Business Statistics: A First Course Fifth Edition Chapter 2 PDF

Summary

This document is a chapter from a business statistics textbook. It focuses on the presentation of data using various tables and charts, including examples from categorized and numerical data sets.

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Business Statistics:
A First Course
Fifth Edition

Chapter 2

Presenting Data in Tables and Charts

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-1
 Learning Objectives

In this chapter you learn:
To develop tables and charts for categorical
data
To develop tables and charts for numerical
data
The principles of properly presenting graphs

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-2
 Categorical Data Are Summarized
By Tables & Graphs
Categorical
Data

Tabulating Data Graphing Data

Summary Bar Pie Pareto
Table Charts Charts Chart

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-3
 Organizing Categorical Data:
Summary Table

 A summary table indicates the frequency, amount, or percentage of
items in a set of categories so that you can see differences between
categories.

Banking Preference? Percent
ATM 16%
Automated or live telephone 2%
Drive-through service at branch 17%
In person at branch 41%
Internet 24%

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-4
 Bar and Pie Charts

Bar charts and Pie charts are often used
for categorical data

Length of bar or size of pie slice shows
the frequency or percentage for each
category

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-5
 Organizing Categorical Data:
Bar Chart

 In a bar chart, a bar shows each category, the length of which
represents the amount, frequency or percentage of values falling
into a category.
Banking Preference

Internet

In person at branch

Drive-through service at branch

Automated or live telephone

ATM

0% 5% 10% 15% 20% 25% 30% 35% 40% 45%

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-6
 Organizing Categorical Data:
Pie Chart

 The pie chart is a circle broken up into slices that represent categories.
The size of each slice of the pie varies according to the percentage in
each category. (e.g., Mutual_lecture1)

Banking Preference

16% ATM
24%
2% Automated or live
telephone
Drive-through service at
17% branch
In person at branch

Internet
41%

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-7
 Organizing Categorical Data:
Pareto Chart

Used to portray categorical data (nominal scale)
A vertical bar chart, where categories are
shown in descending order of frequency
A cumulative polygon is shown in the same
graph
Used to separate the “vital few” from the “trivial
many” (e.g., Banking_lecture1)

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-8
 Organizing Categorical Data:
Pareto Chart

Pareto Chart For Banking Preference

100% 100%
% in each category

80% 80%

Cumulative %
(line graph)
(bar graph)

60% 60%

40% 40%

20% 20%

0% 0%
In person Internet Drive- ATM Automated
at branch through or live
service at telephone
branch

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-9
 Tables and Charts for
Numerical Data
Numerical Data

Frequency Distributions
Ordered Array and
Cumulative Distributions

Stem-and-Leaf Ogive
Histogram Polygon
Display
(e.g., (e.g.,
Frequency cumulative
frequency
lines) lines)
Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-10
 Organizing Numerical Data:
Ordered Array
 An ordered array is a sequence of data, in rank order, from the smallest
value to the largest value.
 Shows range (minimum value to maximum value)
 May help identify outliers (unusual observations)

Age of Day Students
Surveyed
16 17 17 18 18 18
College
Students 19 19 20 20 21 22
22 25 27 32 38 42
Night Students
18 18 19 19 20 21
23 28 32 33 41 45
Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-11
 Stem-and-Leaf Display

A simple way to see how the data are distributed
and where concentrations of data exist

METHOD: Separate the sorted data series
into leading digits (the stems) and
the trailing digits (the leaves)

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-12
 Organizing Numerical Data:
Stem and Leaf Display
 A stem-and-leaf display organizes data into groups (called
stems) so that the values within each group (the leaves)
branch out to the right on each row.
Age of College Students

Age of Day Students Day Students Night Students
Surveyed
16 17 17 18 18 18 Stem Leaf
College Stem Leaf
Students 19 19 20 20 21 22
1 67788899 1 8899
22 25 27 32 38 42
Night Students 2 0012257 2 0138
18 18 19 19 20 21
3 28 3 23
23 28 32 33 41 45
4 2
4 15

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-13
 Organizing Numerical Data:
Frequency Distribution
 The frequency distribution is a summary table in which the data are
arranged into numerically ordered classes.

 You must give attention to selecting the appropriate number of class
groupings for the table, determining a suitable width of a class grouping, and
establishing the boundaries of each class grouping to avoid overlapping.

 The number of classes depends on the number of values in the data. With a
larger number of values, typically there are more classes. In general, a
frequency distribution should have at least 5 but no more than 15 classes.

 To determine the width of a class interval, you divide the range (Highest
value–Lowest value) of the data by the number of class groupings desired.

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-14
 Organizing Numerical Data:
Frequency Distribution Example

Example: A manufacturer of insulation randomly selects 20
winter days and records the daily high temperature

24, 35, 17, 21, 24, 37, 26, 46, 58, 30, 32, 13, 12, 38, 41, 43, 44, 27, 53,
27

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-15
 Organizing Numerical Data:
Frequency Distribution Example
 Sort raw data in ascending order:
12, 13, 17, 21, 24, 24, 26, 27, 27, 30, 32, 35, 37, 38, 41, 43, 44, 46, 53, 58
 Find range: 58 - 12 = 46
 Select number of classes: 5 (usually between 5 and 15)
 Compute class interval (width): 10 (46/5 then round up)
 Determine class limits (boundaries):

Class 1: 10 to less than 20 (9.5 – 19.5)

Class 2: 20 to less than 30 (19.5 – 29.5)

Class 3: 30 to less than 40

Class 4: 40 to less than 50

Class 5: 50 to less than 60
 Compute class midpoints: 14.5, 24.5, 34.5, 44.5, 55.5
 Count observations & assign to classes

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-16
 Organizing Numerical Data:
Frequency Distribution Example

Data in ordered array:
12, 13, 17, 21, 24, 24, 26, 27, 27, 30, 32, 35, 37, 38, 41, 43, 44, 46, 53, 58

Relative
Class Frequency Percentage
Frequency
10 but less than 20 3.15 15
20 but less than 30 6.30 30
30 but less than 40 5.25 25
40 but less than 50 4.20 20
50 but less than 60 2.10 10
Total 20 1.00 100

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-17
 Tabulating Numerical Data:
Cumulative Frequency
Data in ordered array:
12, 13, 17, 21, 24, 24, 26, 27, 27, 30, 32, 35, 37, 38, 41, 43, 44, 46, 53, 58

Cumulative Cumulative
Class Frequency Percentage
Frequency Percentage

10 but less than 20 3 15 3 15
20 but less than 30 6 30 9 45
30 but less than 40 5 25 14 70
40 but less than 50 4 20 18 90
50 but less than 60 2 10 20 100
Total 20 100

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-18
 Why Use a Frequency Distribution?

It condenses the raw data into a more
useful form
It allows for a quick visual interpretation of
the data
It enables the determination of the major
characteristics of the data set including
where the data are concentrated /
clustered
Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-19
 Frequency Distributions:
Some Tips

Different class boundaries may provide different pictures for
the same data (especially for smaller data sets)

Shifts in data concentration may show up when different
class boundaries are chosen

As the size of the data set increases, the impact of
alterations in the selection of class boundaries is greatly
reduced

When comparing two or more groups with different sample
sizes, you must use either a relative frequency or a
percentage distribution

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-20
 Organizing Numerical Data:
The Histogram

 A vertical bar chart of the data in a frequency distribution is
called a histogram.

 In a histogram there are no gaps between adjacent bars.

 The class boundaries (or class midpoints) are shown on the
horizontal axis.

 The vertical axis is either frequency, relative frequency, or
percentage.

 The height of the bars represent the frequency, relative
frequency, or percentage.
Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-21
 Organizing Numerical Data:
The Histogram
Relative
Class Frequency Percentage
Frequency

10 but less than 20 3.15 15
20 but less than 30 6.30 30
30 but less than 40 5.25 25 Histogram : Daily High Tem perature
40 but less than 50 4.20 20
7
50 but less than 60 2.10 10

Total 20 1.00 100
6
5
Frequency 4
(In a percentage
histogram the vertical
3
axis would be defined to 2
show the percentage of
observations per class) 1
(e.g., restaurant_lecture1)
0
5 15 25 35 45 55 More

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-22
 Organizing Numerical Data:
The Polygon

 A percentage polygon is formed by having the midpoint of
each class represent the data in that class and then connecting
the sequence of midpoints at their respective class percentages.

 The cumulative percentage polygon, or ogive, displays the
variable of interest along the X axis, and the cumulative
percentages along the Y axis.

 Useful when there are two or more groups to compare.

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-23
 Graphing Numerical Data:
The Frequency Polygon
Class
Class Midpoint Frequency
10 but less than 20 15 3
20 but less than 30 25 6
30 but less than 40 35 5 Frequency Polygon: Daily High Temperature
40 but less than 50 45 4
7
50 but less than 60 55 2
6
5
Frequency
4
3
2
(In a percentage 1
polygon the vertical axis 0
would be defined to
5 15 25 35 45 55 65
show the percentage of
observations per class)
Class Midpoints
(e.g., restaurant_lecture1)

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-24
 Graphing Cumulative Frequencies:
The Ogive (Cumulative % Polygon)
Lower % less
class than lower
Class boundary boundary
10 but less than 20 10 15
20 but less than 30 20 45
30 but less than 40 30 70 Ogive: Daily High Temperature
40 but less than 50 40 90
50 but less than 60 50 100 100

Cumulative Percentage
80
60
40

(In an ogive the percentage 20
of the observations less 0
than each lower class
boundary are plotted versus 10 20 30 40 50 60
the lower class boundaries. Lower Class Boundary

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-25
 Cross Tabulations

Used to study patterns that may exist between
two or more categorical variables.

Cross tabulations can be presented in
Contingency Tables

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-26
 Cross Tabulations:
The Contingency Table

 A cross-classification (or contingency) table presents the
results of two categorical variables. The joint responses are
classified so that the categories of one variable are located in
the rows and the categories of the other variable are located in
the columns.

 The cell is the intersection of the row and column and the
value in the cell represents the data corresponding to that
specific pairing of row and column categories.

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-27
 Cross Tabulations:
The Contingency Table

A survey was conducted to study the importance of brand
name to consumers as compared to a few years ago. The
results, classified by gender, were as follows:

Importance of Male Female Total
Brand Name
More 450 300 750
Equal or Less 3300 3450 6750

Total 3750 3750 7500

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-28
 Scatter Plots
 Scatter plots are used for numerical data consisting of paired
observations taken from two numerical variables

 One variable is measured on the vertical axis and the other variable is
measured on the horizontal axis

 Scatter plots are used to examine possible relationships between two
numerical variables
 (e.g., Cost of Living_lecture1)

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-29
 Scatter Plot Example

Volume Cost per
Cost per Day vs. Production Volume
per day day
23 125
250
26 140
200
29 146
150
Cost per Day

33 160
100
38 167
50
42 170
0
50 188 20 30 40 50 60 70
55 195 Volume per Day
60 200

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-30
 Time Series Plot

A Time Series Plot is used to study
patterns in the values of a numeric
variable over time

The Time Series Plot:

Numeric variable is measured on the
vertical axis and the time period is
measured on the horizontal axis
(e.g., movie_lecture1)
Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-31
 Time Series Plot Example

Number of
Year Franchises Number of Franchises, 1996-2004
120
1996 43
100
1997 54 Franchises
80
Number of

1998 60 60
1999 73 40
20
2000 82
0
2001 95 1994 1996 1998 2000 2002 2004 2006
2002 107 Year
2003 99
2004 95

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-32
 Principles of Excellent Graphs

 The graph should not distort the data.
 The graph should not contain unnecessary adornments
(sometimes referred to as chart junk).
 The scale on the vertical axis should begin at zero.
 All axes should be properly labeled.
 The graph should contain a title.
 The simplest possible graph should be used for a given set of
data.

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-33
 Graphical Errors: Chart Junk

Bad Presentation  Good Presentation
Minimum Wage Minimum Wage
1960: $1.00
$
4
1970: $1.60
2
1980: $3.10
0
1990: $3.80 1960 1970 1980 1990

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-34
 Graphical Errors:
No Relative Basis

Bad Presentation Good Presentation
A’s received by A’s received by
Freq. students. % students.
30%
300

200 20%

100 10%

0 0%
FR SO JR SR FR SO JR SR

FR = Freshmen, SO = Sophomore, JR = Junior, SR = Senior
FR = 260/1300, SO = 150/600, JR = 180/900, SR = 200/900
Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-35
 Graphical Errors:
Compressing the Vertical Axis

Bad Presentation  Good Presentation
Quarterly Sales Quarterly Sales
$ $
200 50

100 25

0 0
Q1 Q2 Q3 Q4 Q1 Q2 Q3 Q4

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-36
 Graphical Errors: No Zero Point
on the Vertical Axis

Bad Presentation
 Good Presentations

Monthly Sales $ Monthly Sales
$ 45
45
42
42 39
39 36
36 0
J F M A M J J F M A M J

Graphing the first six months of sales

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-37
 Chapter Summary
In this chapter, we have
 Organized categorical data using the summary table, bar

chart, pie chart, and Pareto chart.
 Organized numerical data using the ordered array, stem-and-

leaf display, frequency distribution, histogram, polygon, and
ogive.
 Examined cross tabulated data using the contingency table.

 Developed scatter plots and time series graphs.

 Examined the do’s and don'ts of graphically displaying data.

Business Statistics: A First Course, 5e © 2009 Prentice-Hall, Inc. Chap 2-38