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Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10 PDF Download

1. Following are the lives in hours of 15 pieces of the components of aircraft engine. Find the median: 715, 724, 725, 710, 729, 745, 694, 699, 696, 712, 734, 728, 716, 705, 719

Sol:Lives in hours of is pieces are = 715, 724, 725, 710, 729, 745, 694, 699, 696, 712, 734, 728, 716, 705, 719

Arrange the above data in ascending order = 694, 696, 699, 705, 710, 712, 715, 716, 719, 721, 725, 728, 729, 734, 745

N = 15 (odd)

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10 terms

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10 terms = 8th terms = 716

 

2.The following is the distribution of height of students of a certain class in a certain city:

Height (in cm):160-162                163-165                166-168                169-171                172-174
No of students:15                           118                         142                         127                         18

Find the median height.

Sol:

Class interval (exclusive)Class interval  (inclusive)Class interval frequencyCumulative frequency
160 – 162159.5 – 162.51515
163 – 165162.5 – 165.5118133 (F)
166 – 168165.5 – 168.5142 (f)275
169 – 171168.5 – 171.5127402
172 – 174171.5 – 174.518420
  N = 420 

We have

N = 420

N/2 = 420/ 2 = 120

The cumulative frequency just greater than N/2 is 275 then 165.5 – 168.5 is the median class such, that

L = 165.5, f = 142, F = 133 and h = 168.5 – 165.5 = 3

Mean = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= Missing close brace = 166.5 + 1.63 = 168.13

 

3. Following is the distribution of I.Q of 100 students. Find the median I.Q.

I.Q:55-64     65-74     75-84     85-94     95-104     105-114     115-124    125-134      135-144
No of students:1              2              9              22           33              22                 8                     2              1

Sol:

Class interval (exclusive)Class interval  (inclusive)Class interval frequencyCumulative frequency
55 – 6454.5 – 64-511
65 – 7464.5 – 74.523
75 – 8474.5 – 84.5912
85 – 9484.5 – 94.52234 (f)
95 – 10494.5 – 104.533 (f)67
105 – 114104.5 – 114.52289
115 – 124114.5 – 124.5897
125 – 134124.5 – 134.5299
135 – 144134.5 – 144.51100
  N = 100 

We have N = 100

N/ 2 = 100/ 2 = 50

The cumulative frequency just greater than N/ 2 is 67 then the median class is 94.5-104.5 such that

L=94.5,F = 33 h =104.5 – 94.5=10

Mean = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 94.5+Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10×10 = 94.5 + 4.88 = 99.35

 

4.Calculate the median from the following data:

Rent (in Rs):15-25     25-35     35-45     45-55     55-65     65-75     75-85     85-95
No of houses:8              10           15           25           40           20           15           7

Sol:

Class intervalFrequencyCumulative frequency
15 – 2588
25 – 351018
35 – 451533(f)
45 – 552558
55 – 6540(f)28
65 – 752038
75 – 8515183
85 – 957140
 N = 140 

We have N = 140

N/ 2 = 140/ 2 = 70

The cumulative frequency just greater than N/ 2 is 98 then median class is 55 – 65 such that

L = 55, f = 40, F = 58, h = 65 – 55 = 10

Mean = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 55+ Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10= 55 + 3 = 58

 

5.Calculate the median from the following data:

Marks below:   10           20           30           40           50           60           70           80
No of students:               15           35           60           84           96           127         198         250

Sol:

Marks belowNo of studentsClass intervalFrequencyCumulative frequency
10150 – 101515
203510 – 202035
306020 – 302560
408430 – 402484
509640 – 501296(F)
6012750 – 6031 (f)127
7019860 – 7071198
8025070 – 8052250
   N = 250 

We have N = 250

N/ 2 = 250/ 2 = 125

The cumulative frequency just greater than N/ 2 is 127 then median class is 50 – 60 such that

L = 50, f = 31, F = 96, h = 60 -50 = 10

Mean = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 50+Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10 = 50 + 9.35 = 59.35

 

6.Calculate the missing frequency from the following distribution, it being given that the median of the distribution is 24.

Age in years:0-10       10-20     20-30     30-40     40-50
No of persons:5              25           ?              18           7

Sol:

Class intervalFrequencyCumulative frequency
0 – 1055
10 – 202530 (F)
20 – 30x (f)30 + x
30 – 401848 + x
40 – 50755 + x
 N = 170 

Given

Median = 24

Then, median class = 20 – 30

L = 20,   h = 30 -20 = 10, f = x,      F = 30

Median = l + (N/2 − F)/f × h

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

4x = 275 + 5x – 300

4x – 5x = -25

-x = -25

x = 25

Missing frequency = 25

 

7.The following table gives the frequency distribution of married women by age at marriage.

Age (in years)FrequencyAge (in years)Frequency
15 – 195340 – 449
20 – 2414045 – 495
25 – 299850 – 543
30 – 343255 – 593
35 – 391260 and above2

Calculate the median and interpret the results

Sol:

Class interval (exclusive)Class interval (inclusive)FrequencyCumulative frequency
15 – 1914.5 – 19.55353 (F)
20 – 2419.5 – 24.5140 (f)193
25 – 2924.5 – 29.598291
30 – 3429.5 – 34.532323
35 – 3934.5 – 39.512335
40 – 4439.5 – 44.59344
45 – 4944.5 – 49.55349
50 – 5449.5 – 54.53352
55 – 5454.5 – 59.53355
60 and above59.5 and above2357
  N = 357 

N = 357

N/ 2 = 357/ 2 = 178.5

The cumulative frequency just greater than N/ 2 is 193,

Then the median class is 19.5 – 24.5 such that l = 19.5, f = 140, F = 53, h = 25.5 – 19.5 = 5

Median = l + (N/2 − F)/f × h

Median = 19.5 + Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Median = 23.98

Nearly half the women were married between the ages of 15 and 25

 

8.The following table gives the distribution of the life time of 400 neon lamps:

Life time:Number of lamps
1500 – 200014
2000 – 250056
2500 – 300060
3000 – 350086
3500 – 400074
4000 – 450062
4500 – 500048

Find the median life.

Sol: We can find cumulative frequencies with their respective class intervals as below

Life timeNumber of lamps fiCumulative frequency (cf)
1500 – 20001414
2000 – 25005670
2500 – 300060130
3000 – 350086216
3500 – 400074290
4000 – 450062352
4500 – 500048400
Total (n)400 

Now we may observe that cumulative frequency just greater than n/ 2 (400/ 2 = 200) is 216 belongs to class interval 3000 – 3500

Median class = 3000 – 3500

Lower limits (l) of median class = 3000

Frequency (f) of median class = 86

Cumulative frequency (cf) of class preceding median class = 130

Class size (h) = 500

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 3000+Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 3000 + (35000/ 86)

= 3406.98

So, median life time of lamps is 3406.98 hours

 

9.The distribution below gives the weight of 30 students in a class. Find the median weight of students:

Weight (in kg):40-45     45-50     50-55     55-60     60-65     65-70     70-75
No of students:2              3              8              6              6              3              2

Sol: We may find cumulative frequency with their respective class intervals as below

Weight (in kg)Number of students fiCumulative frequency (cf)
40 – 4522
45 – 5035
50 – 55813
55 – 60619
60 – 65625
65 – 70328
70 – 75230

Cumulative frequency just greater than n/ 2 (i.e. 30/ 2 = 15) is 19, belonging to class interval 55 – 60

Median class = 55 – 60

Lower limit (l) of median class = 55

Frequency (f) of median class = 6

Cumulative frequency (cf) = 13

Class size (h) = 5

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 55+ Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 55 +10/ 6

= 56.666

So, median weight is 56.67 kg

 

10.Find the missing frequencies and the median for the following distribution if the mean is 1.46

No of accidents:                              0              1              2              3              4              5Total
Frequencies (no of days):46           ?              ?              25           10           5200

Sol:

No of accidents (x)No of days (f)fx
0460
1xx
2y2y
32575
41040
5525
 N = 200Sum = x + 2y + 140

Given

N = 200

46 + x + y + 25 + 10 + 5 = 200

x + y = 200 – 46 – 25 – 10 – 5

x + y = 114 —- (1)

And, Mean = 1.46

Sum/ N = 1.46

(x + 2y + 140)/ 200 = 1.46

x + 2y = 292 – 140

x + 2y = 152 —- (2)

Subtract equation (1) from equation (2)

x + 2y – x – y = 152 – 114

y = 38

Putting the value of y in equation (1), we have x = 114 – 38 = 76

No of accidentsNo of daysCumulative frequency
04646
176122
238160
325185
410195
55200
 N = 200 

We have,

N = 200

N/ 2 = 200/ 2 = 100

The cumulative frequency just more than N/ 2 is 122 then the median is 1

 

11.An incomplete distribution is given below:

Variable:10-20     20-30     30-40     40-50     50-60     60-70     70-80
Frequency:12           30           ?              65           ?              25           18

You are given that the median value is 46 and the total number of items is 230.

(i) Using the median formula fill up the missing frequencies.

(ii) Calculate the AM of the completed distribution.

Sol:

(i)

Class intervalFrequencyCumulative frequency
10 – 201212
20 – 303042
30 – 40x42+ x (F)
40 – 5065 (f)107 + x
50 – 60Y107 + x + y
60 – 7025132 + x + y
70 – 8018150 + x + y
 N = 150 

Given

Median = 46

Then, median class = 40 – 50

L = 40, h = 50 – 40 = 10, f = 65, F = 42 + x

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

6 (65/ 10) = 73 –x

39 = 73 – x

x = 73 – 39 = 34

Given

N = 230

12 + 30 + 34 + 65 + y + 25 + 18 = 230

184 + y = 230

Y = 230 – 184

Y = 46

(ii)

Class intervalMid value xFrequency fFx
10 – 201512180
20 – 302530750
30 – 4035341190
40 – 5045652925
50 – 6055462530
60 – 7065251625
70 – 8075181350
  N = 230Σfx=10550

Mean = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 10550/ 230 = 45.87

 

12.If the median of the following frequency distribution is 28.5 find the missing frequencies:

Class interval:0-10       10-20     20-30     30-40     40-50     50-60    Total
Frequency:5              f1             20           15           f2             5             60

Sol:

Class intervalFrequencyCumulative frequency
0 – 1055
10 – 20f15 + f(F)
20 – 3020 (f)25 + f1
30 – 401540 + f1
40 – 50f240 + f1 + f2
 N = 60 

Given

Median = 28.5

Then, median class = 20 – 30

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

17 = 25 – f_{1}

f= 25 – 17 = 8

Given

Sum of frequencies = 60

5 + f+ 20 + 15 + f+ 5 = 60

5 + 8 + 20 + 15 + f2 + 5 = 60

f2 = 7

f= 8 and f= 7

 

13.The median of the following data is 525. Find the missing frequency, if it is given that there are 100 observations in the data.

Class intervalFrequencyClass intervalFrequency
0 – 1002500 – 60020
100 – 2005600 – 700f2
200 – 300f1700 – 8009
300 – 40012800 – 9007
400 – 50017900 – 10004

Sol:

Class intervalFrequencyCumulative frequency
0 – 10022
100 – 20057
200 – 300f17 + f1
300 – 4001219 + f1
400 – 5001736 + f­1 (F)
500 – 60020 (f)56 + f1
600 – 700f256 + f1 + f2
700 – 800965 + f1 + f2
800 – 900772 + f1 + f2
900 – 1000476 + f1 + f2
 N = 100 

Given

Median                = 525

Then, median class = 500 – 600

L = 500, f = 20, F = 36 + f1, h = 600 – 500 = 100

Median =Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

25 = (14 – f1) x 5

5 = 14 – f1

f= 14 – 5 = 9

Given

Sum of frequencies = 100

2 + 5 + f1 + 12 + 17 + 20 + f2 + 9 + 7 + 4 = 100

2 + 5 + 9 + 12 + 17 + 20 + f2 + 9 + 7 + 4 = 100

85 + f= 100

f2 = 100 – 85 = 15

f= 9 and f= 15

 

14.If the median of the following data is 32.5, find the missing frequencies.

Class interval:0-10       10-20     20-30     30-40     40-50     50-60     60-70Total
Frequency:f1             5              9              12           f2                   3              240

Sol:

Class intervalFrequencyCumulative frequency
0 – 10f1f1
10 – 2055 + f1
20 – 30914 + f1
30 – 4012 (f)26 + f1
40 – 50f226 + f+ f2
50 – 60329 + f+ f2
60 – 70231 + f+ f2
 N = 40 

Given

Median = 32.5

The median class = 90 – 40

L = 30, h = 40 – 30 = 10, f = 12, F = 14 + f1

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

2×10

2.5 (12) = (6 – f1) * 10

30 = (6 – f1) * 10

3 = 6 – f1

f1 = 6 – 3 = 3

Given

Sum of frequencies = 40

f1 + 5 + 9 + 12 + f2 + 3 + 2 = 40

3 + 5 + 9 + 12 + f2 + 3 + 2 = 40

34 + f= 40

f2 = 40 – 34 = 6

f1 = 3 and f2 = 6

 

15.Compute the median for each of the following data

(i) (ii) 
MarksNo of studentsMarksNo of students
Less than 100More than 80150
Less than 3010More than 90141
Less than 5025More than 100124
Less than 7043More than 110105
Less than 9065More than 12060
Less than 11087More than 13027
Less than 13096More than 14012
Less than 150100More than 1500

Sol:(i)

MarksNo of studentsClass intervalFrequencyCumulative frequency
Less than 1000 – 1000
Less than 301010 – 301010
Less than 502530 ­– 501525
Less than 704350 – 701843 (F)
Less than 906570 – 9022 (f)65
Less than 1108790 – 1102287
Less than 13096110 – 130996
Less than 150100130 – 1504100
   N = 100 

We have

N = 100

N/ 2 = 100/ 2 = 50

The cumulative frequency just greater than N/ 2 is 65 then median class is 70 – 90 such that

L = 70, h = 90 – 70 = 20, f = 22, F = 43

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 70 + 6.36

= 76.36

(ii)

MarksNo of studentsClass intervalFrequencyCumulative frequency
More than 8015080 – 9099
More than 9014190 – 1001726
More than 100124100 – 1101945 (F)
More than 110105110 – 12045 (f)90
More than 12060120 – 13033123
More than 13027130 – 14015138
More than 14012140 – 15012150
More than 1500150 – 1600150
    = 150 

We have

N = 150

N/ 2 = 150/ 2 = 75

The cumulative frequency just more than N/ 2 is 90 then the median class is 110 – 120 such that

L = 70, h = 120 – 110 = 10, f = 45, F = 45

Median =Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 110 + 6.67

= 116.67

 

16.A survey regarding the height (in cm) of 51 girls of class X of a school was conducted and the following data was obtained:

Height in cmnumber of girls 

Less than 140

Less than 145

Less than 150

Less than 155

Less than 160

Less than 165 

4

11

29

40

46

51

Find the median height.

Sol: To calculate the median height, we need to find the class intervals and their corresponding frequencies.

The given distribution being of the less than type, 140, 145, 150, 155, 160, 165 give the upper limits of the corresponding class intervals. So, the classes should be below 140, 140-145, 145-150, 150-155, 155-160, 160-165. Observe that from the given distribution, we find that there are 4 girls with height less than 140, i.e. the frequency of class interval below 140 is 4. Now, there are 11 girls with heights less than 145 and 4 girls with height less than 140. Therefore, the number of girls with height in the interval 140 – 145 is 11 – 4 = 7. Similarly, the frequency of 145 – 150 is 29 – 11 = 18, for 150 – 155, it is 40 – 29 = 11, and so on. So, our frequency distribution table with given cumulative frequencies becomes:

Class intervalFrequencyCumulative frequency

Below 140

140 – 145

145 – 150

150 – 155

155 – 160

160 – 165

4

7

18

11

6

5

4

11

29

40

46

51

Now n = 51. S0, n/ 2 = 51/ 2 =25.5 this observation lies in the class 145 – 150

Then,

L (the lower limit) = 145

cf (the cumulative frequency of the class preceding 145 – 150) = 11

f (the frequency of the median class 145 – 150) = 18

h (the class size) = 5

Using the formula, median = l+ Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10×h, we have

Median = Missing close brace

= 145 + 72.5/ 18 = 149.03

So, the median height of the girls is 149.03 cm

This means that the height of about 50% of the girls in less than this height, and 50% are taller than this height.

 

17.A life insurance agent found the following data for distribution of ages of 100 policy holders. Calculate the median age, if policies are only given to persons having age 18 years onwards but less than 60 years.

Ages in yearsNumber of policy holders

Below 20

Below 25

Below 30

Below 35

Below 40

Below 45

Below 50

Below 55

Below 60 

2

6

24

45

78

89

92

98

100

Sol: Here class width is not same. There is no need to adjust the frequencies according to class interval. Now given frequencies table is less type represented with upper class limits. As policies were given only to persons having age 18 years onwards but less than 60 years we can define class intervals with their respective cumulative frequency as below.

Age (in years)Number of policy holders fiCumulative frequency (cf)
18 – 2022
20 – 256 – 2 = 46
25 – 3024 – 6 = 1824
30 – 3545 – 24 = 2145
35 – 4078 – 45 = 3378
40 – 4589 – 78 = 1189
45 – 5092 – 89 = 392
50 – 5598 – 92 = 698
55 – 60100 – 98 = 2100
Total  

Now from table we may observe that n = 100

Cumulative frequency (cf) just greater than n/ 2 (i.e. 100/ 2 = 50) is 78 belonging to interval 35 – 40

So median class                = 35 – 40

Lower limit (l) of median class = 35

Class size (h) = 5

Frequency (f) of median class = 33

Cumulative frequency (cf) of class preceding median class = 45

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 35+25/33

= 35.76

So median age is 35.76 years

 

18.The lengths of 40 leaves of a plant are measured correct to the nearest millimeter, and the data obtained is represented in the following table:

Length (in mm)No of leaves
118 – 1263
127 – 1355
136 – 1449
145 – 15312
154 – 1625
163 – 1714
172 – 1802

 Find the mean length of life

Sol: The given data is not having continuous class intervals. We can observe the difference between two class intervals is 1. So we have to add and subtract

1/ 2 = 0.5 to upper class limits and lower class limits

Now continuous class intervals with respective cumulative frequencies can be represented as below:

Length (in mm)Number of leaves fiCumulative frequency (cf)
117.5 – 126.533
126.5 – 135.558
135.5 – 144.5917
144.5 – 153.51229
153.5 – 162.5534
162.5 – 171.5438
171.5 – 180.5240

From the table we may observe that cumulative frequency just greater then n/ 2 (i.e. 40/ 2 =20) is 29, belongs to class interval 144.5 – 153.5

Median class = 144.5 – 153.5

Lower limit (l) = 144.5

Class size (h) = 9

Frequency (f) of median class = 12

Cumulative frequency (cf) of class preceding median class = 17

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

= 144.5 + 9/ 4 = 146.75

So median length of leaves is 146.75mm

 

19.An incomplete distribution is given as follows:

Variable:            0-10       10-20     20-30     30-40     40-50     50-60     60-70
Frequency:        10           20           ?              40           ?              25           15

You are given that the median value is 35 and sum is all the frequencies are 170. Using the median formula, fill up the missing frequencies

Sol:

Class intervalFrequencyCumulative frequency
0 – 101010
10 – 202030
20 – 30f130 + f(F)
30 – 4040 (F)70 + f1
40 – 50f270 + f+ f2
50 – 602595 + f+ f2
60 – 7015110 + f+ f2
 N = 170 

Given

Median = 35

Then median class = 30 – 40

L = 30, h = 40 – 30 = 10, f = 40, F = 30 + f1

Median = Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10

20 = 55 – f1

f= 55 – 20 = 35

Given

Sum of frequencies = 170

10 + 20 + f+ 40 + f+ 25 + 15 = 170

10 + 20 + 35 + 40 + f+ 25 + 15 = 170

f2 = 25

f1 = 35 and f=25

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FAQs on Ex-7.4 Statistics, Class 10, Maths RD Sharma Solutions - Extra Documents, Videos & Tests for Class 10

1. What are the different measures of central tendency in statistics?
Ans. In statistics, there are three main measures of central tendency: mean, median, and mode. The mean is the sum of all the values divided by the total 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 occurs most frequently in the data set.
2. How is the mean calculated?
Ans. The mean is calculated by summing up all the values in a data set and dividing it by the total number of values. For example, if we have the data set {2, 4, 6, 8, 10}, the mean would be (2 + 4 + 6 + 8 + 10) / 5 = 6.
3. What is the median?
Ans. The median is the middle value in a data set when the values are arranged in ascending or descending order. If the data set has an odd number of values, the median is the middle value. 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 in statistics?
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. In cases where multiple values appear with the same highest frequency, the data set is said to have multiple modes.
5. What is the importance of measures of central tendency in statistics?
Ans. Measures of central tendency help in summarizing and analyzing data sets. They provide a single value that represents the entire data set, making it easier to understand and interpret the data. These measures are used in various fields like economics, psychology, and research to make informed decisions and draw meaningful conclusions from the data.
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