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Exploring Marketing Research William G. Zikmund Chapter 17: Determining Sample Size What does Statistics Mean? • Descriptive Statistics – Number of People – Trends in Employment – Data • Inferential Statistics – Make an inference about a population from a sample Copyright © 2000 by Harcourt, Inc. All rights reserved. Population Parameter Versus Sample Statistics Copyright © 2000 by Harcourt, Inc. All rights reserved. Population Parameter • Variables in a population • Measured characteristics of a population • Greek lower-case letters as notation Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Statistics • Variables in a sample • Measures computed from data • English letters for notation Copyright © 2000 by Harcourt, Inc. All rights reserved. Making Data Usable • Frequency Distributions • Proportions • Central Tendency – Mean – Median – Mode • Measures of Dispersion Copyright © 2000 by Harcourt, Inc. All rights reserved. Frequency Distribution of Deposits Amount less than $3,000 $3,000 - $4,999 $5,000 - $9,999 $10,000 - $14,999 $15,000 or more Frequency (number of people making deposits in each range) 499 530 562 718 811 3,120 Copyright © 2000 by Harcourt, Inc. All rights reserved. Percentage Distribution of Amounts of Deposits Amount less than $3,000 $3,000 - $4,999 $5,000 - $9,999 $10,000 - $14,999 $15,000 or more Percent 16 17 18 23 26 100 Copyright © 2000 by Harcourt, Inc. All rights reserved. Probability Distribution of Amounts of Deposits Amount less than $3,000 $3,000 - $4,999 $5,000 - $9,999 $10,000 - $14,999 $15,000 or more Probability .16 .17 .18 .23 .26 1.00 Copyright © 2000 by Harcourt, Inc. All rights reserved. Measures of Central Tendency • Mean - Arithmetic Average – µ, population; X , sample • Median - Midpoint of the Distribution • Mode - the Value that occurs most often Copyright © 2000 by Harcourt, Inc. All rights reserved. Population Mean Xi N Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Mean Xi X n Copyright © 2000 by Harcourt, Inc. All rights reserved. Number of Sales Calls Per Day by Salespersons Salesperson Mike Patty Billie Bob John Frank Chuck Samantha Number of Sales calls 4 3 2 5 3 3 1 5 26 Copyright © 2000 by Harcourt, Inc. All rights reserved. Sales for Products A and B, Both Average 200 Product A 196 198 199 199 200 200 200 201 201 201 202 202 Product B 150 160 176 181 192 200 201 202 213 224 240 261 Copyright © 2000 by Harcourt, Inc. All rights reserved. Measures of Dispersion • The Range • Standard Deviation Copyright © 2000 by Harcourt, Inc. All rights reserved. Measures of Dispersion or Spread • • • • Range Mean absolute deviation Variance Standard deviation Copyright © 2000 by Harcourt, Inc. All rights reserved. The Range as a Measure of Spread • The range is the distance between the smallest and the largest value in the set. • Range = largest value – smallest value Copyright © 2000 by Harcourt, Inc. All rights reserved. Deviation Scores • The differences between each observation value and the mean: d x x i i Copyright © 2000 by Harcourt, Inc. All rights reserved. Low Dispersion Verses High Dispersion 5 Low Dispersion 4 3 2 1 150 160 170 180 190 Value on Variable Copyright © 2000 by Harcourt, Inc. All rights reserved. 200 210 5 4 High dispersion 3 2 1 150 160 170 180 190 200 Value on Variable Copyright © 2000 by Harcourt, Inc. All rights reserved. 210 Average Deviation (X i n X) 0 Copyright © 2000 by Harcourt, Inc. All rights reserved. Mean Squared Deviation (X i X) 2 n Copyright © 2000 by Harcourt, Inc. All rights reserved. The Variance Population 2 Sample S 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. Variance X X ) S n 1 2 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. • The variance is given in squared units • The standard deviation is the square root of variance: Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Standard Deviation Sx X i X n 1 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. The Normal Distribution • Normal Curve • Bell Shaped • Almost all of its values are within plus or minus 3 standard deviations • I.Q. is an example Copyright © 2000 by Harcourt, Inc. All rights reserved. Normal Distribution MEAN Copyright © 2000 by Harcourt, Inc. All rights reserved. Normal Distribution 13.59% 34.13% 34.13% 13.59% 2.14% 2.14% Copyright © 2000 by Harcourt, Inc. All rights reserved. Normal Curve: IQ Example 70 85 100 115 145 Copyright © 2000 by Harcourt, Inc. All rights reserved. Standardized Normal Distribution • Symetrical about its mean • Mean identifies highest point • Infinite number of cases - a continuous distribution • Area under curve has a probability density = 1.0 • Mean of zero, standard deviation of 1 Copyright © 2000 by Harcourt, Inc. All rights reserved. Standard Normal Curve • The curve is bell-shaped or symmetrical • About 68% of the observations will fall within 1 standard deviation of the mean • About 95% of the observations will fall within approximately 2 (1.96) standard deviations of the mean • Almost all of the observations will fall within 3 standard deviations of the mean Copyright © 2000 by Harcourt, Inc. All rights reserved. A Standardized Normal Curve -2 -1 0 1 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. z The Standardized Normal is the Distribution of Z –z +z Copyright © 2000 by Harcourt, Inc. All rights reserved. Standardized Scores z x Copyright © 2000 by Harcourt, Inc. All rights reserved. Standardized Values • Used to compare an individual value to the population mean in units of the standard deviation z x Copyright © 2000 by Harcourt, Inc. All rights reserved. Linear Transformation of Any Normal Variable into a Standardized Normal Variable Sometimes the scale is stretched X Sometimes the scale is shrunk z -2 -1 0 1 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. x •Population Distribution •Sample Distribution •Sampling Distribution Copyright © 2000 by Harcourt, Inc. All rights reserved. Population Distribution Copyright © 2000 by Harcourt, Inc. All rights reserved. x Sample Distribution _ C S Copyright © 2000 by Harcourt, Inc. All rights reserved. X Sampling Distribution X SX Copyright © 2000 by Harcourt, Inc. All rights reserved. X Standard Error of the Mean • Standard deviation of the sampling distribution Copyright © 2000 by Harcourt, Inc. All rights reserved. CENTRAL LIMIT THEORM Copyright © 2000 by Harcourt, Inc. All rights reserved. Standard Error of the Mean Sx n Copyright © 2000 by Harcourt, Inc. All rights reserved. Copyright © 2000 by Harcourt, Inc. All rights reserved. Parameter Estimates • Point Estimates • Confidence interval estimates Copyright © 2000 by Harcourt, Inc. All rights reserved. Confidence Interval x a small sampling error Copyright © 2000 by Harcourt, Inc. All rights reserved. SMALL SAMPLING ERROR Z cl S X Copyright © 2000 by Harcourt, Inc. All rights reserved. E Z cl S X Copyright © 2000 by Harcourt, Inc. All rights reserved. X E Copyright © 2000 by Harcourt, Inc. All rights reserved. Estimating the Standard Error of the Mean S x S n Copyright © 2000 by Harcourt, Inc. All rights reserved. X Z cl S n Copyright © 2000 by Harcourt, Inc. All rights reserved. Random Sampling Error and Sample Size are Related Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size • Variance (Standard Deviation) • Magnitude of Error • Confidence Level Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size Formula zs n E 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size Formula zs n E 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size Formula - example Suppose a survey researcher, studying expenditures on lipstick, wishes to have a 95 percent confident level (Z) and a range of error (E) of less than $2.00. The estimate of the standard deviation is $29.00. Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size Formula - example zs n E 2 1.9629.00 2.00 2 2 56.84 2 28 . 42 2.00 808 Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size Formula - example Suppose, in the same example as the one before, the range of error (E) is acceptable at $4.00, sample size is reduced. Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size Formula - example zs 1.9629.00 n 4.00 E 2 2 2 56.84 2 14 . 21 4.00 202 Copyright © 2000 by Harcourt, Inc. All rights reserved. Calculating Sample Size 99% Confidence ( 2 . 57 )( 29 ) n 2 74.53 2 2 [37.265] 1389 2 2 ( 2 . 57 )( 29 ) n 4 74 . 53 4 2 [18.6325] 347 2 Copyright © 2000 by Harcourt, Inc. All rights reserved. 2 Standard Error of the Proportion sp pq n or p (1 p ) n Copyright © 2000 by Harcourt, Inc. All rights reserved. Confidence Interval for a Proportion p ZclSp Copyright © 2000 by Harcourt, Inc. All rights reserved. Sample Size for a Proportion 2 Z pq n E 2 Copyright © 2000 by Harcourt, Inc. All rights reserved.
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