interval-estimation procedure can be used. If Population is normally distributed and  is unknown: –The appropriate interval estimate is based on a probability distribution known as the t distribution. OMS 201 Review

20 t Distribution The t distribution is a family of similar probability distributions. A specific t distribution depends on a parameter known as the degrees of freedom. As the number of degrees of freedom increases, the difference between the t distribution and the standard normal probability distribution becomes smaller and smaller. A t distribution with more degrees of freedom has less dispersion. The mean of the t distribution is zero. OMS 201 Review

21 Interval Estimation of a Population Mean: Small-Sample Case (n < 30) with  Unknown The interval estimate is given by: where 1 -  is the confidence coefficient t  /2 is the t value providing an area of  /2 in the upper tail of a t distribution with n - 1 degrees of freedom s is the sample standard deviation OMS 201 Review

22 Interval Estimation of a Population Proportion The interval estimate is given by: where 1 -  is the confidence coefficient z  /2 is the z value providing an area of  /2 in the upper tail of the standard normal probability distribution is the sample proportion OMS 201 Review

23 Goodness of Fit Test Some forecasting procedures assume that the sample data fit a known distribution. Ho: The sample data fit the distribution Ha: The sample data do not fit the distribution Calculate a chi-square statistic. Compare to chi-square table with k- 1 degrees of freedom, where k = # of categories. If the calculated value is less than the table value, it is a good fit (Do not reject Ho:). If the calculated value is larger than the table value, a poor fit is indicated (Reject Ho:). Table value with 3 (4-1) degrees of freedom = 7.81473 Do Not Reject Ho:

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