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CHAPTER OVERVIEW
• Getting Ready for Data Collection• The Data Collection Process• Getting Ready for Data Analysis• Understanding Distributions
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GETTING READY FOR DATA COLLECTION
Four steps
• Constructing a data collection form• Establishing a coding strategy• Collecting the data• Entering data onto the collection
form
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GRADE
2.00 4.00 6.00 10.00 Total
gender
male 20 16 23 19 95
female
19 21 18 16 105
Total 39 37 41 35 200
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THE DATA COLLECTION PROCESS
• Begins with raw data– Raw data are unorganized data
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CONSTRUCTING DATA COLLECTION FORMS
ID Gender
Grade Building Reading Score
Mathematics Score
12345
22122
8284
10
16666
5541465645
6044375932
One column for each variable
One row for each subject
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ADVANTAGES OF OPTICAL SCORING SHEETS
• If subjects choose from several responses, optical scoring sheets might be used – Advantages
• Scoring is fast• Scoring is accurate• Additional analyses are easily done
– Disadvantages• Expense
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CODING DATA
• Use single digits when possible• Use codes that are simple and unambiguous• Use codes that are explicit and discrete
Variable Range of Data Possible
Example
ID Number 001 through 200 138
Gender 1 or 2 2
Grade 1, 2, 4, 6, 8, or 10 4
Building 1 through 6 1
Reading Score 1 through 100 78
Mathematics Score 1 through 100 69
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TEN COMMANDMENTS OF DATA COLLECTION1. Think about what data are needed to answer the
question2. Think about where the data will come from3. Be sure the data collection form is clear and easy to
use4. Make a duplicate of the original data5. Ensure that your assistants are well trained6. Schedule your data collection efforts7. Cultivate sources for finding participants8. Follow up on participants that you originally missed9. Don’t throw away original data10. Follow these guidelines
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GETTING READY FOR DATA ANALYSIS
• Descriptive statistics—Basic measures– Average scores on a variable– How different scores are from one another
• Inferential statistics—Help make decisions about– Null and research hypotheses– Generalizing from sample to population
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DESCRIPTIVE STATISTICS
• Distributions of Scores
• Comparing Distributions of Scores
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MEASURES OF CENTRAL TENDENCY
• Mean—”average”• Median—midpoint in a distribution• Mode—most frequent score
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• How to compute it– = X n
= summation sign• X = each score• n = size of sample
1. Add up all of the scores
2. Divide the total by the number of scores
X
MEAN
• What it is– Arithmetic
average– Sum of
scores/number of scores
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• How to compute it when n is odd1. Order scores from
lowest to highest2. Count number of scores3. Select middle score
• How to compute it when n is even1. Order scores from
lowest to highest2. Count number of scores3. Compute X of two
middle scores
MEDIAN
• What it is– Midpoint of
distribution– Half of scores
above & half of scores below
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MODE
• What it is– Most frequently
occurring score
• What it is not!– How often the
most frequent score occurs
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WHEN TO USE WHICH MEASURE
Measure of Central
Tendency
Level of Measurement
Use When Examples
Mode Nominal Data are categorical Eye color, party affiliation
Median Ordinal Data include extreme scores
Rank in class, birth order
Mean Interval and ratio
You can, and the data fit
Speed of response, age in years
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MEASURES OF VARIABILITY
Variability is the degree of spread or dispersion in a set of scores
• Range—difference between highest and lowest score
• Standard deviation—average difference of each score from mean
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COMPUTING THE STANDARD DEVIATION
• s
= summation sign– X = each score– X = mean – n = size of sample
= (X – X)2
n - 1
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COMPUTING THE STANDARD DEVIATION
• List scores and compute mean
X
13
14
15
12
13
14
13
16
15
9
X = 13.4
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COMPUTING THE STANDARD DEVIATION
• List scores and compute mean
• Subtract mean from each score
X (X-X)
13 -0.4
14 0.6
15 1.6
12 -1.4
13 -0.4
14 0.6
13 -0.4
16 2.6
15 1.6
9 -4.4
X = 0X = 13.4
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X
13 -0.4 0.16
14 0.6 0.36
15 1.6 2.56
12 -1.4 1.96
13 -0.4 0.16
14 0.6 0.36
13 -0.4 0.16
16 2.6 6.76
15 1.6 2.56
9 -4.4 19.36
X =13.4
X = 0
COMPUTING THE STANDARD DEVIATION
• List scores and compute mean
• Subtract mean from each score
• Square each deviation
(X – X)2(X – X)
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COMPUTING THE STANDARD DEVIATION
• List scores and compute mean
• Subtract mean from each score
• Square each deviation
• Sum squared deviations
X
13 -0.4 0.16
14 0.6 0.36
15 1.6 2.56
12 -1.4 1.96
13 -0.4 0.16
14 0.6 0.36
13 -0.4 0.16
16 2.6 6.76
15 1.6 2.56
9 -4.4 19.36
X =13.4
X = 0 X2 = 34.4
(X – X) (X – X)2
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COMPUTING THE STANDARD DEVIATION
1. List scores and compute mean
2. Subtract mean from each score
3. Square each deviation4. Sum squared
deviations5. Divide sum of squared
deviation by n – 1• 34.4/9 = 3.82 (= s2)
6. Compute square root of step 5 3.82 = 1.95
X
13 -0.4 0.16
14 0.6 0.36
15 1.6 2.56
12 -1.4 1.96
13 -0.4 0.16
14 0.6 0.36
13 -0.4 0.16
16 2.6 6.76
15 1.6 2.56
9 -4.4 19.36
X =13.4
X = 0 X2 = 34.4
(X – X) (X – X)2
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THE NORMAL (BELL SHAPED) CURVE
• Mean = median = mode• Symmetrical about midpoint• Tails approach X axis, but do not touch
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THE MEAN AND THE STANDARD DEVIATION
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STANDARD DEVIATIONS AND % OF CASES
• The normal curve is symmetrical• One standard deviation to either side of the mean contains 34% of
area under curve• 68% of scores lie within ± 1 standard deviation of mean
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STANDARD SCORES: COMPUTING z SCORES
• Standard scores have been “standardized”
SO THAT• Scores from different distributions have
– The same reference point– The same standard deviation
• ComputationZ = (X – X)
s–Z = standard score
–X = individual score
–X = mean
–s = standard deviation
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STANDARD SCORES: USING z SCORES
• Standard scores are used to compare scores from different distributions
Class Mean
Class Standard Deviation
Student’s Raw
Score
Student’s z Score
SaraMicah
9090
24
9292
1.5
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WHAT z SCORES REALLY, REALLY MEAN• Because
– Different z scores represent different locations on the x-axis, and
– Location on the x-axis is associated with a particular percentage of the distribution
• z scores can be used to predict– The percentage of scores both above and
below a particular score, and– The probability that a particular score will
occur in a distribution