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ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation PDF Download

DEFINITION OF CENTRAL TENDENCY
In many a case, like the distributions of height, weight, marks, profit, wage and so on, it has been noted that starting with rather low frequency, the class frequency gradually increases till it reaches its maximum somewhere near the central part of the distribution and after which the class frequency steadily falls to its minimum value towards the end. Thus, central tendency may be defined as the tendency of a given set of observations to cluster around a single central or middle value and the single value that represents the given set of observations is described as a measure of central tendency or, location, or average. Hence, it is possible to condense a vast mass of data by a single representative value. The computation of a measure of central tendency plays a very important part in many a sphere. A company is recognized by its high average profit, an educational institution is judged on the basis of average marks obtained by its students and so on. Furthermore, the central tendency also facilitates us in providing a basis for comparison between different distribution. Following are the different measures of central tendency:
(i) Arithmetic Mean (AM)
(ii) Median (Me)
(iii) Mode (Mo)
(iv) Geometric Mean(GM)
(v) Harmonic Mean (HM)  
CRITERIA FOR AN IDEAL MEASURE OF CENTRAL TENDENCY 

Following are the criteria for an ideal measure of central tendency:
(i) It should be properly and unambiguously defined.
(ii) It should be easy to comprehend.
(iii) It should be simple to compute.
(iv) It should be based on all the observations.

(v) It should have certain desirable mathematical properties.
(vi) It should be least affected by the presence of extreme observations.
ARITHMETIC MEAN
For a given set of observations, the AM may be defined as the sum of all the observations divided by the number of observations. Thus, if a variable x assumes n values x1 , x2 , x3 ,………..xn, then the AM of x, to be denoted byICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation , is given by,
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
In case of a simple frequency distribution relating to an attribute, we have
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
assuming the observation xi occurs fi times, i=1,2,3,……..n and N=≤fi . In case of grouped frequency distribution also we may use formula (15.1.2) with xi as the mid value of the i-th class interval, on the assumption that all the values belonging to the i-th class interval are equal to xi . However, in most cases, if the classification is uniform, we consider the following formula for the computation of AM from grouped frequency distribution:
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ILLUSTRATIONS: 
Example : Following are the daily wages in Rupees of a sample of 9 workers: 58, 62, 48, 53, 70, 52, 60, 84, 75. Compute the mean wage.

Solution: Let x denote the daily wage in rupees.
Then as given, x1 =58, x2 =62, x3 = 48, x4 =53, x5 =70, x6 =52, x7 =60, x8 =84 and x9 =75.
Applying the mean wage is given by,
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
Example : Compute the mean weight of a group of BBA students of St. Xavier’s College from the following data:
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Solution: Computation of mean weight of 36 BBA students
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Applying, we get the average weight as
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Example 3: Find the AM for the following distribution:
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Solution: We apply formula since the amount of computation involved in finding the AM is much more compared to Example Any mid value can be taken as A. However, usually A is taken as the middle most mid-value for an odd number of class intervals and any one of the two middle most mid-values for an even number of class intervals. The class length is taken as C.
Computation of AM
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
The required AM is given by
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Example : Given that the mean height of a group of students is 67.45 inches. Find the missing frequencies for the following incomplete distribution of height of 100 students.
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Solution: Let x denote the height and f3 and f4 as the two missing frequencies.
Estimation of missing frequencies
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
As given, we have
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation ...................(1)
and      ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
On substituting 27 for f4 in (1), we get
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Thus, the missing frequencies would be 42 and 27.
Properties of AM
(i) If all the observations assumed by a variable are constants, say k, then the AM is also k. For example, if the height of every student in a group of 10 students is 170 cm, then the mean height is, of course, 170 cm.
the algebraic sum of deviations of a set of observations from their AM is zero i.e. for unclassified data ,ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
and for grouped frequency distribution, ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation...............(15.4)
For example, if a variable x assumes five observations, say 58, 63, 37, 45, 29, thenICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation. Hence, the deviations of the observations from the AM i.e. )ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation are 11.60, 16.60, -9.40,
–1.40 and –17.40, thenICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation11.60 + 16.60 + (–9.40) + (–1.40) + (–17.40) = 0 .
AM is affected due to a change of origin and/or scale which implies that if the original variable x is changed to another variable y by effecting a change of origin, say a, and scale say b, of x i.e. y=a+bx, then the AM of y is given by ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
For example, if it is known that two variables x and y are related by 2x+3y+7=0 andICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation, then the AM of y is given byICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
If there are two groups containing n1 and n2 observations andICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundationand ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundationas the respective
arithmetic means, then the combined AM is given byICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
This property could be extended to k>2 groups and we may writeICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
i = 1, 2,........n.
Example : The mean salary for a group of 40 female workers is ₹ 5,200 per month and that for a group of 60 male workers is ₹6800 per month. What is the combined mean salary?
Solution: As given n1 = 40, n2 = 60, ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation = ₹ 5,200 and ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation =  ₹ 6,800 hence, the combined mean salary per month is
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

MEDIAN – PARTITION VALUES
As compared to AM, median is a positional average which means that the value of the median is dependent upon the position of the given set of observations for which the median is wanted. Median, for a given set of observations, may be defined as the middle-most value when the observations are arranged either in an ascending order or a descending order of magnitude.
As for example, if the marks of the 7 students are 72, 85, 56, 80, 65, 52 and 68, then in order to find the median mark, we arrange these observations in the following ascending order of magnitude: 52, 56, 65, 68, 72, 80, 85.
Since the 4th term i.e. 68 in this new arrangement is the middle most value, the median mark is 68 i.e. Median (Me) = 68.
As a second example, if the wages of 8 workers, expressed in rupees are
56, 82, 96, 120, 110, 82, 106, 100 then arranging the wages as before, in an ascending order of magnitude, we get ₹ 56, ₹ 82, ₹ 82, ₹ 96, ₹ 100, ₹ 106, ₹ 110, ₹ 120. Since there are two middlemost values, namely, ₹ 96, and ₹100 any value between ₹96 and ₹100 may be, theoretically, regarded as median wage. However, to bring uniqueness, we take the arithmetic mean of the two middle-most values, whenever the number of the observations is an even number. Thus, the median wage in this example, would be
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
In case of a grouped frequency distribution, we find median from the cumulative frequency distribution of the variable under consideration. We may consider the following formula, which can be derived from the basic definition of median.
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Where,
l1 = lower class boundary of the median class i.e. the class containing median.
N = total frequency.
Nl = less than cumulative frequency corresponding to l1 . (Pre median class)
Nu = less than cumulative frequency corresponding to l2 . (Post median class) l2 being the upper class boundary of the median class. C = l2 – l1 = length of the median class.
Example : Compute the median for the distribution as given
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

Solution: First, we find the cumulative frequency distribution which is exhibited in Computation of Median
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation  
We find, from the Computation of Median ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation = 154 lies between the two cumulative frequencies 119 and 201 i.e. 119 < 154 < 201 . Thus, we have Nl = 119, Nu = 201 l 1 = 409.50 and l 2 = 429.50. Hence C = 429.50 – 409.50 =20.

Substituting these values in (15.1.7), we get,
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Example : Find the missing frequency from the following data, given that the median mark is 23.
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
Solution: Let us denote the missing frequency by f3. Table 15.1.5 shows the relevant computation.
(Estimation of missing frequency)
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Going through the mark column, we find that 20<23<30. Hence l 1 =20, l 2 =30 and accordingly Nl =13, Nu=13+f3 . Also the total frequency i.e. N is 22+f3 . Thus,
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
So, the missing frequency is 10.
Properties of median
We cannot treat median mathematically, the way we can do with arithmetic mean. We consider below two important features of median.
(i) If x and y are two variables, to be related by y=a+bx for any two constants a and b, then the median of y is given by
yme = a + bxme
For example, if the relationship between x and y is given by 2x – 5y = 10 and if xme i.e. the median of x is known to be 16.
Then 2x – 5y = 10
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
(ii) For a set of observations, the sum of absolute deviations is minimum when the deviations are taken from the median. This property states thatICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation| is minimum if we choose A as the median.
PARTITION VALUES OR QUARTILES OR FRACTILES
These may be defined as values dividing a given set of observations into a number of equal parts. When we want to divide the given set of observations into two equal parts, we consider median. Similarly, quartiles are values dividing a given set of observations into four equal parts. So there are three quartiles – first quartile or lower quartile denoted by Q1 , second quartile or median to be denoted by Q2 or Me and third quartile or upper quartile denoted by Q3 . First quartile is the value for which one fourth of the observations are less than or equal to Q1 and the remaining three – fourths observations are more than or equal to Q1 . In a similar manner, we may define Q2 and Q3 .
Deciles are the values dividing a given set of observation into ten equal parts. Thus, there are nine deciles to be denoted by D1 , D2 , D3 ,…..D9 . D1 is the value for which one-tenth of the given observations are less than or equal to D1 and the remaining nine-tenth observations are greater than or equal to D1 when the observations are arranged in an ascending order of magnitude.
Lastly, we talk about the percentiles or centiles that divide a given set of observations into 100 equal parts. The points of sub-divisions being P1 , P2 ,………..P99. P1 is the value for which one hundredth of the observations are less than or equal to P1 and the remaining ninety-nine hundredths observations are greater than or equal to P1 once the observations are arranged in an ascending order of magnitude.
For unclassified data, the pth quartile is given by the (n+1)pth value, where n denotes the total number of observations. p = 1/4, 2/4, 3/4 for Q1, Q2 and Qrespectively. p=1/10, 2/10,………….9/10. For D1 , D2 ,……,D9 respectively and lastly p=1/100, 2/100,….,99/100 for P, P2 , P3 ….P99 respectively.
In case of a grouped frequency distribution, we consider the following formula for the computation of quartiles.
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
The symbols, except p, have their usual interpretation which we have already discussed while computing median and just like the unclassified data, we assign different values to p depending on the quartile.
Another way to find quartiles for a grouped frequency distribution is to draw the ogive (less than type) for the given distribution. In order to find a particular quartile, we draw a line parallel to the horizontal axis through the point Np. We draw perpendicular from the point of intersection of this parallel line and the ogive. The x-value of this perpendicular line gives us the value of the quartile under discussion.
Example : Following are the wages of the labourers: ₹ 82, ₹56, ₹ 90, ₹ 50, ₹ 120, ₹75, ₹ 75, ₹ 80, ₹130, ₹ 65. Find Q1 , D6 and P82 
Solution: Arranging the wages in an ascending order, we get ₹50, ₹56,  ₹65,  ₹75, ₹75, `₹80, ₹82, ₹90, ₹120, ₹130.
Hence, we have ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundationth value
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundationth value
= 2.75th value
= 2nd value + 0.75 × difference between the third and the 2nd values.
= ₹56 + 0.75 × (65 – 56)
= ₹62.75
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
= 6.60th value
= 6th value + 0.60 × difference between the 7th and the 6th values.
= ₹(80 + 0.60 × 2)
= ₹ 81.20
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
= 9th value + 0.02 × difference between the 10th and the 9th values
= ₹ (120 + 0.02 ×10)
= ₹120.20
Next, let us consider one problem relating to the grouped frequency distribution.
Example : Following distribution relates to the distribution of monthly wages of 100 workers.
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
Solution: This is a typical example of an open end unequal classification as we find the lower class limit of the first class interval and the upper class limit of the last class interval are not stated, and theoretically, they can assume any value between 0 and 500 and 1500 to any number respectively. The ideal measure of the central tendency in such a situation is median as the median or second quartile is based on the fifty percent central values. Denoting the first LCB and the last UCB by the L and U respectively, we construct the following cumulative frequency distribution:
Computation of quartiles
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
since, 57<75 <84, we take Nl = 57, Nu=84, l1 =899.50, l2 =1099.50, c = l2 –l1 = 200 in the formula for computing Q3 .
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Similarly, for D7 ,ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundationwhich also lies between 57 and 84.
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

MODE
For a given set of observations, mode may be defined as the value that occurs the maximum number of times. Thus, mode is that value which has the maximum concentration of the observations around it. This can also be described as the most common value with which, even, a layman may be familiar with. Thus, if the observations are 5, 3, 8, 9, 5 and 6, then Mode (Mo) = 5 as it occurs twice and all the other observations occur just once. The definition for mode also leaves scope for more than one mode. Thus sometimes we may come across a distribution having more than one mode. Such a distribution is known as a multi-modal distribution. Bi-modal distribution is one having two modes. Furthermore, it also appears from the definition that mode is not always defined. As an example, if the marks of 5 students are 50, 60, 35, 40, 56, there is no modal mark as all the observations occur once i.e. the same number of times. We may consider the following formula for computing mode from a grouped frequency distribution:
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
where, l1 = LCB of the modal class. i.e. the class containing mode.
f0 = frequency of the modal class
f–1 = frequency of the pre-modal class
f1 = frequency of the post modal class
C = class length of the modal class
Example : Compute mode for the distribution as described in Example.
Solution: The frequency distribution is shown below
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
Going through the frequency column, we note that the highest frequency i.e. f0 is 82. Hence, f–1 = 58 and f1 = 65. Also the modal class i.e. the class against the highest frequency is 410 – 429.
Thus l1 = LCB=409.50 and c=429.50 – 409.50 = 20
Hence, applying formulas, we get
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
= 421.21 which belongs to the modal class. (410 – 429)
When it is difficult to compute mode from a grouped frequency distribution, we may consider the following empirical relationship between mean, median and mode:
Mean – Mode = 3(Mean – Median)
= 3 × 52.40 – 2 × 55.60
= 46.
Example : If y = 2 + 1.50x and mode of x is 15, what is the mode of y?
Solution: By virtue of (11.10), we have
ymo = 2 + 1.50 × 15
= 24.50.

GEOMETRIC MEAN AND HARMONIC MEAN
For a given set of n positive observations, the geometric mean is defined as the n-th root of the product of the observations. Thus if a variable x assumes n values x1 , x2 , x3 ,……….., xn, all the values being positive, then the GM of x is given by
G= (x1 × x2 × x3 ……….. × xn)1/n 
For a grouped frequency distribution, the GM is given by
G= (x1 f1 × x2 f2 × x3 f3 …………….. × xn fn )1/N
Where N =ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
In connection with GM, we may note the following properties :
(i) Logarithm of G for a set of observations is the AM of the logarithm of the observations; i.e.
log GICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
(ii) if all the observations assumed by a variable are constants, say K > 0, then the GM of the observations is also K.
(iii) GM of the product of two variables is the product of their GM‘s i.e. if z = xy, then GM of z = (GM of x) × (GM of y)
(iv) GM of the ratio of two variables is the ratio of the GM’s of the two variables i.e. if z = x/y then
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Example : Find the GM of 3, 6 and 12.
Solution: As given x1 =3, x2 =6, x3 =12 and n=3.  
Applying , we have G= (3×6×12) 1/= (63 )1/3=6.
Example : Find the GM for the following distribution:
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Solution: According to (15.1.12), the GM is given by
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

Harmonic Mean
For a given set of non-zero observations, harmonic mean is defined as the reciprocal of the AM of the reciprocals of the observation. So, if a variable x assumes n non-zero values x, x2, x3 ,……………,xn, then the HM of x is given by
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
For a grouped frequency distribution, we have
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

Properties of HM
(i) If all the observations taken by a variable are constants, say k, then the HM of the observations is also k.
(ii) If there are two groups with n1 and n2 observations and H1 and H2 as respective HM’s than the combined HM is given by
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
Example : Find the HM for 4, 6 and 10.
Solution: Applying (15.1.16), we have
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Example : Find the HM for the following data:
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
Solution: Using , we get
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Relation between AM, GM, and HM
For any set of positive observations, we have the following inequality:
AM ≥GM ≥HM
The equality sign occurs, as we have already seen, when all the observations are equal.
Example : compute AM, GM, and HM for the numbers 6, 8, 12, 36.
Solution : In accordance with the definition, we have
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
The computed values of AM, GM, and HM establish
Weighted average
When the observations under consideration have a hierarchical order of importance, we take recourse to computing weighted average, which could be either weighted AM or weighted GM or weighted HM.
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation 
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Example : Find the weighted AM and weighted HM of first n natural numbers, the weights being equal to the squares of the corresponding numbers.
Solution: As given,
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

A General review of the different measures of central tendency

After discussing the different measures of central tendency, now we are in a position to have a review of these measures of central tendency so far as the relative merits and demerits are concerned on the basis of the requisites of an ideal measure of central tendency which we have already mentioned in section 15.1.2. The best measure of central tendency, usually, is the AM. It is rigidly defined, based on all the observations, easy to comprehend, simple to calculate and amenable to mathematical properties. However, AM has one drawback in the sense that it is very much affected by sampling fluctuations. In case of frequency distribution, mean cannot be advocated for open-end classification.

Like AM, median is also rigidly defined and easy to comprehend and compute. But median is not based on all the observation and does not allow itself to mathematical treatment. However, median is not much affected by sampling fluctuation and it is the most appropriate measure of central tendency for an open-end classification.

Although mode is the most popular measure of central tendency, there are cases when mo

Although mode is the most popular measure of central tendency, there are cases when mode remains undefined. Unlike mean, it has no mathematical property. Mode is also affected by sampling fluctuations.

GM and HM, like AM, possess some mathematical properties. They are rigidly defined and based on all the observations. But they are difficult to comprehend and compute and, as such, have limited applications for the computation of average rates and ratios and such like things.

Example : Given two positive numbers a and b, prove that AH=G2. Does the result hold

for any set of observations?

Solution: For two positive numbers a and b, we have,
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
This result holds for only two positive observations and not for any set of observations.

Example : The AM and GM for two observations are 5 and 4 respectively. Find the two

observations.

Solution: If a and b are two positive observations then as given
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation a – b = 6 (ignoring the negative sign)
Adding (1) and (3) We get,

2a = 16
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundationa = 8
From (1), we get b = 10 – a = 2
Thus, the two observations are 8 and 2.

Example : Find the mean and median from the following data:

ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

Also compute the mode using the approximate relationship between mean, median and mode.

Solution: What we are given in this problem is less than cumulative frequency distribution.We need to convert this cumulative frequency distribution to the corresponding frequency distribution and thereby compute the mean and median.
Computation of Mean Marks for 30 students
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Hence the mean mark is given by
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Computation of Median Marks

ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Since ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundationlies between 13 and 23,
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

Example : Following are the salaries of 20 workers of a firm expressed in thousand

rupees: 5, 17, 12, 23, 7, 15, 4, 18, 10, 6, 15, 9, 8, 13, 12, 2, 12, 3, 15, 14. The firm gave bonus

amounting to ₹2,000, ₹3,000, ₹ 4,000, ₹5,000 and ₹6,000 to the workers belonging to the salary groups 1,000 – 5,000, 6,000 – 10,000 and so on and lastly 21,000 – 25,000. Find the average bonus paid per employee.
Solution: We first construct frequency distribution of salaries paid to the 20 employees. The average bonus paid per employee is given byICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA FoundationWhere x i represents the amount of bonus paid to the ith salary group and fi, the number of employees belonging to that group which would be obtained on the basis of frequency distribution of salaries.
Computation of Average bonus
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
Hence, the average bonus paid per employee
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation
ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation

The document ICAI Notes- Measures of Central Tendency and Dispersion- 1 | Quantitative Aptitude for CA Foundation is a part of the CA Foundation Course Quantitative Aptitude for CA Foundation.
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FAQs on ICAI Notes- Measures of Central Tendency and Dispersion- 1 - Quantitative Aptitude for CA Foundation

1. What are measures of central tendency?
Ans. Measures of central tendency are statistical measures used to describe the center or average of a data set. They include the mean, median, and mode. The mean is the sum of all values divided by the number of values. The median is the middle value when the data is arranged in ascending or descending order. The mode is the value that appears most frequently in the data set.
2. How do you calculate the mean?
Ans. To calculate the mean, you need to sum up all the values in the data set and then divide the sum by the total number of values. For example, if you have the data set {4, 6, 8, 10}, you would calculate the mean as (4 + 6 + 8 + 10) / 4 = 7.
3. What is the median and how is it calculated?
Ans. The median is the middle value in a data set when the values are arranged in ascending or descending order. To calculate the median, you first arrange the data in order and then find the middle value. If the data set has an odd number of values, the median is the value in the middle. If the data set has an even number of values, the median is the average of the two middle values.
4. How is the mode determined?
Ans. The mode is determined by finding the value that appears most frequently in a data set. If there is no value that appears more than once, the data set is said to have no mode. If multiple values appear with the same highest frequency, the data set is said to have multiple modes.
5. What is the purpose of measures of dispersion?
Ans. Measures of dispersion are statistical measures used to describe the spread or variability of a data set. They provide information about how much the values deviate from the central tendency. Common measures of dispersion include the range, variance, and standard deviation. These measures help in understanding the distribution of data and assessing the reliability of the central tendency measures.
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