ࡱ> 5@ 0bjbj22 "XX8dTdTdT8TlUznWW"WWWWWW$R:rWWWWWWW4~^~^~^WWW~^W~^~^^WW PϷUdTtY݅"5L J0z:["DWW~^WWWWWOQ\^"Q MEASURES OF CENTRAL TENDENCY Measures of central tendency refer to all those methods of statistical analysis by which averages of the statistical series are worked out. The word average is very commonly used in day-to-day conversation. However, in statistics the term average has a different meaning. It is defined as that value of a distribution, which is considered as the most representative value of the series. Since an average represents the entire data, its value lies between the largest and smallest item. For this reason, an average is frequently referred to as a measure of central tendency. Functions of averages Gives one single value that describes the characteristics of the entire data. Facilitates comparison Requisites of a good average It should be easy to understand It should be simple to compute It should be based on all observation It should be capable of further algebraic treatment Types of averages Arithmetic mean (simple and weighted) Median Mode Arithmetic mean (simple) The most popular and widely used measure for representing the entire data by one value is what most laymen call as average and what statisticians call as arithmetic mean Calculation of arithmetic mean in individual series (ungrouped data) Direct method Steps Find the sum of all the variables( "X) Divide the sum by the no. of items (N) Apply the formula: AM = "X " N Short cut method Take one of the given variables as the assumed mean (preferably the one in the middle) and denote it as  a Find the deviation of the given variables from the assumed mean, and denote it as d (ie; d = x-a ) Find the sum of deviations Apply the formula A.M = A + "(X-A) " N Calculation of arithmetic mean in discrete series (grouped data) Direct method Steps Find the product of the variable and the corresponding frequency (fx) Find the sum of fx ie; ("fx) Find the sum of frequencies ie;( "f ) Apply the formula: AM = "(fx) " "f Short cut method Take one of the given variables as the assumed mean (preferably the one in the middle) and denote it as  A Find the deviation of the given variables from the assumed mean, X-A. Multiply the deviations with their corresponding frequencies f(X-A) Find the sum of f(X-A) Apply the formula A.M = A+ "(f(X-A) " "f Step deviation method Take one of the given variables as the assumed mean (preferably the one in the middle) and denote it as A Find the deviation of the given variables from the assumed mean, and denote it as (X-A) Divide the deviations by a common factor ( c ) and denote it as (X-A) Multiply the deviations with corresponding frequencies and find the sum i.e. "(f(X-A) Apply the formula. A.M = A+ "(f(X-A) " "f x C Numerical questions 1. Find the value of arithmetic mean from the following using direct, short cut and step deviation method ans; 34 Serial No. of students12345678910Marks in English15203022251840505565 2. From the monthly income of 8 families given below, find the arithmetic mean. (Use all the three methods) ans; 121 500, 75,12,11,60,260, 45, 11 3. Calculate A.M from the following using all the three methods ans; 44.27 Weight364044485256No.ofstudents 1381512102 4. Calculate A.M from the following using all the three methods ans; 34.25 income20253035404550No. of persons5812151064 5. Find the value of mean from the following distribution ans; 33.6 class interval 0-10 10-20 20-30 30- 40 40- 50 50-60 60-70frequencies 8 12 14 16 15 9 6 6. Calculate mean from the following ans;23.8 Mid value 5 10 15 20 25 30 35 40 45Frequency 7 11 18 29 32 27 16 9 1 7. From the following frequency distribution find the value of missing frequency, if the value of mean is 12 ans 24 class interval 0-4 4-8 8- 12 12- 16 16- 20 20- 24 24-28Frequency 4 4 ? 10 4 4 2 Weighted arithmetic mean In simple arithmetic mean, all items are given equal importance. In weighted arithmetic mean, items are accorded different weights according to their relative importance. Calculation of weighted arithmetic mean Items are multiplied by their corresponding weights (w) and summed up to get "XW "XW is divided by the sum total of weights Weighted arithmetic mean = "XW / "W Properties of arithmetic mean The sum of the deviations taken from arithmetic mean is always zero The sum of the squares of deviations derived from arithmetic mean will be lesser than the sum of deviations derived from any other value Partition values Median Median is the middle value of series when arranged in ascending or descending order. In the words of connor median is the value of the variable which divides the group into two equal parts, one part comprising of all values greater than and the other values less than median Calculation of median 1. Individual series Arrange the data in ascending or descending order Apply the formula median (M) = size of (N+1) / 2 th item, (N is the number of items in the series) 2. Discrete series Arrange the data in ascending or descending order Find the cumulative frequencies Find (N+1) /2, (N is the total frequency) Locate the total which is equal to or greater than (N+1) /2 in the cumulative frequency column and determine the value of the variable corresponding to this to get the value of median. 3. Continuous series Arrange the data in ascending or descending order Find the cumulative frequencies Find (N) /2, (N is the total frequency) in the cumulative frequency column and determine the median class Apply the following formula to find the value of median Median = L +( N/2 C.f) / f x i In the above formula L = lower limit of the median class N = total frequency Cf = cumulative frequency of the class above the median class I = class width of the median class F = is the frequency of the median class LOCATION OF MEDIAN with the help of graph Draw less than and greater than cumulative frequency curves in one graph From the point of intersection, draw a perpendicular to the x-axis to locate the value of median. Note ; in the case of an inclusive series, convert it into exclusive Problems 1. Obtain the value of median from the following a. 391, 384, 407, 672, 522, 777, 753, 2488, 1490 ans 672 b. 22, 16, 18, 13, 15, 19, 17, 20, 23 ans 18 c.ans = 16 WageNumber of workers102125141216201810207223 d. . ans =61 Xf58259360661156210635644653661 E ans =30 Mid value Frequency10420830144010502 F ans = 35.5 Marks less than No. of students104208302540345031604670508060 Quartiles Quartiles divide a distribution into four equal parts. There are three quartiles Q1, Q2, and Q3 Q1 is called the lower quartile. the number of values less than q1 is one fourth and more than q1 is three fourth of the total number of values in the set. Q3 is called the upper quartile three fourth of the total number of values in the set are less than q3 and one fourth values are more than Q3 Q2 is the median or second quartile, which divides the distribution into two equal parts. Calculation of quartiles CALCULATION OF Q1 1. Individual series Arrange the data in ascending or descending order Q1= size of (N+1) / 4 th item, (N is the number of items in the series) 2. Discrete series Arrange the data in ascending or descending order Find the cumulative frequencies Find (N+1) /4, (N is the total frequency) Locate the total, which is equal to or greater than (N+1) /4 in the cumulative frequency column and determine the value of the variable corresponding to this to get the value of Q1 3. Continuous series Arrange the data in ascending or descending order Find the cumulative frequencies Find (N) /4, (N is the total frequency) in the cumulative frequency column and determine the Q1 class Apply the following formula to find the value Q1= L +( N/4 C.f) / f x i L = lower limit of the quartile class N = total frequency Cf = cumulative frequency of the class above the Q1 class I = class width of theQ1 class F = is the frequency of the Q1class CALCULATION OF Q3 1. Individual series Arrange the data in ascending or descending order Q3= size of 3(N+1) / 4 th item, (N is the number of items in the series) 2. Discrete series Arrange the data in ascending or descending order Find the cumulative frequencies Find 3(N+1) /4, (N is the total frequency) Locate the total, which is equal to or greater than 3 (N+1) /4 in the cumulative frequency column and determine the value of the variable corresponding to this to get the value of median 3. Continuous series Arrange the data in ascending or descending order Find the cumulative frequencies Find 3(N) /4, (N is the total frequency) in the cumulative frequency column and determine the third quartile class Apply the following formula to find the value Q3 = L +(3 N/4 C.f) / f x i In the above formula L = lower limit of the Q3 class N = total frequency Cf = cumulative frequency of the class above the Q3 class I = class width of the Q3 class F = is the frequency of the Q3 class (Since Q2 and median are the same, calculation is similar to median) Numerals 1. Calculate lower quartile and upper quartile from the following Wages 38404245272830353720212526 Ans Q1=25.5 Q3 = 39 2. Following are the marks obtained by 20 students of grade 11 in a school. On the basis of this data, calculate the values of Q1 and Q3 20181721222519 2024 2530152517232916 15 2627 Ans Q1 = 17.25 Q3 = 25 3. Calculate lower quartile and upper quartile from the following X 101112131415161718F 3 4 5  12 10  7 5  2  1 Ans Q1= 13 Q3 = 15 4. Calculate upper quartile from the following X 58 59 60 61 62 63 64 65 66F 2  3  6 15 10  5  4  3 1Ans Q3= 63 5. Calculate upper quartile and lower quartile from the following Marks Number of students30-351435-401640-451845-502350-551855-60860-653Ans Q1= 38.43 Q3 = 51.11 6. Find Q1, Q2, and Q3 from the following Marks below 10 20 30 40 50 60 70 80 No. of students 15 35 60 84 96 127 198 250 Ans Q1 = 31.04 Q2 = 28.33 Q3 = 37.78 MODE Arithmetic mean sometimes becomes unworthy due to the influence of extreme scores in the distribution. For example, in the series 2,2,3,4,10,12,20 and 45, the extreme scores detract the real value of the arithmetic mean The median also fails to represent the typical central value, if the scores are divergent from each other, say as in series 10,30,100,150and 1000 In order to find a measure, which is free from the above defects, we look for the commonly occurring value, in a series called modal value. Thus, Mode is the value in a series, which occurs most frequently. Calculation of mode in individual series. In individual series mode can be calculated by just an inspection of the series. Find the Value, which repeats maximum number of times in the series. When there are two or more values repeating the same maximum number of times, we say mode is ill defined. Calculation of mode in discrete series There are two methods for calculating mode Method of inspection similar to individual series. 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<<m=n====0>>>>>h@i@@@ A[AAABgd&{gdw]$a$gdw]gdk0=7=n==>>>@@A23cop<89ghi@7ࡗܗhx!q0JmHnHu h&{0Jjh&{0JU hkhw] hw]5\ hh2hw] hC.hw]hChw]5CJ\aJhx!q h(chw]hUh&{ h1'hw]hChw]5>*\hw]h1'hw]5\4Column 5 frequencies are grouped in three leaving the first one Column 6 frequencies are grouped in three leaving the first two After preparing the grouping table, prepare an analysis table The values against which frequencies are the highest are then entered by means of tally bar in relevant boxes Calculation of mode in continuous series Steps By preparing the grouping table and analysis table or by inspection ascertain the modal class Determine the value of mode by applying the formula Mode = L + (D1/D1+D2) i D1 = Difference between the frequency of the modal class and the frequency of the preceding class D2 = Difference between the frequency of the modal class and the frequency of the succeeding class L = lower limit of the modal class I = the class width of the modal class Location of mode graphically Draw the histogram of the given data Draw two lines diagonally in the middle of the modal class bar, starting from each upper corner of the bar to the upper corner of the adjacent bar. Draw a perpendicular line from the intersection of the two diagonals to the x axis to get the value of the mode. For merits demerits of various measures of central tendency, refer the text book Calculate mode from the following 1. 235678985673490348734  ans 34 2. 235678985673490348734 56 ans mode is ill defined since 56 and 34 repeats same number of times 3 . wages 25 50 75 80 85 90 workers 4 6 9 3 2 1 ans 75 4. Income 0-1010-2020-3030-4040-50families2846544230Ans 24 5. 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