For a given frequency distribution, n = 20 and `sumf_i x_i` = 140, then `barx` = ..........

For a given frequency distribution, median = 13.2 and mean = 15.3. Then by the relation between mean, median and mode, mode = . . . . . .

The median of a given frequency distribution is found graphically with the help of . . . . .

Find the missing frequencies f_(1) and f_(2) in the following frequency distribution, if n = 100 and median is is 32 {:("Class ", "frequency " (f_(i))),(0-10," "10),(10-20," "f_(1)),(20-30," "25),(30-40," "30),(40-50," "f_(2)),(50-60," "10),("Total "," "100):}

On one page of a telephone directory , there were 200 telephone numbers . The frequency distribution of their unit place digit (for example , in the number 25828573 , the unit place digit is 3 ) is given in the following table . {:("Digit",0,1,2,3,4,5,6,7,8,9),("Frequency",22,26,22,22,20,10,14,28,16,20):} Without looking at the pencil is placed on one of these numbers, i.e., the number is chosen at random. What is the probability that the digit in its unit place is 6 ?

100 surnames were randomly picked up from a local telephone directory and a frequency distribution of the number of letters in the English alphabet in the surnames was found as follows: (i) Draw a histogram to depict the given information, (ii) Write the class interval in which the maximum number of surnames lie.

Find the mean variance of the frequency distribution given below :

The heights of 50 students, measured to the nearest centimetres, have been found to be as follows: (i) Represent the data given above by a grouped frequency distribution table, taking the class intervals as 160 - 165,165-170, etc. (ii) What can you conclude about their heights from the table ?

x_1,x_2, x_3,………., x_n are n observations . sum_(i=1)^(n) (x_i - 2) = 100 " and " sum_(i=1)^(n) (x_i - 5) = 20 then mean barx = …….

The value of pi up to 50 decimal places is given below : 3.14159265358979323846264338327950288441971693997510 (i) Make a frequency distribution of the digits from 0 to 9 after the decimal point . (ii) Which are the most and the least frequency occurring digits ?

I.Q.s of 100 students are given in the following less than type cumulative frequency distrbution : {:(" I.Q. ","Number of students "),("Less than 110 "," "0),("Less than 120 "," "10),("Less than 130 "," "29),("Less than 140 "," "64),("Less than 150 "," "78),("Less than 160 "," "90),("Less than 170 "," "100):} Obtain the cumulative frequency distribution of more than type for the data.