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RS Aggarwal Solutions: Decimals | Mathematics (Maths) Class 6 PDF Download

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 Page 1


Points to Remember :
1. Decimal Fractions. A fraction whose
denominator is 10 or 100 or 1000 etc. is
known as decimal fraction : e.g.
9
10
11
100
33
1000
, ,
 etc.
2. Decimals. The numbers expressed in
decimal form are called decimal numbers
on simply decimals. e.g. 0·3, 2·8, 21·78,
123·432 etc.
A decimal has two parts :
(i) whole number (ii) decimal part.
In the above examples,
0, 2, 21, 123 .... are whole numbers and
·3, ·8, ·78, ·432 ... are decimal parts.
The whole number and decimal parts are
separated by a point (·) which is called
decimal point.
3. Decimal places. The number of digits
contained in the decimal part of a decimal,
are the decimal places.
4. Like and unlike decimals :
(i) Like decimals. Decimals having the
same number of decimal places are called
like decimals.
(ii) Unlike decimals. Decimals having
different places of decimals are called
unlike decimals.
Note. (i) Putting any numebr of zeros to
the extreme right of a decimal part of a
decimal number, does not change its value.
e.g. 2·34, 2·340, 2·3400, 2·34000 ... are
all of the same value.
(ii) We put zeros to the extreme right of
a decimal part in order to make like
decimals.
5. Comparison of decimals :
Suppose we have to compare two
decimals. Then, we proceed according
to the following steps.
Step 1. Convert the given decimals into like
decimals.
Step 2. First compare the whole-number part.
The decimal with the greater whole-
number part is greater.
Step 3. If the whole-number parts are equal,
compare the tenths digits.
The decimal with the bigger digit in the
tenths place is greater.
Step 4. If the tenths digits are also equal, compare
the hundredths digit, and so on.
6. Converting of a decimal into a
fractions :
Method : Step 1. Write the given decimal without
the decimal point as the numerator of the
fraction.
Step 2. In the denominator, write 1 followed by
as many zeros as there are decimal places
in the given decimal.
Step 3. Convert the above fraction to the simplest
form.
7. Converting of a fraction into a
decimal.
General Method of Converting a
Fraction into a Decimal
Step 1. Divide the numerator by the denominator
till a nonzero remainder is obtained.
Step 2. Put a decimal point in the dividend as
well as in the quotient.
Step 3. Put a zero on the right of the decimal
point in the dividend as well as on the
right of the remainder.
Step 4. Divide again just as we do in whole
numbers.
Page 2


Points to Remember :
1. Decimal Fractions. A fraction whose
denominator is 10 or 100 or 1000 etc. is
known as decimal fraction : e.g.
9
10
11
100
33
1000
, ,
 etc.
2. Decimals. The numbers expressed in
decimal form are called decimal numbers
on simply decimals. e.g. 0·3, 2·8, 21·78,
123·432 etc.
A decimal has two parts :
(i) whole number (ii) decimal part.
In the above examples,
0, 2, 21, 123 .... are whole numbers and
·3, ·8, ·78, ·432 ... are decimal parts.
The whole number and decimal parts are
separated by a point (·) which is called
decimal point.
3. Decimal places. The number of digits
contained in the decimal part of a decimal,
are the decimal places.
4. Like and unlike decimals :
(i) Like decimals. Decimals having the
same number of decimal places are called
like decimals.
(ii) Unlike decimals. Decimals having
different places of decimals are called
unlike decimals.
Note. (i) Putting any numebr of zeros to
the extreme right of a decimal part of a
decimal number, does not change its value.
e.g. 2·34, 2·340, 2·3400, 2·34000 ... are
all of the same value.
(ii) We put zeros to the extreme right of
a decimal part in order to make like
decimals.
5. Comparison of decimals :
Suppose we have to compare two
decimals. Then, we proceed according
to the following steps.
Step 1. Convert the given decimals into like
decimals.
Step 2. First compare the whole-number part.
The decimal with the greater whole-
number part is greater.
Step 3. If the whole-number parts are equal,
compare the tenths digits.
The decimal with the bigger digit in the
tenths place is greater.
Step 4. If the tenths digits are also equal, compare
the hundredths digit, and so on.
6. Converting of a decimal into a
fractions :
Method : Step 1. Write the given decimal without
the decimal point as the numerator of the
fraction.
Step 2. In the denominator, write 1 followed by
as many zeros as there are decimal places
in the given decimal.
Step 3. Convert the above fraction to the simplest
form.
7. Converting of a fraction into a
decimal.
General Method of Converting a
Fraction into a Decimal
Step 1. Divide the numerator by the denominator
till a nonzero remainder is obtained.
Step 2. Put a decimal point in the dividend as
well as in the quotient.
Step 3. Put a zero on the right of the decimal
point in the dividend as well as on the
right of the remainder.
Step 4. Divide again just as we do in whole
numbers.
Step 5. Repeat step 4 till the remainder is zero.
8. Addition of Decimals
Method :
Step 1. Convert the given decimals into like
decimals.
Step 2. Write the addends one under the other in
column form, keeping the decimal points
of all the addends in the same column
and the digits of the same place in the
same column.
Step 3. Add as in the case of whole numbers.
Step 4. In the sum, put the decimal point directly
under decimal points in the addonds.
9. Subtraction of Decimals
Method : Step 1. Convert the given
decimals into like decimals.
Step 2. Write the smaller number under the larger
one in column form in such a way that
the decimal points of both the numbers
are in the same column and the digits of
the same place lie in the same column.
Step 3. Subtract as we do in case of whole
numbers.
Step 4. In the difference, put the decimal point
directly under the decimal points of the
given numbers.
10. 1000 g = 1 kg, 100 cm = 1 metre
100 paise = 1 rupee
          Q. 1. Write each of the following in figures :
(i) Fifty-eight point six three
(ii) One hundred twenty-four point four two
five
(iii) Seven point seven six
(iv) Nineteen point eight
(v) Four hundred four point zero four four
(vi) Point one seven three
(vii) Point zero one five
Sol. (i) Fifty-eight point six three = 58·63
(ii) One hundred twenty-four point four two
five = 124·425
(iii) Seven point seven six = 7·76
(iv) Nineteen point eight = 19·8
(v) Four hundred four point zero four four
= 404·044
(vi) Point one seven three = ·173
(vii) Point zero one five = ·015 Ans.
Q. 2. Write the place value of each digit in each
of the following decimals :
(i) 14·83 (ii) 275·269 (iii) 46·075
(iv) 302·459 (v) 5370·34 (vi) 186·209
Sol. (i) 14·83
Place value of 1 = 10,
Place value of 4 = 4,
Place value of 8 = 
8
10
,
Place value of 3 = 
3
100
(ii) 275·269
Place value of 2 = 200,
Place value of 7 = 70,
Place value of 5 = 5,
Place value of 2 = 
2
10
,
Place value of 6 = 
6
100
,
Place value of 
9
9
1000
(iii) 46·075
Place value of 4 = 40,
Place value of 6 = 6,
Place value of 0 = 0,
Place value of 7 = 
7
100
,
Place value of 5 = 
5
1000
(iv) 302·459
Place value of 3 = 300,
Place value of 0 = 0,
Place value of 2 = 2,
Place value of 4
4
10
Place value of 5
5
100
Place value of 9 
9
1000
Page 3


Points to Remember :
1. Decimal Fractions. A fraction whose
denominator is 10 or 100 or 1000 etc. is
known as decimal fraction : e.g.
9
10
11
100
33
1000
, ,
 etc.
2. Decimals. The numbers expressed in
decimal form are called decimal numbers
on simply decimals. e.g. 0·3, 2·8, 21·78,
123·432 etc.
A decimal has two parts :
(i) whole number (ii) decimal part.
In the above examples,
0, 2, 21, 123 .... are whole numbers and
·3, ·8, ·78, ·432 ... are decimal parts.
The whole number and decimal parts are
separated by a point (·) which is called
decimal point.
3. Decimal places. The number of digits
contained in the decimal part of a decimal,
are the decimal places.
4. Like and unlike decimals :
(i) Like decimals. Decimals having the
same number of decimal places are called
like decimals.
(ii) Unlike decimals. Decimals having
different places of decimals are called
unlike decimals.
Note. (i) Putting any numebr of zeros to
the extreme right of a decimal part of a
decimal number, does not change its value.
e.g. 2·34, 2·340, 2·3400, 2·34000 ... are
all of the same value.
(ii) We put zeros to the extreme right of
a decimal part in order to make like
decimals.
5. Comparison of decimals :
Suppose we have to compare two
decimals. Then, we proceed according
to the following steps.
Step 1. Convert the given decimals into like
decimals.
Step 2. First compare the whole-number part.
The decimal with the greater whole-
number part is greater.
Step 3. If the whole-number parts are equal,
compare the tenths digits.
The decimal with the bigger digit in the
tenths place is greater.
Step 4. If the tenths digits are also equal, compare
the hundredths digit, and so on.
6. Converting of a decimal into a
fractions :
Method : Step 1. Write the given decimal without
the decimal point as the numerator of the
fraction.
Step 2. In the denominator, write 1 followed by
as many zeros as there are decimal places
in the given decimal.
Step 3. Convert the above fraction to the simplest
form.
7. Converting of a fraction into a
decimal.
General Method of Converting a
Fraction into a Decimal
Step 1. Divide the numerator by the denominator
till a nonzero remainder is obtained.
Step 2. Put a decimal point in the dividend as
well as in the quotient.
Step 3. Put a zero on the right of the decimal
point in the dividend as well as on the
right of the remainder.
Step 4. Divide again just as we do in whole
numbers.
Step 5. Repeat step 4 till the remainder is zero.
8. Addition of Decimals
Method :
Step 1. Convert the given decimals into like
decimals.
Step 2. Write the addends one under the other in
column form, keeping the decimal points
of all the addends in the same column
and the digits of the same place in the
same column.
Step 3. Add as in the case of whole numbers.
Step 4. In the sum, put the decimal point directly
under decimal points in the addonds.
9. Subtraction of Decimals
Method : Step 1. Convert the given
decimals into like decimals.
Step 2. Write the smaller number under the larger
one in column form in such a way that
the decimal points of both the numbers
are in the same column and the digits of
the same place lie in the same column.
Step 3. Subtract as we do in case of whole
numbers.
Step 4. In the difference, put the decimal point
directly under the decimal points of the
given numbers.
10. 1000 g = 1 kg, 100 cm = 1 metre
100 paise = 1 rupee
          Q. 1. Write each of the following in figures :
(i) Fifty-eight point six three
(ii) One hundred twenty-four point four two
five
(iii) Seven point seven six
(iv) Nineteen point eight
(v) Four hundred four point zero four four
(vi) Point one seven three
(vii) Point zero one five
Sol. (i) Fifty-eight point six three = 58·63
(ii) One hundred twenty-four point four two
five = 124·425
(iii) Seven point seven six = 7·76
(iv) Nineteen point eight = 19·8
(v) Four hundred four point zero four four
= 404·044
(vi) Point one seven three = ·173
(vii) Point zero one five = ·015 Ans.
Q. 2. Write the place value of each digit in each
of the following decimals :
(i) 14·83 (ii) 275·269 (iii) 46·075
(iv) 302·459 (v) 5370·34 (vi) 186·209
Sol. (i) 14·83
Place value of 1 = 10,
Place value of 4 = 4,
Place value of 8 = 
8
10
,
Place value of 3 = 
3
100
(ii) 275·269
Place value of 2 = 200,
Place value of 7 = 70,
Place value of 5 = 5,
Place value of 2 = 
2
10
,
Place value of 6 = 
6
100
,
Place value of 
9
9
1000
(iii) 46·075
Place value of 4 = 40,
Place value of 6 = 6,
Place value of 0 = 0,
Place value of 7 = 
7
100
,
Place value of 5 = 
5
1000
(iv) 302·459
Place value of 3 = 300,
Place value of 0 = 0,
Place value of 2 = 2,
Place value of 4
4
10
Place value of 5
5
100
Place value of 9 
9
1000
(v) 5370·34
Place value of 5 = 5000,
Place value of 3 = 300,
Place value of 7 = 70,
Place value of 0 = 0,
Place value of 
3
3
10
,
Place value of 
4
4
100
(vi) 186·209
Place value of 1 = 100,
Place value of 8 = 80,
Place value of 6 = 6,
Place value of 2 = 
2
10
,
Place value of 0 = 0,
Place value of 9 = 
9
1000
Q. 3. Write each of the following decimals in
the expanded form :
(i) 67·83 (ii) 283·61
(iii) 24·675 (iv) 0·294
(v) 8·006 (vi) 4615·72
Sol. (i) 67·83 = (6 × 10) + (7 × 1)
+ 
8
1
10
3
1
100
F
H
G
I
K
J
F
H
G
I
K
J
(ii) 283·61 = (2 × 100) + (8 × 10) + (3 × 1)
+ 
6
1
10
1
1
100
F
H
G
I
K
J
F
H
G
I
K
J
(iii) 24·675 = (2 × 10) + (4 × 1)
+ 
6
1
10
7
1
100
5
1
1000
F
H
G
I
K
J
F
H
G
I
K
J
F
H
G
I
K
J
(iv) 0·294 =
2
1
10
9
1
100
4
1
1000
F
H
G
I
K
J
F
H
G
I
K
J
F
H
G
I
K
J
(v) 8·006 = (8 × 1) + 
6
1
1000
F
H
G
I
K
J
(vi) 4615·72 = (4 × 1000) + (6 × 100)
+ (1 × 10) + (5 × 1)
+ 7
1
10
2
1
100
F
H
G
I
K
J
F
H
G
I
K
J Ans.
Q. 4. Write each of the following in the decimal
form :
(i)
40 6
7
10
9
100
(ii)
500 70 8
3
10
1
100
6
1000
(iii)
700 30 1
8
10
4
100
(iv)
600 5
7
100
9
1000
(v)
800 5
8
10
6
1000
(vi)
30 9
4
100
8
1000
Sol. (i) 
40 6
7
10
9
100
 = 46·79
(ii)
500 70 8
3
10
1
100
6
1000
= 578·316
(iii)
700 30 1
8
10
4
100
 = 731·84
(iv)
600 5
7
100
9
1000
 = 605·079
(v)
800 5
8
10
6
1000
 = 805·806
(vi)
30 9
4
100
8
1000
 = 39·048 Ans.
Q. 5. Convert each of the following into like
decimals :
(i) 7·5, 64·23, 0·074
(ii) 0·6, 5·937, 2·36, 4·2
(iii) 1·6, 0·07, 3·58, 2·9
(iv) 2·5, 0·63, 14·08, 1·637
Sol. (i) 7·5, 64·23, 0·074 = 7·500, 64·230,
0·074
(Here, at the most 0·074 has 3 places)
(ii) 0·6, 5·937, 2·36, 4·2 = 0·600, 5·937,
2·360, 4·200
(Here, 5·937 has at most 3 places)
(iii) 1·6, 0·07, 3·58, 2·9 = 1·60, 0·07, 3·58,
2·90
Page 4


Points to Remember :
1. Decimal Fractions. A fraction whose
denominator is 10 or 100 or 1000 etc. is
known as decimal fraction : e.g.
9
10
11
100
33
1000
, ,
 etc.
2. Decimals. The numbers expressed in
decimal form are called decimal numbers
on simply decimals. e.g. 0·3, 2·8, 21·78,
123·432 etc.
A decimal has two parts :
(i) whole number (ii) decimal part.
In the above examples,
0, 2, 21, 123 .... are whole numbers and
·3, ·8, ·78, ·432 ... are decimal parts.
The whole number and decimal parts are
separated by a point (·) which is called
decimal point.
3. Decimal places. The number of digits
contained in the decimal part of a decimal,
are the decimal places.
4. Like and unlike decimals :
(i) Like decimals. Decimals having the
same number of decimal places are called
like decimals.
(ii) Unlike decimals. Decimals having
different places of decimals are called
unlike decimals.
Note. (i) Putting any numebr of zeros to
the extreme right of a decimal part of a
decimal number, does not change its value.
e.g. 2·34, 2·340, 2·3400, 2·34000 ... are
all of the same value.
(ii) We put zeros to the extreme right of
a decimal part in order to make like
decimals.
5. Comparison of decimals :
Suppose we have to compare two
decimals. Then, we proceed according
to the following steps.
Step 1. Convert the given decimals into like
decimals.
Step 2. First compare the whole-number part.
The decimal with the greater whole-
number part is greater.
Step 3. If the whole-number parts are equal,
compare the tenths digits.
The decimal with the bigger digit in the
tenths place is greater.
Step 4. If the tenths digits are also equal, compare
the hundredths digit, and so on.
6. Converting of a decimal into a
fractions :
Method : Step 1. Write the given decimal without
the decimal point as the numerator of the
fraction.
Step 2. In the denominator, write 1 followed by
as many zeros as there are decimal places
in the given decimal.
Step 3. Convert the above fraction to the simplest
form.
7. Converting of a fraction into a
decimal.
General Method of Converting a
Fraction into a Decimal
Step 1. Divide the numerator by the denominator
till a nonzero remainder is obtained.
Step 2. Put a decimal point in the dividend as
well as in the quotient.
Step 3. Put a zero on the right of the decimal
point in the dividend as well as on the
right of the remainder.
Step 4. Divide again just as we do in whole
numbers.
Step 5. Repeat step 4 till the remainder is zero.
8. Addition of Decimals
Method :
Step 1. Convert the given decimals into like
decimals.
Step 2. Write the addends one under the other in
column form, keeping the decimal points
of all the addends in the same column
and the digits of the same place in the
same column.
Step 3. Add as in the case of whole numbers.
Step 4. In the sum, put the decimal point directly
under decimal points in the addonds.
9. Subtraction of Decimals
Method : Step 1. Convert the given
decimals into like decimals.
Step 2. Write the smaller number under the larger
one in column form in such a way that
the decimal points of both the numbers
are in the same column and the digits of
the same place lie in the same column.
Step 3. Subtract as we do in case of whole
numbers.
Step 4. In the difference, put the decimal point
directly under the decimal points of the
given numbers.
10. 1000 g = 1 kg, 100 cm = 1 metre
100 paise = 1 rupee
          Q. 1. Write each of the following in figures :
(i) Fifty-eight point six three
(ii) One hundred twenty-four point four two
five
(iii) Seven point seven six
(iv) Nineteen point eight
(v) Four hundred four point zero four four
(vi) Point one seven three
(vii) Point zero one five
Sol. (i) Fifty-eight point six three = 58·63
(ii) One hundred twenty-four point four two
five = 124·425
(iii) Seven point seven six = 7·76
(iv) Nineteen point eight = 19·8
(v) Four hundred four point zero four four
= 404·044
(vi) Point one seven three = ·173
(vii) Point zero one five = ·015 Ans.
Q. 2. Write the place value of each digit in each
of the following decimals :
(i) 14·83 (ii) 275·269 (iii) 46·075
(iv) 302·459 (v) 5370·34 (vi) 186·209
Sol. (i) 14·83
Place value of 1 = 10,
Place value of 4 = 4,
Place value of 8 = 
8
10
,
Place value of 3 = 
3
100
(ii) 275·269
Place value of 2 = 200,
Place value of 7 = 70,
Place value of 5 = 5,
Place value of 2 = 
2
10
,
Place value of 6 = 
6
100
,
Place value of 
9
9
1000
(iii) 46·075
Place value of 4 = 40,
Place value of 6 = 6,
Place value of 0 = 0,
Place value of 7 = 
7
100
,
Place value of 5 = 
5
1000
(iv) 302·459
Place value of 3 = 300,
Place value of 0 = 0,
Place value of 2 = 2,
Place value of 4
4
10
Place value of 5
5
100
Place value of 9 
9
1000
(v) 5370·34
Place value of 5 = 5000,
Place value of 3 = 300,
Place value of 7 = 70,
Place value of 0 = 0,
Place value of 
3
3
10
,
Place value of 
4
4
100
(vi) 186·209
Place value of 1 = 100,
Place value of 8 = 80,
Place value of 6 = 6,
Place value of 2 = 
2
10
,
Place value of 0 = 0,
Place value of 9 = 
9
1000
Q. 3. Write each of the following decimals in
the expanded form :
(i) 67·83 (ii) 283·61
(iii) 24·675 (iv) 0·294
(v) 8·006 (vi) 4615·72
Sol. (i) 67·83 = (6 × 10) + (7 × 1)
+ 
8
1
10
3
1
100
F
H
G
I
K
J
F
H
G
I
K
J
(ii) 283·61 = (2 × 100) + (8 × 10) + (3 × 1)
+ 
6
1
10
1
1
100
F
H
G
I
K
J
F
H
G
I
K
J
(iii) 24·675 = (2 × 10) + (4 × 1)
+ 
6
1
10
7
1
100
5
1
1000
F
H
G
I
K
J
F
H
G
I
K
J
F
H
G
I
K
J
(iv) 0·294 =
2
1
10
9
1
100
4
1
1000
F
H
G
I
K
J
F
H
G
I
K
J
F
H
G
I
K
J
(v) 8·006 = (8 × 1) + 
6
1
1000
F
H
G
I
K
J
(vi) 4615·72 = (4 × 1000) + (6 × 100)
+ (1 × 10) + (5 × 1)
+ 7
1
10
2
1
100
F
H
G
I
K
J
F
H
G
I
K
J Ans.
Q. 4. Write each of the following in the decimal
form :
(i)
40 6
7
10
9
100
(ii)
500 70 8
3
10
1
100
6
1000
(iii)
700 30 1
8
10
4
100
(iv)
600 5
7
100
9
1000
(v)
800 5
8
10
6
1000
(vi)
30 9
4
100
8
1000
Sol. (i) 
40 6
7
10
9
100
 = 46·79
(ii)
500 70 8
3
10
1
100
6
1000
= 578·316
(iii)
700 30 1
8
10
4
100
 = 731·84
(iv)
600 5
7
100
9
1000
 = 605·079
(v)
800 5
8
10
6
1000
 = 805·806
(vi)
30 9
4
100
8
1000
 = 39·048 Ans.
Q. 5. Convert each of the following into like
decimals :
(i) 7·5, 64·23, 0·074
(ii) 0·6, 5·937, 2·36, 4·2
(iii) 1·6, 0·07, 3·58, 2·9
(iv) 2·5, 0·63, 14·08, 1·637
Sol. (i) 7·5, 64·23, 0·074 = 7·500, 64·230,
0·074
(Here, at the most 0·074 has 3 places)
(ii) 0·6, 5·937, 2·36, 4·2 = 0·600, 5·937,
2·360, 4·200
(Here, 5·937 has at most 3 places)
(iii) 1·6, 0·07, 3·58, 2·9 = 1·60, 0·07, 3·58,
2·90
(Here, at the most are two places)
(iv) 2·5, 0·63, 14·08, 1·637 = 2·500, 0·630,
14·080, 1·637 Ans.
(Here, at the most are three places)
Q. 6. Fill in each of the place holders with the
correct symbol > or < :
(i) 84·23  76·35
(ii) 7·608  7·68
(iii) 8·34  8·43
(iv) 12·06  12·006
(v) 3·85  3·805
(vi) 0·97  1·07
Sol. Making like decimals where ever it is
necessary,
(i) 84·23  76·35  84·23 > 76·35
(ii) 7·608  7·68   7·608  7·680
 7·608 < 7·680
(iii) 8·34  8·43  8·34 < 8·43
(iv) 12·06  12·006
 12·060  12·006
 12·06 > 12·006
(v) 3·85  3·805  3·850  3·805
 3·850 > 3·805
(vi) 0·97  1·07  0·97 < 1·07 Ans.
Q. 7. Arrange the following decimals in an
ascending order :
(i) 5·8, 7·2, 5·69, 7·14, 5·06
(ii) 0·6, 6·6, 6·06, 66·6, 0·06
(iii) 6·54, 6·45, 6·4, 6·5, 6·05
(iv) 3·3, 3·303, 3·033, 0·33, 3·003
Sol. First of all making them in like decimals,
(i) 5·8, 7·2, 5·69, 7·14, 5·06
 5·80, 7·20, 5·69, 7·14, 5·06
Arranging in ascending order,
5·06 < 5·69 < 5·80 < 7·14 < 7·20
 5·06 < 5·69 < 5·8 < 7·14 < 7·2 Ans.
(ii) 0·6, 6·6, 6·06, 66·6, 0·06
 0·60, 6·60, 6·06, 66·60, 0·06
Arranging in ascending order,
0·06 < 0·60 < 6·06 < 6·60 < 66·60
 0·06 < 0·6 < 6·06 < 6·6 < 66·6 Ans.
(iii) 6·54, 6·45, 6·4, 6·5, 6·05
 6·54, 6·45, 6·4, 6·5, 6·05
Arranging in ascending order,
6·05 < 6·40 < 6·45 < 6·50 < 6·54
 6·05 < 6·4 < 6·45 < 6·5 < 6·54 Ans.
(iv) 3·3, 3·303, 3·033, 0·33, 3·003
 3·300, 3·303, 3·033, 0·330, 3·003
Arranging in descending order,
0·330 < 3·003 < 3·033 < 3·300 < 3·303
 0·33 < 3·003 < 3·033 < 3·3 < 3·303
Ans.
Q. 8. Arrange the following decimals in a
descending order :
(i) 7·3, 8·73, 73·03, 7·33, 8·073
(ii) 3·3, 3·03, 30·3, 30·03, 3·003
(iii) 2·7, 7·2, 2·27, 2·72, 2·02, 2·007
(iv) 8·88, 8·088, 88·8, 88·08, 8·008
Sol. Making them in like decimals and them
comparing
(i) 7·3, 8·73, 73·03, 7·33, 8·073
 7·300, 8·730, 73·030, 7·330, 8·073
Arranging in decending order
73·030 > 8·730 > 8·073 > 7·330 > 7·300
 73·03 > 8·73 > 8·073 > 7·33 > 7·3
Ans.
(ii) 3·3, 3·03, 30·3, 30·03, 3·003
 3·300, 3·030, 30·300, 30·030, 3·003
Arranging in descending order
30·300 > 30·030 > 3·300 > 3·030 > 3·003
 30·3 > 30·03 > 3·3 > 3·03 > 3·003 Ans.
(iii) 2·7, 7·2, 2·27, 2·72, 2·02, 2·007
 2·700, 7·200, 2·270, 2·720, 2·020,
2·007
Arranging in descending order
7·200 > 2·720 > 2·700 > 2·270 > 2·020>
2·007
 7·2 > 2·72 > 2·7 > 2·27 > 2·02 > 2·007
Ans.
(iv) 8·88, 8·088, 88·8, 88·08, 8·008
 8·880, 8·088, 88·800, 88·080, 8·008
Arranging in decending order,
88·800 > 88·080 > 8·880 > 8·088 > 8·008
 88·8 > 88·08 > 8·88 > 8·088 > 8·008
Ans.
Page 5


Points to Remember :
1. Decimal Fractions. A fraction whose
denominator is 10 or 100 or 1000 etc. is
known as decimal fraction : e.g.
9
10
11
100
33
1000
, ,
 etc.
2. Decimals. The numbers expressed in
decimal form are called decimal numbers
on simply decimals. e.g. 0·3, 2·8, 21·78,
123·432 etc.
A decimal has two parts :
(i) whole number (ii) decimal part.
In the above examples,
0, 2, 21, 123 .... are whole numbers and
·3, ·8, ·78, ·432 ... are decimal parts.
The whole number and decimal parts are
separated by a point (·) which is called
decimal point.
3. Decimal places. The number of digits
contained in the decimal part of a decimal,
are the decimal places.
4. Like and unlike decimals :
(i) Like decimals. Decimals having the
same number of decimal places are called
like decimals.
(ii) Unlike decimals. Decimals having
different places of decimals are called
unlike decimals.
Note. (i) Putting any numebr of zeros to
the extreme right of a decimal part of a
decimal number, does not change its value.
e.g. 2·34, 2·340, 2·3400, 2·34000 ... are
all of the same value.
(ii) We put zeros to the extreme right of
a decimal part in order to make like
decimals.
5. Comparison of decimals :
Suppose we have to compare two
decimals. Then, we proceed according
to the following steps.
Step 1. Convert the given decimals into like
decimals.
Step 2. First compare the whole-number part.
The decimal with the greater whole-
number part is greater.
Step 3. If the whole-number parts are equal,
compare the tenths digits.
The decimal with the bigger digit in the
tenths place is greater.
Step 4. If the tenths digits are also equal, compare
the hundredths digit, and so on.
6. Converting of a decimal into a
fractions :
Method : Step 1. Write the given decimal without
the decimal point as the numerator of the
fraction.
Step 2. In the denominator, write 1 followed by
as many zeros as there are decimal places
in the given decimal.
Step 3. Convert the above fraction to the simplest
form.
7. Converting of a fraction into a
decimal.
General Method of Converting a
Fraction into a Decimal
Step 1. Divide the numerator by the denominator
till a nonzero remainder is obtained.
Step 2. Put a decimal point in the dividend as
well as in the quotient.
Step 3. Put a zero on the right of the decimal
point in the dividend as well as on the
right of the remainder.
Step 4. Divide again just as we do in whole
numbers.
Step 5. Repeat step 4 till the remainder is zero.
8. Addition of Decimals
Method :
Step 1. Convert the given decimals into like
decimals.
Step 2. Write the addends one under the other in
column form, keeping the decimal points
of all the addends in the same column
and the digits of the same place in the
same column.
Step 3. Add as in the case of whole numbers.
Step 4. In the sum, put the decimal point directly
under decimal points in the addonds.
9. Subtraction of Decimals
Method : Step 1. Convert the given
decimals into like decimals.
Step 2. Write the smaller number under the larger
one in column form in such a way that
the decimal points of both the numbers
are in the same column and the digits of
the same place lie in the same column.
Step 3. Subtract as we do in case of whole
numbers.
Step 4. In the difference, put the decimal point
directly under the decimal points of the
given numbers.
10. 1000 g = 1 kg, 100 cm = 1 metre
100 paise = 1 rupee
          Q. 1. Write each of the following in figures :
(i) Fifty-eight point six three
(ii) One hundred twenty-four point four two
five
(iii) Seven point seven six
(iv) Nineteen point eight
(v) Four hundred four point zero four four
(vi) Point one seven three
(vii) Point zero one five
Sol. (i) Fifty-eight point six three = 58·63
(ii) One hundred twenty-four point four two
five = 124·425
(iii) Seven point seven six = 7·76
(iv) Nineteen point eight = 19·8
(v) Four hundred four point zero four four
= 404·044
(vi) Point one seven three = ·173
(vii) Point zero one five = ·015 Ans.
Q. 2. Write the place value of each digit in each
of the following decimals :
(i) 14·83 (ii) 275·269 (iii) 46·075
(iv) 302·459 (v) 5370·34 (vi) 186·209
Sol. (i) 14·83
Place value of 1 = 10,
Place value of 4 = 4,
Place value of 8 = 
8
10
,
Place value of 3 = 
3
100
(ii) 275·269
Place value of 2 = 200,
Place value of 7 = 70,
Place value of 5 = 5,
Place value of 2 = 
2
10
,
Place value of 6 = 
6
100
,
Place value of 
9
9
1000
(iii) 46·075
Place value of 4 = 40,
Place value of 6 = 6,
Place value of 0 = 0,
Place value of 7 = 
7
100
,
Place value of 5 = 
5
1000
(iv) 302·459
Place value of 3 = 300,
Place value of 0 = 0,
Place value of 2 = 2,
Place value of 4
4
10
Place value of 5
5
100
Place value of 9 
9
1000
(v) 5370·34
Place value of 5 = 5000,
Place value of 3 = 300,
Place value of 7 = 70,
Place value of 0 = 0,
Place value of 
3
3
10
,
Place value of 
4
4
100
(vi) 186·209
Place value of 1 = 100,
Place value of 8 = 80,
Place value of 6 = 6,
Place value of 2 = 
2
10
,
Place value of 0 = 0,
Place value of 9 = 
9
1000
Q. 3. Write each of the following decimals in
the expanded form :
(i) 67·83 (ii) 283·61
(iii) 24·675 (iv) 0·294
(v) 8·006 (vi) 4615·72
Sol. (i) 67·83 = (6 × 10) + (7 × 1)
+ 
8
1
10
3
1
100
F
H
G
I
K
J
F
H
G
I
K
J
(ii) 283·61 = (2 × 100) + (8 × 10) + (3 × 1)
+ 
6
1
10
1
1
100
F
H
G
I
K
J
F
H
G
I
K
J
(iii) 24·675 = (2 × 10) + (4 × 1)
+ 
6
1
10
7
1
100
5
1
1000
F
H
G
I
K
J
F
H
G
I
K
J
F
H
G
I
K
J
(iv) 0·294 =
2
1
10
9
1
100
4
1
1000
F
H
G
I
K
J
F
H
G
I
K
J
F
H
G
I
K
J
(v) 8·006 = (8 × 1) + 
6
1
1000
F
H
G
I
K
J
(vi) 4615·72 = (4 × 1000) + (6 × 100)
+ (1 × 10) + (5 × 1)
+ 7
1
10
2
1
100
F
H
G
I
K
J
F
H
G
I
K
J Ans.
Q. 4. Write each of the following in the decimal
form :
(i)
40 6
7
10
9
100
(ii)
500 70 8
3
10
1
100
6
1000
(iii)
700 30 1
8
10
4
100
(iv)
600 5
7
100
9
1000
(v)
800 5
8
10
6
1000
(vi)
30 9
4
100
8
1000
Sol. (i) 
40 6
7
10
9
100
 = 46·79
(ii)
500 70 8
3
10
1
100
6
1000
= 578·316
(iii)
700 30 1
8
10
4
100
 = 731·84
(iv)
600 5
7
100
9
1000
 = 605·079
(v)
800 5
8
10
6
1000
 = 805·806
(vi)
30 9
4
100
8
1000
 = 39·048 Ans.
Q. 5. Convert each of the following into like
decimals :
(i) 7·5, 64·23, 0·074
(ii) 0·6, 5·937, 2·36, 4·2
(iii) 1·6, 0·07, 3·58, 2·9
(iv) 2·5, 0·63, 14·08, 1·637
Sol. (i) 7·5, 64·23, 0·074 = 7·500, 64·230,
0·074
(Here, at the most 0·074 has 3 places)
(ii) 0·6, 5·937, 2·36, 4·2 = 0·600, 5·937,
2·360, 4·200
(Here, 5·937 has at most 3 places)
(iii) 1·6, 0·07, 3·58, 2·9 = 1·60, 0·07, 3·58,
2·90
(Here, at the most are two places)
(iv) 2·5, 0·63, 14·08, 1·637 = 2·500, 0·630,
14·080, 1·637 Ans.
(Here, at the most are three places)
Q. 6. Fill in each of the place holders with the
correct symbol > or < :
(i) 84·23  76·35
(ii) 7·608  7·68
(iii) 8·34  8·43
(iv) 12·06  12·006
(v) 3·85  3·805
(vi) 0·97  1·07
Sol. Making like decimals where ever it is
necessary,
(i) 84·23  76·35  84·23 > 76·35
(ii) 7·608  7·68   7·608  7·680
 7·608 < 7·680
(iii) 8·34  8·43  8·34 < 8·43
(iv) 12·06  12·006
 12·060  12·006
 12·06 > 12·006
(v) 3·85  3·805  3·850  3·805
 3·850 > 3·805
(vi) 0·97  1·07  0·97 < 1·07 Ans.
Q. 7. Arrange the following decimals in an
ascending order :
(i) 5·8, 7·2, 5·69, 7·14, 5·06
(ii) 0·6, 6·6, 6·06, 66·6, 0·06
(iii) 6·54, 6·45, 6·4, 6·5, 6·05
(iv) 3·3, 3·303, 3·033, 0·33, 3·003
Sol. First of all making them in like decimals,
(i) 5·8, 7·2, 5·69, 7·14, 5·06
 5·80, 7·20, 5·69, 7·14, 5·06
Arranging in ascending order,
5·06 < 5·69 < 5·80 < 7·14 < 7·20
 5·06 < 5·69 < 5·8 < 7·14 < 7·2 Ans.
(ii) 0·6, 6·6, 6·06, 66·6, 0·06
 0·60, 6·60, 6·06, 66·60, 0·06
Arranging in ascending order,
0·06 < 0·60 < 6·06 < 6·60 < 66·60
 0·06 < 0·6 < 6·06 < 6·6 < 66·6 Ans.
(iii) 6·54, 6·45, 6·4, 6·5, 6·05
 6·54, 6·45, 6·4, 6·5, 6·05
Arranging in ascending order,
6·05 < 6·40 < 6·45 < 6·50 < 6·54
 6·05 < 6·4 < 6·45 < 6·5 < 6·54 Ans.
(iv) 3·3, 3·303, 3·033, 0·33, 3·003
 3·300, 3·303, 3·033, 0·330, 3·003
Arranging in descending order,
0·330 < 3·003 < 3·033 < 3·300 < 3·303
 0·33 < 3·003 < 3·033 < 3·3 < 3·303
Ans.
Q. 8. Arrange the following decimals in a
descending order :
(i) 7·3, 8·73, 73·03, 7·33, 8·073
(ii) 3·3, 3·03, 30·3, 30·03, 3·003
(iii) 2·7, 7·2, 2·27, 2·72, 2·02, 2·007
(iv) 8·88, 8·088, 88·8, 88·08, 8·008
Sol. Making them in like decimals and them
comparing
(i) 7·3, 8·73, 73·03, 7·33, 8·073
 7·300, 8·730, 73·030, 7·330, 8·073
Arranging in decending order
73·030 > 8·730 > 8·073 > 7·330 > 7·300
 73·03 > 8·73 > 8·073 > 7·33 > 7·3
Ans.
(ii) 3·3, 3·03, 30·3, 30·03, 3·003
 3·300, 3·030, 30·300, 30·030, 3·003
Arranging in descending order
30·300 > 30·030 > 3·300 > 3·030 > 3·003
 30·3 > 30·03 > 3·3 > 3·03 > 3·003 Ans.
(iii) 2·7, 7·2, 2·27, 2·72, 2·02, 2·007
 2·700, 7·200, 2·270, 2·720, 2·020,
2·007
Arranging in descending order
7·200 > 2·720 > 2·700 > 2·270 > 2·020>
2·007
 7·2 > 2·72 > 2·7 > 2·27 > 2·02 > 2·007
Ans.
(iv) 8·88, 8·088, 88·8, 88·08, 8·008
 8·880, 8·088, 88·800, 88·080, 8·008
Arranging in decending order,
88·800 > 88·080 > 8·880 > 8·088 > 8·008
 88·8 > 88·08 > 8·88 > 8·088 > 8·008
Ans.
          Convert each of the following into a
fraction in its simplest form :
Q. 1. ·9 Q. 2. 0·6
Q. 3. ·08 Q. 4. 0·15
Q. 5. 0·48 Q. 6. ·053
Q. 7. 0·125 Q. 8. ·224
Sol. 1. ·9 = 
9
10
2. 0·6 = 
6
10
6 2
10 2
3
5
(Dividing by 2, the HCF of 6, 10)
3. ·08 = 
8
100
8 4
100 4
2
25
(Dividing by 4, the HCF of 8, 100)
4. 0·15 = 
15
100
15 5
100 5
3
20
(Dividing by 5, the HCF of 15, 100)
5. 0·48 = 
48
100
48 4
100 4
12
25
(Dividing by 4, the HCF of 48, 100)
6. ·053 = 
53
1000
7. 0·125 = 
125
1000
125 125
1000 125
1
8
(Dividing by 125, the HCF of 125, 1000)
8. ·224 = 
224
1000
224 8
1000 8
28
125
 Ans.
(Dividing by 8, the HCF of 224 and 1000)
Convert each of the following as a
mixed fraction :
Q. 9. 6·4 Q. 10. 16·5
Q. 11. 8·36 Q. 11. 4·275
Q. 13. 25·06 Q. 14. 7·004
Q. 15. 2·052 Q. 16. 3·108
Sol. 9. 6·4 = 
64
10
64 2
10 2
32
5
6
2
5
(Dividing by 2, the HCF of 64 and 10)
10. 16·5 = 
165
10
165 5
10 5
33
2
16
1
2
(Dividing by 5, the HCF of 165 and 10)
11. 8·36 = 
836
100
836 4
100 4
209
25
8
9
25
(Dividing by 4, the HCF of 836 and 100)
12. 4·275
= 
4275
1000
4275 25
1000 25
171
40
4
11
40
(Dividing by 25)
13. 25·06
= 
2506
100
2506 2
100 2
1253
50
25
3
50
(Dividing by 2)
14. 7·004
= 
7004
1000
7004 4
1000 4
1751
250
7
1
250
(Dividing by 4)
15. 2·052
= 
2052
1000
2052 4
1000 4
513
250
2
13
250
(Dividing by 4)
16. 3·108
= 
3108
1000
3108 4
1000 4
777
250
3
27
250
(Dividing by 4)    Ans.
Convert each of the following into a
decimal :
Q. 17.
23
10
Q. 18.
167
100
Q. 19.
1589
100
Q. 20.
5413
1000
Q. 21.
21415
1000
Q. 22.
25
4
Q. 23.
3
3
5
Q. 24.
1
4
25
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FAQs on RS Aggarwal Solutions: Decimals - Mathematics (Maths) Class 6

1. What are decimals?
Ans. Decimals are a way of representing numbers that are not whole. They are used to represent parts of a whole or fractions. In decimal notation, a decimal point is used to separate the whole number part from the fractional part.
2. How do you read and write decimals?
Ans. To read a decimal, say the whole number part first, followed by the word "and," and then say each digit of the decimal individually. For example, the decimal 3.75 is read as "three and seventy-five hundredths." To write a decimal, place the decimal point after the whole number part and then write the digits of the fractional part. For example, the decimal 0.25 is written as 0.25.
3. How do you compare decimals?
Ans. To compare decimals, start by looking at the whole number parts. If they are different, the decimal with the greater whole number part is greater. If the whole number parts are the same, compare the decimal parts digit by digit from left to right. The first digit that is different determines which decimal is greater.
4. How do you add and subtract decimals?
Ans. To add or subtract decimals, line up the decimal points and then add or subtract the digits as you would with whole numbers. If the decimal places are not the same, add zeros to the end of the shorter decimal until they have the same number of decimal places. For example, to add 2.35 and 1.7, line up the decimal points and add the digits: 2.35 + 1.70 = 4.05.
5. How do you multiply decimals?
Ans. To multiply decimals, first ignore the decimal points and multiply the numbers as if they were whole numbers. Count the total number of decimal places in the original numbers and place the decimal point in the product so that it has the same number of decimal places.
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The importance of RS Aggarwal Solutions: Decimals cannot be overstated, especially for Class 6 aspirants. This document holds the key to success in the Class 6 exam. It offers a detailed understanding of the concept, providing invaluable insights into the topic. By knowing the concepts well in advance, students can plan their preparation effectively. Utilize this indispensable guide for a well-rounded preparation and achieve your desired results.

RS Aggarwal Solutions: Decimals Notes

RS Aggarwal Solutions: Decimals Notes offer in-depth insights into the specific topic to help you master it with ease. This comprehensive document covers all aspects related to RS Aggarwal Solutions: Decimals. It includes detailed information about the exam syllabus, recommended books, and study materials for a well-rounded preparation. Practice papers and question papers enable you to assess your progress effectively. Additionally, the paper analysis provides valuable tips for tackling the exam strategically. Access to Toppers' notes gives you an edge in understanding complex concepts. Whether you're a beginner or aiming for advanced proficiency, RS Aggarwal Solutions: Decimals Notes on EduRev are your ultimate resource for success.

RS Aggarwal Solutions: Decimals Class 6 Questions

The "RS Aggarwal Solutions: Decimals Class 6 Questions" guide is a valuable resource for all aspiring students preparing for the Class 6 exam. It focuses on providing a wide range of practice questions to help students gauge their understanding of the exam topics. These questions cover the entire syllabus, ensuring comprehensive preparation. The guide includes previous years' question papers for students to familiarize themselves with the exam's format and difficulty level. Additionally, it offers subject-specific question banks, allowing students to focus on weak areas and improve their performance.

Study RS Aggarwal Solutions: Decimals on the App

Students of Class 6 can study RS Aggarwal Solutions: Decimals alongwith tests & analysis from the EduRev app, which will help them while preparing for their exam. Apart from the RS Aggarwal Solutions: Decimals, students can also utilize the EduRev App for other study materials such as previous year question papers, syllabus, important questions, etc. The EduRev App will make your learning easier as you can access it from anywhere you want. The content of RS Aggarwal Solutions: Decimals is prepared as per the latest Class 6 syllabus.
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