Measures of Central Tendency: Mean, Median and Mode
THIYAGUSURI
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Apr 30, 2024
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About This Presentation
Measures of Central Tendency: Mean, Median and Mode
Slide Content
Measures of
Central Tendency
K.THIYAGU,Assistant ProfessorDoE, Central University of Kerala, Kasaragod
1@ThiyaguSuriya
Central Tendency
K.THIYAGU,Assistant ProfessorDoE, Central University of Kerala, Kasaragod
1@ThiyaguSuriya
Measures of Central Tendency
The central tendency is stated as the statistical measure
that represents the single value of the entire
distribution or a dataset.
A measure of central tendency is a single value that
attempts to describe a data set by identifying the
central position within that set of data.
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The central tendency is stated as the statistical measure
that represents the single value of the entire
distribution or a dataset.
A measure of central tendency is a single value that
attempts to describe a data set by identifying the
central position within that set of data.
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Characteristics
Measures of central
tendency are sometimes
called measures of
central location.
A single number that
represents the entire set
of data (average)
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Measures of central
tendency are sometimes
called measures of
central location.
A single number that
represents the entire set
of data (average)
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Central Tendency
Mean
Average Value
Median
Middle Value
Mode
Most Common Value
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Mean
Average Value
Median
Middle Value
Mode
Most Common Value
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Requisites ofMeasures of Central Tendency
3. Least affected by
Fluctuations of Sampling
There should be
sampling stability in an
average.
2. Easy to Understand
and Calculate
The value of an average
should be computed using
a method that is simple
1. Rigidly Defined
An average should be
rigid and clear.
4. Not Affected much
by Extreme Values
The value of an average should
not be affected by just one or two
very large or very small items,
5. Based on all the
Observations
An average should be
based on all the
observations,
6. Capable of further
Algebraic Treatment
A good average should have the
capability of further statistical
and mathematical calculations
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3. Least affected by
Fluctuations of Sampling
There should be
sampling stability in an
average.
2. Easy to Understand
and Calculate
The value of an average
should be computed using
a method that is simple
1. Rigidly Defined
An average should be
rigid and clear.
4. Not Affected much
by Extreme Values
The value of an average should
not be affected by just one or two
very large or very small items,
5. Based on all the
Observations
An average should be
based on all the
observations,
6. Capable of further
Algebraic Treatment
A good average should have the
capability of further statistical
and mathematical calculations
7@ThiyaguSuriya
Mean
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Mean
The mean represents the average
value of the dataset.
It can be calculated as the
sum of all the values in the dataset
divided by the number of values.
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The mean represents the average
value of the dataset.
It can be calculated as the
sum of all the values in the dataset
divided by the number of values.
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Mean Symbol (X Bar)
Meanis the average of the given numbers and is calculated by
dividing the sum of given numbers by the total number of
numbers.
Mean = ( Sum of all the observations / Total number of observations )
X = (Sum of values ÷Number of values)
X= (x1+ x2+ x3+….+xn)/n
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Meanis the average of the given numbers and is calculated by
dividing the sum of given numbers by the total number of
numbers.
Mean = ( Sum of all the observations / Total number of observations )
X = (Sum of values ÷Number of values)
X= (x1+ x2+ x3+….+xn)/n
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Example
What is the mean of 2, 4, 6, 8 and 10?
Solution:
First, add all the numbers.
2 + 4 + 6 + 8 + 10 = 30
Now divide by 5 (total number of observations).
Mean = 30/5 = 6
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What is the mean of 2, 4, 6, 8 and 10?
Solution:
First, add all the numbers.
2 + 4 + 6 + 8 + 10 = 30
Now divide by 5 (total number of observations).
Mean = 30/5 = 6
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Example - Mean
X: 8, 6, 7, 11, 3
Sum = 35
N = 5
M = 35/5 = 7
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X: 8, 6, 7, 11, 3
Sum = 35
N = 5
M = 35/5 = 7
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Example - Mean
X
X
n n
XXXXn
= =
++++
=
+++++
=
=
å
1 2 3
578642389066
6
379
6
63167
...
.
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X
X
n n
XXXXn
= =
++++
=
+++++
=
=
å
1 2 3
578642389066
6
379
6
63167
...
.
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Let's find Ahalya’s
MEAN science test score.
97
84
73
88
100
63
97
95
86+
783
783÷9
The mean is 87
Mean =
( Sum of all the observations /
Total number of observations )
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MEAN science test score.
97
84
73
88
100
63
97
95
86+
783
783÷9
The mean is 87
Mean =
( Sum of all the observations /
Total number of observations )
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Median
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Median
The median is the middle value of the
dataset in which the dataset is arranged in
ascending order or in descending order.
The median is the middle score for a data set
arranged in order of magnitude.
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The median is the middle value of the
dataset in which the dataset is arranged in
ascending order or in descending order.
The median is the middle score for a data set
arranged in order of magnitude.
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Finding the Median
1.Arrange the scores in ascending or
descending numerical order
2.Calculate the value of [(N+1)/2]
3.round the {(N+1)/2]th item
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1.Arrange the scores in ascending or
descending numerical order
2.Calculate the value of [(N+1)/2]
3.round the {(N+1)/2]th item
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Odd number of ObservationsEven number of Observations
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Example - Median
X: 6, 6, 7, 8, 9, 10, 11
Median = 8
Y: 1, 3, 5, 6, 8, 12
Median = 5.5
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X: 6, 6, 7, 8, 9, 10, 11
Median = 8
Y: 1, 3, 5, 6, 8, 12
Median = 5.5
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9784738810063 979586
The median is 88.
Half the numbers are
less than the median.
Half the numbers are
greater than the median. 22@ThiyaguSuriya
The median is 88.
Half the numbers are
less than the median.
Half the numbers are
greater than the median. 22@ThiyaguSuriya
Mode
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Mode
The mode represents the
frequently occurring value
in the dataset.
Sometimes the dataset may
contain multiple modes &
in some cases, it does not
contain any mode at all.
The mode is the
most frequent score
in our data set.
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The mode represents the
frequently occurring value
in the dataset.
Sometimes the dataset may
contain multiple modes &
in some cases, it does not
contain any mode at all.
The mode is the
most frequent score
in our data set.
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Mode
Score or qualitative category that occurs with the greatest frequency
Always used with nominal data, we find the most frequently occurring category
Bimodal -- Data sets that have two modes
Multimodal -- Data sets that contain more than two modes
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Score or qualitative category that occurs with the greatest frequency
Always used with nominal data, we find the most frequently occurring category
Bimodal -- Data sets that have two modes
Multimodal -- Data sets that contain more than two modes
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Example - Mode
X: 8, 6, 7, 9, 10, 6
Mode = 6
Y: 1, 8, 12, 3, 8, 5, 6
Mode = 8
Can have more than one mode
Z: 1, 2, 2, 8, 10, 5, 5, 6
Mode = 2 and 5
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X: 8, 6, 7, 9, 10, 6
Mode = 6
Y: 1, 8, 12, 3, 8, 5, 6
Mode = 8
Can have more than one mode
Z: 1, 2, 2, 8, 10, 5, 5, 6
Mode = 2 and 5
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9784738810063 979586
The value 97 appears twice.
All other numbers appear just once.
97 is the MODE 28@ThiyaguSuriya
The value 97 appears twice.
All other numbers appear just once.
97 is the MODE 28@ThiyaguSuriya
A Hint for remembering the MODE…
The first two letters give you a hint…
MOde
Most Often
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The first two letters give you a hint…
MOde
Most Often
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Which set of data has ONE MODE?
9, 11, 16, 8, 16
9, 11, 16, 6, 7, 17, 18
18, 7, 10, 7, 18
A
C
B
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9, 11, 16, 8, 16
9, 11, 16, 6, 7, 17, 18
18, 7, 10, 7, 18
A
C
B
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Which set of data has NO MODE?
13, 12, 12, 11, 12
9, 11, 16, 6, 7, 17, 18
18, 7, 10, 7, 18
A
C
B
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13, 12, 12, 11, 12
9, 11, 16, 6, 7, 17, 18
18, 7, 10, 7, 18
A
C
B
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Which set of data has MORE THAN ONE MODE?
9, 11, 16, 8, 16
9, 11, 16, 6, 7, 17, 18
18, 7, 10, 7, 18
A
C
B
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9, 11, 16, 8, 16
9, 11, 16, 6, 7, 17, 18
18, 7, 10, 7, 18
A
C
B
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GROUPED
DATA
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DATA
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x = f1x1+ f2x2+ …. + fnxn/f1 + f2+… + fn
Mean = ∑(fi.xi)/∑fi
Mean = ∑(f.x)/∑N
Mean
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Mean = ∑(fi.xi)/∑fi
Mean = ∑(f.x)/∑N
Mean
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Mean
Midpoint (X)CIff X
95.591-1005477.5
85.581-9010855
75.571-80151132.5
65.561-7010655
55.551-606333
45.541-503136.5
35.531-40135.5
N = 50fX =3625
S
N
fX
Mean
S
=
M = 3625/50 = 72.5
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Midpoint (X)CIff X
95.591-1005477.5
85.581-9010855
75.571-80151132.5
65.561-7010655
55.551-606333
45.541-503136.5
35.531-40135.5
N = 50fX =3625
S
N
fX
Mean
S
=
M = 3625/50 = 72.5
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Direct Method for Calculating Mean
Step 1:For each class, find the Midpoint / class mark xi, as
x=1/2(lower limit + upper limit)
Step 2:Calculate fi.xifor each i.
Step 3:Use the formulaMean = ∑(fi.xi)/∑fi.
Class Interval0-1010-2020-3030-4040-50
Frequency1216679
Example: Find the mean of the following data
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Step 1:For each class, find the Midpoint / class mark xi, as
x=1/2(lower limit + upper limit)
Step 2:Calculate fi.xifor each i.
Step 3:Use the formulaMean = ∑(fi.xi)/∑fi.
Class Interval0-1010-2020-3030-4040-50
Frequency1216679
Example: Find the mean of the following data
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Class
Interval
Frequency
fi
Class
Mark xi( fi.xi)
0-1012560
10-201615240
20-30625150
30-40735245
40-50945405
∑fi=50∑fi.xi=1100
Mean
N
fX
Mean
S
=
Mean = ∑(fi.xi)/∑fi= 1100/50 = 22
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Interval
Frequency
fi
Class
Mark xi( fi.xi)
0-1012560
10-201615240
20-30625150
30-40735245
40-50945405
∑fi=50∑fi.xi=1100
Mean
N
fX
Mean
S
=
Mean = ∑(fi.xi)/∑fi= 1100/50 = 22
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Merits of Arithmetic Mean
Simple to understand
Easy to compute,
Capable of further mathematical treatment,
Calculated based on all the items of the series,
It gives the value which balances the either side,
It can be calculated even if some values of the series are missing.
It is least affected by fluctuations in sampling.
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Simple to understand
Easy to compute,
Capable of further mathematical treatment,
Calculated based on all the items of the series,
It gives the value which balances the either side,
It can be calculated even if some values of the series are missing.
It is least affected by fluctuations in sampling.
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Demerits of Arithmetic Mean
Extreme Items Have
Disproportionate Effect.
When Data is Vast, The
Calculations Become
Tedious.
In the case of Open-
ended Classes, the
mean can only be
calculated by making
some assumptions.
IT Is Not Representative
If Series Is
Asymmetrical.
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Extreme Items Have
Disproportionate Effect.
When Data is Vast, The
Calculations Become
Tedious.
In the case of Open-
ended Classes, the
mean can only be
calculated by making
some assumptions.
IT Is Not Representative
If Series Is
Asymmetrical.
40@ThiyaguSuriya
Median
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Median
CCI / ECICIfCF
90.5 - 100.591-100550
80.5 – 90.581-901045
70.5 – 80.571-801535
60.5 – 70.561-701020
50.5 – 60.551-60610
40.5 – 50.541-5034
30.5 – 40.531-4011
N = 50
Locate the Median Class = N / 2 = 50 / 2 = 25
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CCI / ECICIfCF
90.5 - 100.591-100550
80.5 – 90.581-901045
70.5 – 80.571-801535
60.5 – 70.561-701020
50.5 – 60.551-60610
40.5 – 50.541-5034
30.5 – 40.531-4011
N = 50
Locate the Median Class = N / 2 = 50 / 2 = 25
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MEDIAN
ECI/ CCICIfcf
55.5-60.556-60660
50.5-55.551-55954
45.5-50.546-501545
40.5 (L)-45.541-4513 (f)30
35.5-40.536-401017 (M)
30.5-35.531-3577
N = 60
30
2
60
==
5
13
)17260(
5.40 ´
-
+=
c
f
mN
L ´
-
+
)2(
LOCATION OF THE
MEDIAN CLASS
MEDIAN=
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ECI/ CCICIfcf
55.5-60.556-60660
50.5-55.551-55954
45.5-50.546-501545
40.5 (L)-45.541-4513 (f)30
35.5-40.536-401017 (M)
30.5-35.531-3577
N = 60
30
2
60
==
5
13
)17260(
5.40 ´
-
+=
c
f
mN
L ´
-
+
)2(
LOCATION OF THE
MEDIAN CLASS
MEDIAN=
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Merits of Median
Easy to calculate,
Can be calculated even if the data is incomplete,
It is unaffected in case of asymmetrical series,
Useful in case the series of qualitative characteristics is given for example beauty, intelligence etc.
Median is a reliable measure of central tendency if in a series, frequencies do not tend to be evenly
distributed.
Median can be expressed graphically.
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Easy to calculate,
Can be calculated even if the data is incomplete,
It is unaffected in case of asymmetrical series,
Useful in case the series of qualitative characteristics is given for example beauty, intelligence etc.
Median is a reliable measure of central tendency if in a series, frequencies do not tend to be evenly
distributed.
Median can be expressed graphically.
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Mode
Mo= xk+ h{(fk– fk-1)/(2fk– fk-1– fk+1)}
Where,
•xk= lower limit of the modal class interval.
•fk= frequency of the modal class.
•fk-1= frequency of the class preceding the modal class.
•fk+1= frequency of the class succeeding the modal
class.
•h = width of the class interval.
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Mo= xk+ h{(fk– fk-1)/(2fk– fk-1– fk+1)}
Where,
•xk= lower limit of the modal class interval.
•fk= frequency of the modal class.
•fk-1= frequency of the class preceding the modal class.
•fk+1= frequency of the class succeeding the modal
class.
•h = width of the class interval.
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Example : Calculate the mode for the followingfrequency distribution.
Class0-1010-2020-3030-4040-5050-6060-7070-80
Frequency5871228201010
Class 40-50 has the maximum frequency, which is called the modal class.
xk= 40, h = 10, fk= 28, fk-1= 12, fk+1= 20
Mode,Mo= xk+ h{(fk– fk-1)/(2fk– fk-1– fk+1)}
= 40 + 10{(28 – 12)/(2 × 28 – 12 – 20)}
= 46.67
Hence,mode = 46.67
46@ThiyaguSuriya
Class0-1010-2020-3030-4040-5050-6060-7070-80
Frequency5871228201010
Class 40-50 has the maximum frequency, which is called the modal class.
xk= 40, h = 10, fk= 28, fk-1= 12, fk+1= 20
Mode,Mo= xk+ h{(fk– fk-1)/(2fk– fk-1– fk+1)}
= 40 + 10{(28 – 12)/(2 × 28 – 12 – 20)}
= 46.67
Hence,mode = 46.67
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Relationship
among mean,
median and mode,Mode = 3(Median) – 2(Mean)
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among mean,
median and mode,Mode = 3(Median) – 2(Mean)
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Type of VariableBest measure of central tendency
NominalMode
OrdinalMedian
Interval/Ratio (not skewed)Mean
Interval/Ratio (skewed)Median
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NominalMode
OrdinalMedian
Interval/Ratio (not skewed)Mean
Interval/Ratio (skewed)Median
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Thank You
49@ThiyaguSuriya
49@ThiyaguSuriya
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