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BUSINESS STATISTICS BQT 173
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CHAPTER 1 : DATA & STATISTICS
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DATA & STATISTICS Statistics ??? Meaning : Numerical facts Field or discipline of study Collection of methods for planning experiments, obtaining data and organizing, analyzing, interpreting and drawing the conclusions or making a decision.
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1.1 Application in Business Application in Business Financial Economy Auditing Production and Operation
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Examples present some statistics in business: Bill Gates is the richest American with a net worth $43 billion (Forbes, September,30,2002). A total of 35billion transactions were handled by the Visa system during 2001 (Forbes, September 16,2002). On average, a household carried a credit card balance in $8562 in 2001 (Newsweek, April 1, 2002). On average, a wedding in America costs $20,357 (Smart Money, June 2002).
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BASIC TERMS IN STATISTICS Population -Entire collection of individuals which are characteristic being studied. Sample -Subset of population. Population Sample
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Census -Survey includes every member of population. Sample survey -Collecting information from a portion of population (techniques) Element -Specific subject or object about which information collected. -Also called as observational units. Variable -Characteristics which make different values. Observation -Value of variable for an element. Data Set -A collection of observation on one or more variables.
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Company2001 Sales (millions of dollars) Wal-Mart Stores217,799 IBM85,866 GENERAL MOTORS177,260 DELL COMPUTER31,168 JC PENNEY32,004 An element or a member An observation or measurement Variable Table 1.1 : Charitable Givings of Six Retailers in 2007
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QUANTITATIVE AND QUALITATIVE Quantitative variable - A variable that can be measured numerically. - Data collected on a quantitative variable are called quantitative data. There are three types of quantitative variables:- i. Discrete Variable A variable whose values are countable, can assume only certain values with no intermediate values. ii. Continuous Variable A variable that can assume any numerical value over a certain interval or intervals. Qualitative variable - A variable that cannot assume a numerical value but can be classified into two or more nonnumeric categories. - Data collected on such a variable are called qualitative data.
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TYPES OF VARIABLES Variable QuantitativeQualitative Discrete (e.g, number of houses, cars accidents Continuous (e.g., length, age, height, weight, time) e.g., gender, marital status
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MEASUREMENT SCALES There are four measurement scales :- i. Nominal ii. Ordinal iii. Interval iv. Ratio Nominal - only for qualitative classification. - the weakest data measurement where numbers are used to represent an item / characteristic. - each data should not be treated as numerical since relative size has no meaning. - no order or ranking can be imposed on the data. - e.g : gender – male =1, female = 2
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Ordinal - it is possible to rank order all the categories according to some criterion. - classifies data into categories that can be ranked ( no precise difference ) - example : grades – A,B,C,D and collegiate class – freshman, sophomore, junior, senior. Interval - have the property that the distances between categories are defined by fixed and equal units. - is ranks of data - quantity and compare the size of difference between two observations (precise difference do exist) - example :For age, a change from age 21 to 22 is the same for changes age 31 to 32. Therefore, the interval level of measurement has order and distance.
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Ratio -The highest level of measurement and allows for all basic arithmetic operations including division and multiplication. -Has the property that a zero point is naturally defined. -The mode, mean, median can be used to describe interval and ratio data. -Poses all the characteristics of interval measurement. -True zero exist. -Example : Production of 20 units per hour (ratio level) is twice the production of 10 units per hour.
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Measurement Levels and the Appropriate Averages ALL DATA Qualitative dataQuantitative data Nominal Car makes Days of Week Gender Ordinal TV channel Ranks and title Calendar dates Interval and Ratio Sales ($) Accounts Receivable Market share ModeMedian Mean
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1.2 Data Data is the collection of the observations or measurements on a variable. Data refers to quantitative or qualitative attributes of a variable or set of variables. - Example :- the whole numbers that represents the scores of students. A data with lot of observations usually looks non informative that is we cannot get much information with the raw data. Raw data is also called as ungrouped data. Data is categorized by two :- - quantitative data - qualitative data Data should be summarized in more informative way such as graphical, diagrams and charts.
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CROSS SECTION VERSUS TIME- SERIES DATA Cross Section Data - Data collected on different elements at the same point in time or for same period of time. - An example of cross-section data which is giving of six companies for the same period (2007) :- Company2007 Charitable Givings (millions of dollars) Home Depot42 Macy`s35.2 Wal-Mart337.9 Best Buy31.8 Target168.9 Lowe`s27.5 Table 1.2 : Charitable Givings of Six Retailers in 2007
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Time-Series Data - Data collected on the same element for the same variable at different points in time or for different periods of time. - Example, a Movieplex with 8 screens would count as 8 toward the total number of screens. YearTotal Indoor Movie Screens 200335,361 200436,012 200537,092 200637,776 200738,159 200838,198 Table 1.3 : Number of Movie Screens
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1.3 Data Sources SOURCES OF DATA Primary Data -must be collected (obtained from research) -Methods of collecting primary data :- i.Personal Interview ii.Telephone Interview iii.Questionnaire iv.Observations Secondary Data -already collected (published by someone else) - From books, magazines
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STATISTICS DESCRIPTIVE STATISTICS INFERENTIAL STATISTICS Using tables, graphs & summary measures Using sample result in making decision or predict about a population. Also called inductive reasoning or inductive statistics.
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1.4 Descriptive Statistics Consists of methods for organizing, displaying and describing data by using tables, graphs and summary measures. In general divided by two categories :- - Data presentation (display) - Statistics
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1.5 Inferential Statistics Consists of methods that use sample results to help make decisions or predictions about a population. Area statistics which are deal with decision making procedures. Example :- - In order to find the salary of a college graduate, we may select 2000 recent college graduates, find the starting salaries and make decision based on the information.
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1.6 Statistical Analysis using Excel Example 1.1 :- Following table shows data for income tax returns for 1995 to 2001 that were filed electronically. Get the sum of income tax for all years and get average of the income tax for those 7 years. i. Data is key in using Excel. Figure 1
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ii. To get sum of income tax for all years, type =sum(. iii. Select the range of cells (C4:C10) of numerical data, and close the bracket. iii. Press enter, the sum should appear. Figure 2
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iii. Press enter, the sum should appear. iv. To get, the average, the sum should divide by the number of years. Figure 3
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iv. To get, the average, the sum should divide by the number of years. v.Type AVERAGE(. vi.Select the range of cells for all years (C4:C10) and close bracket. vii.Press ENTER. The average of income tax for those years should appear. Figure 4
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