Data Tables and Graphs PDF

Summary

This document provides an introduction to creating and interpreting data tables and graphs, including bar graphs, line graphs, pie charts, and scatter plots. It covers the basic principles of organizing data and selecting appropriate visual representations for specific types of data. The document is suitable for introductory level students in secondary schools.

Full Transcript

DATA TABLES AND GRAPHS

OBJECTIVES
By the end of the lab you should be able to:
organize and label data into a data table
draw a bar graph, line graph, pie chart, and scatter plot distribution
analyze data and interpret trends from various graphs

INTRODUCTION
“A picture is worth a thousand words”. Tables and graphs can show a lot of information in an organized and
concise manner. We will practice drawing and interpreting data tables, bar graphs, line graphs, pie charts and scatter
plots.

The basic rules for tables and graphs include:
Keep tables and graphs simple.
Use a title that summarizes the purpose and content of the data table or graph.
Label all measurement units.
Label all components (axes, columns, rows, lines) directly. If needed, use separate legend key as needed.

Fig 1. Bill Length in English Sparrows

20
DATA TABLES 18
A data table is used to summarize information in an 16
organized fashion. Tables are usually displays of
14
numbers, but can also be used for short phrases. One
Number of Birds

12
or several parameters (features) could be included in
10
the same data table.
8

6
The basic format for data tables should:
4
have a title that summarizes the purpose and
2
content of data table
0
display columns and rows of numbers 5-6.9 7-8.9 9-10.9 11-12.9 13-14.9
label measurement units Bill Length (mm)

present data in logical order
include statistical significance, definitions, and extra information at the bottom.

Suppose researchers are interested in the feeding habits and variations of English sparrows. They measured the bill
length of thirty birds and compiled the numbers in Table 1. This list is called “raw” data because the data has not
been organized yet.

ORGANIZING THE DATA.
At a glance, it is difficult to look at Table 1 and determine what size bill most birds have, or whether there are more
smaller or larger bills. For easier analysis of the data, the measurements need to be placed in categories of different
sizes. Count the number of birds that fit into each 1 mm category and fill in Table 2. The second row is for tally
marks, the third row is for your final answers. Be sure to write a descriptive title for Table 2.

Biology 101 Lab Data Tables and Graphs – 1
Table 1. English Sparrow Bill Length Data - in order collected.
Indiv Length (mm) Indiv Length (mm) Indiv Length (mm)
Bird
1 10 11 11 21 12
2 9 12 6 22 11
3 11 13 9 23 10.5
4 12 14 10 24 10
5 8 15 10.5 25 11
6 11 16 14 26 13
7 11.5 17 11 27 10
8 10.5 18 8 28 14
9 13 19 12 29 7
10 12 20 11.5 30 7

Table 2. _______________________________________________
Length (mm) 5-5.9 6-6.9 7-7.9 8-8.9 9-9.9 10-10.9 11-11.9 12-12.9 13-13.9 14-14.9
# Birds (tally)

# Birds

STATISTICAL ANALYSIS
Calculate the values for
Statistics Statistics Definition
the bird bill data.
Term
Mean (average of all data points). Add all the individual data points and
then divide by the total number of measurements.

Range (difference between the smallest and largest data points).

Median (middle data value). Place the data numbers in order from least to
greatest, and find the number in the middle.

Mode (number or numbers that occur most often).

BAR GRAPHS
The information contained in the table is now used to create a graph. Bar graphs are used when the data is grouped
into ranges or categories. A bar graph consists of an axis and a series of labeled horizontal or vertical bars that show
different values for each bar. A bar graph can show a single set of data or provide comparison of several sets of
data. The vertical bar graph is used most often. But a horizontal bar graph is acceptable and allows more room for
labeling each individual bar. The numbers along a side of the bar graph are called the scale.

Refer to the graph in Figure 1: Bill Length in English Sparrows. All graphs contain an independent axis on the x-
axis (horizontal). The independent axis contains the variable data that you choose to measure. In the above
example, we chose to measure bill length. Therefore this information goes on the horizontal axis that must be
labeled with the “Bill Length” information it measures. The lines of the graph must be labeled with the numbers
that represent the categories of bill length. These numbers must be evenly spaced, as are the categories on Figure 1.
Note that next to the label for the axis there is a note of the units of measurement used to get the numbers; in this
case, mm for millimeters.

Biology 101 Lab Data Tables and Graphs – 2
The Y-axis (vertical axis) is the dependent axis and contains the information that results from our choice of
measurement on the independent axis. The number of birds with particular bill lengths depends on the measurement
of the bills and therefore is the dependent variable. Again, the vertical axis must have evenly spaced numerical
categories of number of birds, a label of what it is measuring and the units of measure. In this case the word
“number” in “Number of Birds” serves as the units.

The value of the dependent variable is determined by and is a function of the independent variable. In an ideal
experimental setup, the independent variable is something that we have some control and changes in some
predetermined way while changes in the dependent variable are observed.

The actual data that we collect is displayed on the graph as darkened areas to indicate the number of birds in each
bill length category. The first bar is drawn even with the number 5 on the dependent axis to show that 5 birds had
bills within 5.0 - 6.99 mm. When completed, the graph is titled in such a way that a reader may understand what
was measured and, therefore, what the data means.

Directions: Using Table 2 that you created with bill length categories of 1 mm, draw and completely label a bar
graph of the data (Figure 2). Use Figure 1 as an example, but obviously, DO NOT COPY IT exactly. Be sure to
use a descriptive title, label the axes and appropriate units.

Figure 2. _________________________________________________

Biology 101 Lab Data Tables and Graphs – 3
INTERPRETING BAR GRAPHS

Fig 3. Bio 101 Grades
Look at Figure 3: Bio 101 Grades.
3a) What is the independent variable? 18
16
_________________

Number of Students
14
12
10
3b) Which axis contains the independent 8
variable? ______ 6
4
2
3c) How many “A” letter grades were given 0
A B C D F
to students? ______ Letter Grades

Blood Type Differences in 3
Populations
A double bar graph (or grouped bar graph)
is similar to a vertical bar graph, but gives
two (or more) pieces of information for each
Europeans Americans Dunkers
item on the vertical axis, rather than just one.
70
Grouped or stacked bar graphs also depict
Percent of Population

60
comparisons that are easy to understand.
50

40
Look at Figure 4: Blood Type Differences in
30
Three Populations
20

10 4a) Which group had the lowest frequency of
0 Type A blood? ________________
A B Rh M MN N

Blood Types
4b) Which blood types were more common in
Dunkers than in Americans? __________

Look at Figure 5. Average Tuition at CSUF
and UCI.
http://images.onset.freedom.com/ocregister/article/m3pzo0-
m3pznrtuitionatuccsus.jpg

5a) How much was the UCI tuition in 2011-
2012?

____________________________

5b) Compare this graph to the other bar
graphs. What two labels are missing in this
figure?

_______________________________
_______________________________

Biology 101 Lab Data Tables and Graphs – 4
 Data can also be represented with a Look at the grouped horizontal bar graph in
horizontal bar graph. Fig 8: Fruit Sold on Sept 1-2.

Fig. 6. Origins of Immigrants to Canada Fruit Sold on Sept 1-2

Apples

Oranges 1-Sep

Fruit
2-Sep
Mangoes

Star Fruit

Papaya

0 50 100
# kilograms

6a) In this horizontal bar graph, which is now
the dependent axis? ______________ 8a) Which fruit had the most sales (by
weight) on Sept 1? _______________
6b) What is the dependent variable?
__________________________________ 8b) Which fruit had the worst sales on both
days? ______________

Fig. 7.
The same data can also be represented as a
stacked or composite bar graph (either
horizontal or vertical). In this case, the sum
for each category is shown.

Fig 9. Stacked bar graph of Fruit Sold
Fruit Sold on Sept 1-2

Apples

Oranges
Type of Fruit

Mangoes
1-Sep
Star Fruit 2-Sep
Papaya

0 50 100 150

# kilograms
7) According to this horizontal graph, what
are the top two fastest growing jobs? 9) Which fruit had the best total sales for the
_____________________________ two days combined? _____________

_____________________________

Biology 101 Lab Data Tables and Graphs – 5
IV. LINE GRAPHS
A line graph is a way to summarize how two (or more) pieces of information are related and how they vary
depending on one another. It can compare similarity of two or more groups; show trends and patterns, and the
highs and lows of the data.

Line graphs are used when there is a connection between consecutive data points, often over a time-period.
Possible uses are growth rates, heating rates, temperature changes. Data points can be connected to show that
there are changes in between the data points that are important to the interpretation.

Line graphs must contain all of the appropriate parts of a graph: a title, a dependent axis and an independent axis
numbered in a linear fashion, and the units of measurement for both axes. In addition, the graph must also
contain a legend key to allow the reader to distinguish between the two data sets (and special markings).

Basic format of Line Graphs:
Label the X and Y axes with title and units
Y axis should be about 3/4 or same length as X axis
Y axis scale starts at zero, X-axis scale does not have to have at zero

Figure 10. California Public University Tuition According to the graph in Figure 10, removing
inflation and using current dollar values, what
was the cost of UC tuition in

1970: $_____________

1990: $_____________

2010: $_____________

Fig 11. Genetically Engineered crops in US (1996 - 2006).
http://www.agronomy.unl.edu/biotechnology/biotechnology_graph.jpg In 1997, what per cent of US farm acres with
soybean crops were raising genetically
engineered soybeans?

In 2006, what per cent of US farm acres with
soybean crops were raising genetically
engineered soybeans?

Biology 101 Lab Data Tables and Graphs – 6
V. PIE CHARTS
A pie chart is a circle graph divided into pieces, each displaying the size of some related piece of
information. Pie charts visually displays the proportion (or sizes) of parts that make up some whole,
and must be drawn to scale. Try to limit to about 6 “slices” of pie, or the pie chart will be too cluttered.

Fig. 12. Home counties of 3900 Freshmen
entering CSUF in 2005.

How many students came from Orange
County? __________________

About 310 students came from one county to
CSUF. Which county? ________________

Fig 13. In 2007, US families spent $47.3
billion dollars for “Back to College”
purchases. That is an average spending of
$956.93 per student.

Calculate what per cent was spent on:

Textbooks __________%

Housing ___________%

Shoes ____________%

Ref: http://www.webadvantage.net/webadblog/last-
minute-online-marketing-tactics-for-back-to-school-
advertising-520

Composition
Mushroo
of a 600g Pizza Fig 14. Composition of a 600 gram Pizza.
ms
Tomato 5%
Determine the weight of each ingredient in the
7% 600 gram Pizza from the given pie chart.
Sausage
13% Crust
Ingredient:
50% Cheese ____________g

Cheese
25% Mushrooms ________ g

Biology 101 Lab Data Tables and Graphs – 7
Scatter Plots
The two previous graphs (bar and line) graphically depicted the results of observations (dependent variables) vs.
some units of measure (independent variables). Sometimes when we are looking for relationships, we need to
record two dependent variables per test result.

A very useful type of graph to look for relationships between two dependent variables is a scatter plot. In this case,
each of the dependent variables is given its own axis. You choose which variable to place on the vertical axis and
on the horizontal axis.

After plotting the data points, you can then try to determine if there is in fact a relationship. To show a relationship
on a scatter plot, a line is the obvious choice. Since there can be two individual samples that share one variable but
differ on the other, and since there is no connection between two individual samples, we cannot simply connect the
dots to make our line. We use a method called “best fit curve”. In this case, the line is drawn so as to best fit the
scattered data points. This is sort of an average of the points. If the “best fit curve” is a smooth straight line that
intersects almost all the points, this is an indication that there is a strong relationship between the variables. If the
“best fit curve” is a wild approximation, this is an indication that there is little or no relationship between the
variables. The further the data points are from the “best fit curve”, the less likely the relationship. Most computer
graphing programs will automatically draw the “best fit curve”.

DIRECTIONS:
Draw the best-fit curve (straight line) for each of the following scatter plots.
Describe the relationship (positive, negative, or no relationship) between the two variables.

15. 16. 17.

19.
18.

Biology 101 Lab Data Tables and Graphs – 8
GRAPHING REVIEW. The Growth of Shaquille O'Neal.

One of the most famous 'big' basketball players is Shaquille O'Neal, the 'Shaq'. Here is a list of his growth from age 4 to adult.
Choose one trait and make a graph using Shaq’s dimensions from age 6 – 25. If choosing shoe size, note
that the shoe size at age 4 is in Child Size.

Age Height Weight (pounds) Shoe Size
4 3'10.5" 56 pounds Size 12 Y
6 4'3.5" 82 pounds Size 2
8 4'8.75" 108 pounds Size 4
10 5'3.25" 139 pounds Size 7.5
12 5'10" 192 pounds Size 10.5
16 6'7" 265 pounds Size 15
21 7'1" 302 pounds Size 20
25 7'1" (216 cm) 310 pounds Size 22

Figure. _________________________________________________

Data Analysis:

Biology 101 Lab Data Tables and Graphs – 9
 Puzzle: Data Graphs

Terms: Dependent, Dependent, Horizontal,
Independent, Independent, Label, Legend, Line,
Linear, Logarithmic, Mean, Median, Mode,
Percentage, Pie, Positive, Range, Relationship,
Scatterplot, Title

Across Down
1. axis of a line graph that contains the “Time periods” 2. a scatterplot is used to determine the ___ between two
4. a graph in the form of a circle is called a ___ chart different things
6. short explanation of what is in the graph, written at top 3. Pie charts usually show the data as a __ of the whole
10. each axis must have a ___ or explanation of that 5. the variable that is not changed by other variables
variable 7. scale of the graph axis numbered 1, 10, 100, 1000, etc.
12. the variable that depends on other factors and can 8. the data value that is repeated most frequently
change 9. the middle data value
13. if the trend line in a scatterplot rises to the right, then 10. explanation of what each graph line (or bar, sector)
this show a __ relationship between the two variables represents
14. average of all data points 11. difference between the smallest and largest data
15. type of graph usually used to show how something values
changes over time 15. scale of the graph axis numbered 1,2,3,4,5, etc
16. graph sometimes called an X-Y plot
Biology 101 Lab Data Tables and Graphs – 10