Table of contents | |
Statistics | |
Data | |
Collection of Data | |
Presentation of Data | |
Graphical Representation of Data | |
Measures of Central Tendency | |
Mean | |
Median | |
Mode |
Statistics is the study of collection, organization, analysis and interpretation of data.
A distinct piece of information in the form of fact or figures collected or represented for any specific purpose is called Data. In Latin, it is known as the Datum.
Data are generally of two types:
After collecting data it is important to present it in a meaningful manner. There are many ways to present data.
For Example:
The marks obtained by 10 students in a Sanskrit test are 55, 36, 95, 73, 60, 42, 25, 78, 75, 62.
To present the very large number of items in a data we use grouped distribution table.
As you know a picture is better than thousand words so represent data in an easier way is to represent it graphically. Some of the methods of representing the data graphically are
It is the easiest way to represent the data in the form of rectangular bars so it is called Bar graph.
Example: Represent the average monthly rainfall of Nepal for the first six months in the year 2014.
Month | Jan | Feb | Mar | Apr | May | Jun |
Average Rainfall | 45 | 65 | 40 | 60 | 75 | 30 |
Sol:
It is like the Bar graph only but it is used in case of a continuous class interval.
Example: Draw the histogram of the following frequency distribution.
Daily earnings (in Rs) | 700 – 750 | 750 – 800 | 800 – 850 | 850 – 900 | 900 – 950 | 950 – 1000 |
No. of Stores | 6 | 9 | 2 | 7 | 11 | 5 |
Sol:
To draw the frequency polygon
If we need to draw the frequency polygon without drawing the histogram then first we need to calculate the class mark of each interval and these points will make the frequency polygon.
Example: Draw the frequency polygon of a city in which the following weekly observations were made in a study on the cost of living index without histogram.
Sol:
To make all the study of data useful, we need to use measures of central tendencies. Some of the tendencies are :
The mean is the average of the number of observations. It is calculated by dividing the sum of the values of the observations by the total number of observations.
It is represented by x bar or.
The meanof n values x1, x2, x3, ...... xn is given by
If the data is organized in such a way that the frequency is given but there is no class interval then we can calculate the mean by
where, x1, x2, x3,...... xn are the observations
f1, f2, f3, ...... fn are the respective frequencies of the given observations.
Example:
Sol:
Here, x1, x2, x3, x4, and x5 are 20, 40, 60, 80,100 respectively.
and f1 , f2 , f3 , f4, f5 are 40, 60, 30, 50, 20 respectively.
The median is the middle value of the given number of the observation which divides into exactly two parts.
For median of ungrouped data, we arrange it in ascending order and then calculated as follows
If the number of the observations is odd then the median will be As in the above figure the no. of observations is 7 i.e. odd, so the median will be term.
= 4th term.
The fourth term is 44.
If the number of observations is even then the median is the average of n/2 and (n/2) +1 term.
Example: Find the median of the following data.
Sol:
The mode is the value of the observation which shows the number that occurs frequently in data i.e. the number of observations which has the maximum frequency is known as the Mode.
Example: Find the Mode of the following data:15, 20, 22, 25, 30, 20,15, 20,12, 20
Sol: Here the number 20 appears the maximum number of times so
Mode = 20.
Remark: The empirical relation between the three measures of central tendency is
3 Median = Mode + 2 Mean
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