## Important Questions for Class 10 Maths Chapter 1 Real Numbers

### Real Numbers Class 10 Important Questions Very Short Answer (1 Mark)

**Real Numbers Class 10 Important Questions With Solutions Question 1.**

The decimal expansion of the rational number \(\frac { 43 }{ { 2 }^{ 4 }{ 5 }^{ 3 } }\) will terminate after how many places of decimals? (2013)

Solution:

**Important Questions For Class 10 Maths Real Numbers Pdf Question 2.**

Write the decimal form of \(\frac { 129 }{ { 2 }^{ 7 }{ 5 }^{ 7 }{ 7 }^{ 5 } }\)

Solution:

Non-terminating non-repeating.

**Real Numbers Important Questions Question 3.**

Find the largest number that will divide 398, 436 and 542 leaving remainders 7, 11, and 15 respectively.

Solution:

Algorithm

398 – 7 = 391, 436 – 11 = 425, 542 – 15 = 527

HCF of 391, 425, 527 = 17

**Questions On Real Numbers Class 10 Question 4.**

Express 98 as a product of its primes.

Solution:

2 Ã— 7^{2}

**Real Numbers Class 10 Questions Question 5.**

If the HCF of 408 and 1032 is expressible in the form 1032 Ã— 2 + 408 Ã— p, then find the value of p.

Solution:

HCF of 408 and 1032 is 24.

1032 Ã— 2 + 408 Ã— (p) = 24

408p = 24 – 2064

p = -5

### Real Numbers Class 10 Important Questions Short Answer-I (2 Marks)

**Class 10 Real Numbers Important Questions Question 6.**

HCF and LCM of two numbers is 9 and 459 respectively. If one of the numbers is 27, find the other number. (2012)

Solution:

We know,

1st number Ã— 2nd number = HCF Ã— LCM

â‡’ 27 Ã— 2nd number = 9 Ã— 459

â‡’ 2nd number = \(\frac { 9\times 459 }{ 27 }\) = 153

**Real Numbers Important Questions Class 10 Question 7.**

Find HCF and LCM of 13 and 17 by prime factorisation method. (2013)

Solution:

13 = 1 Ã— 13; 17 = 1 Ã— 17

HCF = 1 and LCM = 13 Ã— 17 = 221

**Real Number Question Class 10 Question 8.**

Find LCM of numbers whose prime factorisation are expressible as 3 Ã— 5^{2} and 3^{2} Ã— 7^{2}. (2014)

Solution:

LCM (3 Ã— 5^{2}, 3^{2} Ã— 7^{2}) = 3^{2} Ã— 5^{2} Ã— 7^{2} = 9 Ã— 25 Ã— 49 = 11025

**Questions From Real Numbers Class 10 Question 9.**

Find the LCM of 96 and 360 by using fundamental theorem of arithmetic. (2012)

Solution:

96 = 2^{5} Ã— 3

360 = 2^{3} Ã— 3^{2} Ã— 5

LCM = 2^{5} Ã— 3^{2} Ã— 5 = 32 Ã— 9 Ã— 5 = 1440

**Real Numbers Sample Paper Class 10 Question 10.**

Find the HCF (865, 255) using Euclid’s division lemma. (2013)

Solution:

865 > 255

865 = 255 Ã— 3 + 100

255 = 100 Ã— 2 + 55

100 = 55 Ã— 1 + 45

55 = 45 Ã— 1 + 10

45 = 10 Ã— 4 + 5

10 = 5 Ã— 2 + 0

The remainder is 0.

HCF = 5

**Real Numbers Questions Class 10 Question 11.**

Find the largest number which divides 70 and 125 leaving remainder 5 and 8 respectively. (2015)

Solution:

It is given that on dividing 70 by the required number, there is a remainder 5.

This means that 70 – 5 = 65 is exactly divisible by the required number.

Similarly, 125 – 8 = 117 is also exactly divisible by the required number.

65 = 5 Ã— 13

117 = 3^{2} Ã— 13

HCF = 13

Required number = 13

**Important Questions Of Real Numbers Class 10 Question 12.**

Find the prime factorisation of the denominator of rational number expressed as \(6.\bar { 12 }\) in simplest form. (2014)

Solution:

Let x = \(6.\bar { 12 }\) …(i)

100x = 612.\(\bar { 12 }\) …(ii)

…[Multiplying both sides by 100]

Subtracting (i) from (ii),

99x = 606

x = \(\frac { 606 }{ 99 }\) = \(\frac { 202 }{ 33 }\)

Denominator = 33

Prime factorisation = 3 Ã— 11

**Important Questions From Real Numbers Class 10 Question 13.**

Complete the following factor tree and find the composite number x. (2014)

Solution:

y = 5 Ã— 13 = 65

x = 3 Ã— 195 = 585

Question 14.

Prove that 2 + 3âˆš5 is an irrational number. (2014)

Solution:

Let us assume, to the contrary, that 2 + 3âˆš5 is rational.

So that we can find integers a and b (b â‰ 0).

Such that 2 + 3âˆš5 = \(\frac { a }{ b }\), where a and b are coprime.

Rearranging the above equation, we get

Since a and b are integers, we get \(\frac { a }{ 3b } -\frac { 2 }{ 3 }\) is rational and so âˆš5 is rational.

But this contradicts the fact that âˆš5 is irrational.

So, we conclude that 2 + 3âˆš5 is irrational.

Question 15.

Show that 3âˆš7 is an irrational number. (2016)

Solution:

Let us assume, to the contrary, that 3âˆš7 is rational.

That is, we can find coprime a and b (b â‰ 0) such that 3âˆš7 = \(\frac { a }{ b }\)

Rearranging, we get âˆš7 = \(\frac { a }{ 3b }\)

Since 3, a and b are integers, \(\frac { a }{ 3b }\) is rational, and so âˆš7 is rational.

But this contradicts the fact that âˆš7 is irrational.

So, we conclude that 3âˆš7 is irrational.

Question 16.

Explain why (17 Ã— 5 Ã— 11 Ã— 3 Ã— 2 + 2 Ã— 11) is a composite number? (2015)

Solution:

17 Ã— 5 Ã— 11 Ã— 3 Ã— 2 + 2 Ã— 11 …(i)

= 2 Ã— 11 Ã— (17 Ã— 5 Ã— 3 + 1)

= 2 Ã— 11 Ã— (255 + 1)

= 2 Ã— 11 Ã— 256

Number (i) is divisible by 2, 11 and 256, it has more than 2 prime factors.

Therefore (17 Ã— 5 Ã— 11 Ã— 3 Ã— 2 + 2 Ã— 11) is a composite number.

Question 17.

Check whether 4n can end with the digit 0 for any natural number n. (2015)

Solution:

4^{n} = (2^{2})^{n} = 2^{2n}

The only prime in the factorization of 4^{n} is 2.

There is no other prime in the factorization of 4^{n} = 2^{2n}

(By uniqueness of the Fundamental Theorem of Arithmetic).

5 does not occur in the prime factorization of 4^{n} for any n.

Therefore, 4^{n} does not end with the digit zero for any natural number n.

Question 18.

Can two numbers have 15 as their HCF and 175 as their LCM? Give reasons. (2017 OD)

Solution:

No, LCM = Product of the highest power of each factor involved in the numbers.

HCF = Product of the smallest power of each common factor.

We can conclude that LCM is always a multiple of HCF, i.e., LCM = k Ã— HCF

We are given that,

LCM = 175 and HCF = 15

175 = k Ã— 15

â‡’ 11.67 = k

But in this case, LCM â‰ k Ã— HCF

Therefore, two numbers cannot have LCM as 175 and HCF as 15.

### Real Numbers Class 10 Important Questions Short Answer-II (3 Marks)

Question 19.

Prove that âˆš5 is irrational and hence show that 3 + âˆš5 is also irrational. (2012)

Solution:

Let us assume, to the contrary, that âˆš5 is rational.

So, we can find integers p and q (q â‰ 0), such that

âˆš5 = \(\frac { p }{ q }\), where p and q are coprime.

Squaring both sides, we get

5 = \(\frac { { p }^{ 2 } }{ { q }^{ 2 } }\)

â‡’ 5q^{2} = p^{2} …(i)

â‡’ 5 divides p^{2}

5 divides p

So, let p = 5r

Putting the value of p in (i), we get

5q^{2} = (5r)^{2}

â‡’ 5q^{2 }= 25r^{2}

â‡’ q^{2} = 5r^{2}

â‡’ 5 divides q^{2}

5 divides q

So, p and q have atleast 5 as a common factor.

But this contradicts the fact that p and q have no common factor.

So, our assumption is wrong, is irrational.

âˆš5 is irrational, 3 is a rational number.

So, we conclude that 3 + âˆš5 is irrational.

Question 20.

Prove that 3 + 2âˆš3 is an irrational number. (2014)

Solution:

Let us assume to the contrary, that 3 + 2âˆš3 is rational.

So that we can find integers a and b (b â‰ 0).

Such that 3 + 2âˆš3 = \(\frac { a }{ b }\), where a and b are coprime.

Rearranging the equations, we get

Since a and b are integers, we get \(\frac { a }{ 2b } -\frac { 3 }{ 2 }\) is rational and so âˆš3 is rational.

But this contradicts the fact that âˆš3 is irrational.

So we conclude that 3 + 2âˆš3 is irrational.

Question 21.

Three bells toll at intervals of 9, 12, 15 minutes respectively. If they start tolling together, after what time will they next toll together? (2013)

Solution:

9 = 3^{2}, 12 = 2^{2} Ã— 3, 15 = 3 Ã— 5

LCM = 2^{2} Ã— 3^{2} Ã— 5 = 4 Ã— 9 Ã— 5 = 180 minutes or 3 hours

They will next toll together after 3 hours.

Question 22.

Two tankers contain 850 liters and 680 liters of petrol. Find the maximum capacity of a container which can measure the petrol of each tanker in the exact number of times. (2012)

Solution:

To find the maximum capacity of a container which can measure the petrol of each tanker in the exact number of times, we find the HCF of 850 and 680.

850 = 2 Ã— 5^{2} Ã— 17

680 = 2^{3} Ã— 5 Ã— 17

HCF = 2 Ã— 5 Ã— 17 = 170

Maximum capacity of the container = 170 liters.

Question 23.

The length, breadth, and height of a room are 8 m 50 cm, 6 m 25 cm and 4 m 75 cm respectively. Find the length of the longest rod that can measure the dimensions of the room exactly. (2015)

Solution:

To find the length of the longest rod that can measure the dimensions of the room exactly, we have to find HCF.

L, Length = 8 m 50 cm = 850 cm = 2^{1} Ã— 5^{2} Ã— 17

B, Breadth = 6 m 25 cm = 625 cm = 5^{4}

H, Height = 4 m 75 cm = 475 cm = 5^{2} Ã— 19

HCF of L, B and H is 5^{2} = 25 cm

Length of the longest rod = 25 cm

Question 24.

Three alarm clocks ring at intervals of 4, 12 and 20 minutes respectively. If they start ringing together, after how much time will they next ring together? (2015)

Solution:

To find the time when the clocks will next ring together,

we have to find LCM of 4, 12 and 20 minutes.

4 = 2^{2}

12 = 2^{2} Ã— 3

20 = 2^{2} Ã— 5

LCM of 4, 12 and 20 = 2^{2} Ã— 3 Ã— 5 = 60 minutes.

So, the clocks will ring together again after 60 minutes or one hour.

Question 25.

In a school, there are two Sections A and B of class X. There are 48 students in Section A and 60 students in Section B. Determine the least number of books required for the library of the school so that the books can be distributed equally among all students of each Section. (2017 OD)

Solution:

Since the books are to be distributed equally among the students of Section A and Section B. therefore, the number of books must be a multiple of 48 as well as 60.

Hence, required numÂ¬ber of books is the LCM of 48 and 60.

48 = 2^{4} Ã— 3

60 = 2^{2} Ã— 3 Ã— 5

LCM = 2^{4} Ã— 3 Ã— 5 = 16 Ã— 15 = 240

Hence, required number of books is 240.

Question 26.

By using Euclid’s algorithm, find the largest number which divides 650 and 1170. (2017 OD)

Solution:

Given numbers are 650 and 1170.

1170 > 650

1170 = 650 Ã— 1 + 520

650 = 520 Ã— 1 + 130

520 = 130 Ã— 4 + 0

HCF = 130

The required largest number is 130.

Question 27.

Find the HCF of 255 and 867 by Euclid’s division algorithm. (2014)

Solution:

867 is greater than 255. We apply the division lemma to 867 and 255, to get

867 = 255 Ã— 3 + 102

We continue the process till the remainder is zero

255 = 102 Ã— 2 + 51

102 = 51 Ã— 2 + 0, the remainder is zero.

HCF = 51

Question 28.

Using Euclid’s division algorithm, find whether the pair of numbers 847, 2160 are coprime or not.

To find out the minimum (least) time when the bells toll together next, we find the LCM of 9, 12, 15.

Solution:

### Real Numbers Class 10 Important Questions Long Answer (4 Marks)

Question 29.

Prove that 3 + 2âˆš5 is irrational. (2012, 2017 D)

Solution:

Let us assume, to the contrary, that 3 + 2âˆš5 is rational

So that we can find integers a and b (b â‰ 0), such that

3 + 2 âˆš5 = \(\frac { a }{ b }\), where a and b are coprime.

Rearranging this equation, we get

Since a and b are integers, we get that \(\frac { a }{ 2b }\) – \(\frac { 3 }{ 2 }\) is rational and so âˆš5 is rational.

But this contradicts the fact that âˆš5 is irrational.

So we conclude that 3 + 2âˆš5 is irrational.

Question 30.

There are 104 students in class X and 96 students in class IX in a school. In a house examination, the students are to be evenly seated in parallel rows such that no two adjacent rows are of the same class. (2013)

(a) Find the maximum number of parallel rows of each class for the seating arrangeÂ¬ment.

(b) Also, find the number of students of class IX and also of class X in a row.

(c) What is the objective of the school administration behind such an arrangement?

Solution:

104 = 2^{3} Ã— 13

96 = 2^{5} Ã— 3

HCF = 2^{3} = 8

(a) Number of rows of students of class X = \(\frac { 104 }{ 8 }\) = 13

Number maximum of rows class IX = \(\frac { 96 }{ 8 }\) = 12

Total number of rows = 13 + 12 = 25

(b) No. of students of class IX in a row = 8

No. of students of class X in a row = 8

(c) The objective of school administration behind such an arrangement is fair and clean examination, so that no student can take help from any other student of his/her class.

Question 31.

Dudhnath has two vessels containing 720 ml and 405 ml of milk respectively. Milk from these containers is poured into glasses of equal capacity to their brim. Find the minimum number of glasses that can be filled. (2014)

Solution:

1st vessel = 720 ml; 2nd vessel = 405 ml

We find the HCF of 720 and 405 to find the maximum quantity of milk to be filled in one glass.

405 = 3^{4} Ã— 5

720 = 2^{4} Ã— 3^{2} Ã— 5

HCF = 3^{2} Ã— 5 = 45 ml = Capacity of glass

No. of glasses filled from 1st vessel = \(\frac { 720 }{ 45 }\) = 16

No. of glasses filled from 2nd vessel = \(\frac { 405 }{ 45 }\) = 9

Total number of glasses = 25

Question 32.

Amita, Sneha, and Raghav start preparing cards for all persons of an old age home. In order to complete one card, they take 10, 16 and 20 minutes respectively. If all of them started together, after what time will they start preparing a new card together? (2013)

Solution:

To find the earliest (least) time, they will start preparing a new card together, we find the LCM of 10, 16 and 20.

10 = 2 Ã— 5

16 = 2^{4}

20 = 2^{2} Ã— 5

LCM = 2^{4} Ã— 5 = 16 Ã— 5 = 80 minutes

They will start preparing a new card together after 80 minutes.

Question 33.

Find HCF of numbers 134791, 6341 and 6339 by Euclid’s division algorithm. (2015)

Solution:

First, we find HCF of 6339 and 6341 by Euclid’s division method.

6341 > 6339

6341 = 6339 Ã— 1 + 2

6339 = 2 Ã— 3169 + 1

2 = 1 Ã— 2 + 0

HCF of 6341 and 6339 is 1.

Now, we find the HCF of 134791 and 1

134791 = 1 Ã— 134791 + 0

HCF of 134791 and 1 is 1.

Hence, the HCF of the given three numbers is 1.

Question 34.

If two positive integers x and y are expressible in terms of primes as x = p^{2}q^{3} and y = p^{3}q, what can you say about their LCM and HCF. Is LCM a multiple of HCF? Explain. (2014)

Solution:

x = p^{2}q^{3} and y = p^{3}q

LCM = p^{3}q^{3}

HCF = p^{2}q …..(i)

Now, LCM = p^{3}q^{3}

â‡’ LCM = pq^{2} (p^{2}q)

â‡’ LCM = pq^{2} (HCF)

Yes, LCM is a multiple of HCF.

Explanation:

Let a = 12 = 2^{2} Ã— 3

b = 18 = 2 Ã— 3^{2}

HCF = 2 Ã— 3 = 6 …(ii)

LCM = 2^{2} Ã— 3^{2} = 36

LCM = 6 Ã— 6

LCM = 6 (HCF) …[From (ii)]

Here LCM is 6 times HCF.

Question 35.

Show that one and only one out of n, (n + 1) and (n + 2) is divisible by 3, where n is any positive integer. (2015)

Solution:

Let n, n + 1, n + 2 be three consecutive positive integers.

We know that n is of the form 3q, 3q + 1, or 3q + 2.

Case I. When n = 3q,

In this case, n is divisible by 3,

but n + 1 and n + 2 are not divisible by 3.

Case II. When n = 3q + 1,

In this case n + 2 = (3q + 1) + 2

= 3q + 3

= 3(q + 1 ), (n + 2) is divisible by 3,

but n and n + 1 are not divisible by 3.

Case III.

When n = 3q + 2, in this case,

n + 1 = (3q + 2) + 1

= 3q + 3 = 3 (q + 1 ), (n + 1) is divisible by 3,

but n and n + 2 are not divisible by 3.

Hence, one and only one out of n, n + 1 and n + 2 is divisible by 3.

Question 36.

Find the HCF and LCM of 306 and 657 and verify that LCM Ã— HCF = Product of the two numbers. (2016 D)

Solution:

306 = 2 Ã— 3^{2} Ã— 17

657 = 32 Ã— 73

HCF = 3^{2} = 9

LCM = 2 Ã— 3^{2} Ã— 17 Ã— 73 = 22338

L.H.S. = LCM Ã— HCF = 22338 Ã— 9 = 201042

R.H.S. = Product of two numbers = 306 Ã— 657 = 201042

L.H.S. = R.H.S.

Question 37.

Show that any positive odd integer is of the form 41 + 1 or 4q + 3 where q is a positive integer. (2016 OD)

Solution:

Let a be a positive odd integer

By Euclid’s Division algorithm:

a = 4q + r …[where q, r are positive integers and 0 â‰¤ r < 4]

a = 4q

or 4q + 1

or 4q + 2

or 4q + 3

But 4q and 4q + 2 are both even

a is of the form 4q + 1 or 4q + 3.