NCERT Solutions Class 7 Mathematics Chapter 13 Exponents and Power

Exercise 13.1

Q.1) Find the value of:
(i) 2⁶ (ii) 9³ (iii) 11² (iv) 5⁴
Sol.1) (i) 26
2 × 2 × 2 × 2 × 2 × 2 = 64
(ii) 9³
9 × 9 × 9 = 729
(iii) 11²
11 × 11 = 121
(iv) 5⁴
5 × 5 × 5 × 5 = 65

Q.2) Express the following in exponential form:
(i) 6 × 6 × 6 × 6 (ii) 𝑡 × 𝑡 (iii) b × b × b × b (iv) 5 × 5 × 7 × 7 × 7
(v) 2 × 2 × a × a (vi) a × a × a × c × c × c × c × 𝑑
Sol.2) (i) 6 × 6 × 6 × 6
6⁴
(ii) 𝑡 × 𝑡
𝑡²
(iii) b × b × b × b
b⁴
(iv) 5 × 5 × 7 × 7 × 7
5² × 7³
(v) 2 × 2 × a × a
2² × a²
(vi) a × a × a × c × c × c × c × 𝑑
c³ × c⁴ × 𝑑

Q.3) Express each of the following numbers using exponential notation:
(i) 512 (ii) 343 (iii) 729 (iv) 3125
Sol.3) i) 512
= 2 × 2 × 2 × 2 × 2 × 2 × 2 × 2 × 2 = 29
(ii) 343
= 7 × 7 × 7 = 7³

(iii) 729
= 3 × 3 × 3 × 3 × 3 × 3 = 3⁶
(iv) 3125
= 5 × 5 × 5 × 5 × 5 = 5⁵

Q.4) Identify the greater number, wherever possible, in each of the following:
(i) 4³ and 3⁴          (ii) 5³ or 3⁵      (iii) 2⁸ or 8²
(iv) 100² or 2¹⁰⁰   (v) 2¹⁰ or 10²
Sol.4) (i) 4³ and 3⁴
4³ = 4 × 4 × 4 = 64
3⁴ = 3 × 3 × 3 × 3 = 81
Since 6⁴ < 81
Hence, 4³ < 3⁴
Thus, 34 is greater than 43.

(ii) 5³ or 3⁵
5³ = 5 × 5 × 5 = 125
35 = 3 × 3 × 3 × 3 × 3 = 243
Hence, 5³ < 3⁵
Since, 125 < 243
Thus, 3⁵ is greater than 5³.

(iii) 2⁸ or 8²
2⁸ = 2 × 2 × 2 × 2 × 2 × 2 × 2 × 2 = 256
8² = 8 × 8 = 64
Hence, 28 > 82
Since, 256 > 64 Thus, 2⁸is greater than 8².

(iv) 100² or 2¹⁰⁰
= 100 × 100 = 10,000
= 2 × 2 × 2 × 2 × 2 × … . .14 t𝑖m𝑒𝑠 × … × 2 = 16,384 × … . .× 2
Since, 10,000 < 16,384 × … . .× 2
Thus, 2¹⁰⁰is greater than 100².

(v) 2¹⁰ or 10²
= 2 × 2 × 2 × 2 × 2 × 2 × 2 × 2 × 2 × 2 = 1024
= 10 × 10 = 100
Since, 1,024 > 100
Thus, 2¹⁰ > 10²

Q.5) Express each of the following as product of powers of their prime factors:
(i) 648 (ii) 405 (iii) 540 (iv) 3,600
Sol.5) (i) 648
= 2 × 2 × 2 × 2 × 3 × 3 × 3
= 2⁴ × 3³

(ii) 405
= 3 × 3 × 3 × 3 × 5
= 34 × 5

(iii) 540
= 2 × 2 × 3 × 3 × 3 × 5
= 22 × 33 × 5

(iv) 3,600
= 2 × 2 × 2 × 2 × 3 × 3 × 5 × 5
= 2⁴ × 3² × 5²

Q.6) Simplify:
(i) 2 × 10³   (ii) 7² × 2²  (iii) 2³ × 5    (iv) 3 × 4⁴
(v) 0 × 10²  (vi) 5² × 3³ (vii) 2⁴ × 3² (viii) 3² × 10⁴
Sol.6) i) 2 × 10³
= 2 × 10 × 10 × 10
= 2 × 1000 = 2000

(ii) 7² × 2²
= 7 × 7 × 2 × 2 = 196

(iii) 2³ × 5
= 2 × 2 × 2 × 5 = 40

(iv) 3 × 44
= 3 × 4 × 4 × 4 × 4 = 768

(v) 0 × 10²
= 0 × 10 × 10 = 0

(vi) 5² × 3³
= 5 × 5 × 3 × 3 × 3 = 675

(vii) 2⁴ × 3²
= 2 × 2 × 2 × 2 × 3 × 3 = 144

(viii) 3² × 10⁴
= 3 × 3 × 10 × 10 × 10 × 10 = 90,000

Q.7) Simplify:
i) (−4)3                    
ii) (−3) × (−2)³
iii) (−3)² × (−5)2    
iv) (−2)3 × (−10)³
Sol.7) i) (−4)³
= (−4) × (−4) × (−4) = −64
ii) (−3) × (−2)³
= (−3) × (−2) × (−2) = 24
iii) (−3)² × (5)²
= (−3) × (−3) × (−5) × (−5) = 225
iv) (−2)³ × (−10)³
= (−2) × (−2) × (−2) × (−10) × (−10) × (−10) = 8000

Q.8) Compare the following numbers:
(i) 2.7 × 10¹²; 1.5 × 10⁸         (ii) 4 × 10¹⁴; 3 × 10¹⁷
Sol.8) (i) 2.7 × 10¹²; 1.5 × 10⁸
because exponent on 10 is larger in case of first number
On comparing the exponents of base 10,
2.7 × 10¹² > 1.5 × 10⁸
(ii) 4 × 10¹⁴; 3 × 10¹⁷
because exponent on 10 is smaller in case of first number.
On comparing the exponents of base 10
4 × 10¹⁴ < 3 × 10¹⁷

Exercise 13.2

Q.1) Using laws of exponents, simplify and write the answer in exponential form:
(i) 3² × 3⁴ × 3⁸   (ii) 6¹⁵ ÷ 6¹⁰   (iii) a³ × a²         (iv) 7^𝑥 × 7²   
(v) (5²)³ × 5³      (vi) 2⁵ × 5⁵      (vii) a⁴ × b⁴         (viii) (3⁴)³               
(ix) (2²⁰ ÷ 2¹⁵) × 2³                        (x) 8^t ÷ 8²
Sol.1) (i) 3² × 3⁴ × 3⁸ = (3)²⁺⁴⁺⁸          (a^m × aⁿ = a^m+n)
= 3¹⁴
(ii) 6¹⁵ ÷ 6¹⁰ = (6)¹⁵⁻¹⁰                          (a^m ÷ aⁿ = a^m−n)
= 6⁵
(iii) a³ × a² = a⁽³⁺²⁾                       (a^m × aⁿ = a^m+n)
= a⁵
(iv) 7^x × 7² = 7^𝑥+2                         (a^m × aⁿ = a^m+n)
(v) (5²)³ ÷ 5³
= 5^2×3 ÷ 5³                                    (a^m)ⁿ = a^mn
= 5⁶ ÷ 5³                                       (a^m ÷ aⁿ = a^m−n)
= 5⁶⁻³ (a^m ÷ aⁿ = a^m−n)
= 5³
(vi) 2⁵ × 5⁵
= (2 × 5)⁵                                         [a^m × b^m = (a × b) ^m ]
= 10⁵
(vii) a⁴ × b⁴
= (ab)⁴                                              [a^m × b^m = (a × b) ^m ]
(viii) (3⁴)³ = 3^4×3 = 3¹²                     (a^m)ⁿ = a^mn
(ix) (2²⁰ ÷ 2¹⁵) × 2³
= (2²⁰−1⁵) × 2³                                (a^m ÷ aⁿ = a^m−n)
= 2⁵ × 2³
= (2⁵⁺³) = 2⁸                                   (a^m × aⁿ = a^m+n)
(x) 8^t ÷ 8² = 8^t−2                              (a^m ÷ aⁿ = a^m−n)

Q.2) Simplify and express each of the following in exponential form:
i) 2³×3⁴×4/3×32       ii) [(5²)³ × 5⁴] ÷ 5⁷         iii) 25⁴ ÷ 5³                    iv) 3×7²×11⁸/21×11
v) 3⁷/3⁴×3³                 vi) 2⁰ + 3⁰ + 4⁰             vii) 2⁰ × 3⁰ × 4⁰              viii) (3⁰ + 2⁰) × 5⁰
ix) 2⁸×α⁵/4³×α³        x) ( α⁵/α³) × α⁸               xi) 4⁵×α⁸b³/4⁵×α⁵b²    xii) (2³ × 2)²
Sol.2) i) 2³×3⁴×4/3×32 
= 2³×3⁴×2²/3×2⁵ = 2³⁺²×3⁴/3×5²                 [α^m × α^𝑛 = α^m+𝑛]
= 2⁵×3⁴/3×2⁵ = 2⁵⁻⁵ × 3⁴⁻³                          [α^m ÷ α^𝑛 = α^m−𝑛]
= 2⁰ × 3³ = 1 × 3³ = 3³

ii) [(5²)³ × 5⁴] ÷ 5⁷
= [5⁶ × 5⁴] ÷ 5⁷                                 [(α^m)^𝑛 = α^m×𝑛]
= [5⁶⁺⁴] ÷ 5⁷                                     [α^m × α^𝑛 = α^m+𝑛]
= 5¹⁰ ÷ 5⁷
= 5¹⁰⁻⁷ = 5³                                     [α^m ÷ α^𝑛 = α^m−𝑛]

iii) 25⁴ ÷ 5³
= (5²)⁴ ÷ 5³ = 5⁸ ÷ 5³                       [(α^m)^𝑛 = α^m×𝑛]
= 5⁸⁻³ = 5⁵                                      [α^m ÷ α^𝑛 = α^m−𝑛]

iv) 3×7²×11⁸/21×11
= 3×7²×11⁸/3×7×11³
= 3¹⁻¹ × 7²⁻¹ × 11⁸⁻³                      [α^m ÷ α^𝑛 = α^m−𝑛]
= 3⁰ × 7¹ × 11⁵ = 7 × 11⁵

v) 3⁷/3⁴×3³ = 3⁷
3⁴⁺³ = 3⁷/3⁷                                         [α^m × α^𝑛 = α^m+𝑛]
= 3⁷⁻⁷ = 3⁰ = 1                                    [α^m ÷ α^𝑛 = α^m−𝑛]

vi) 2⁰ + 3⁰ + 4⁰                                    [α⁰ = 1]
= 1 + 1 + 1 = 3

vii) 2⁰ × 3⁰ × 4⁰                                       [α⁰ = 1]
= 1 × 1 × 1 = 1
viii) (3⁰ + 2⁰) × 5⁰                                     [α⁰ = 1]
= (1 + 1) × 1 = 2 × 1 = 2

ix) 2⁸×α⁵/4³×α³
 = 2⁸×α⁵/(2²)³×α³ = 2⁸×α⁵/2⁶×α³           [(α^m)^𝑛 = α^m×𝑛]
= 2⁸⁻⁶ × α⁵⁻² = 2² × α²                          [α^m ÷ α^𝑛 = α^m−𝑛]
= (2α)²                                                    [α^m × b^𝑚 = (α × b)𝑚]

x) (α⁵/α³) × α⁸
= (α⁵⁻³) × α⁸ = α² × α⁸                             [α^m ÷ α^𝑛 = α^m−𝑛]
= α²⁺⁸ = α¹⁰                                             [α^m × α^𝑛 = α^m+𝑛]

xi) 4⁵×α⁸b³/4⁵×α⁵b²
= 4⁵⁻⁵ × α⁸⁻⁵ × b³⁻² = 4⁰ × α³ × b          [α^m ÷ α^𝑛 = α^m−𝑛]
= 1 × α³ × b = α³b                                    [α⁰ = 1]

xii) (2³ × 2)²
= (2³⁺¹)² = (2⁴)²                                       [α^m × α^𝑛 = α^m+𝑛]
= 2^4×2 = 2⁸

Q.3) Say true or false and justify your answer:
i) 10 × 10¹¹ = 100¹¹ ii) 2³ > 5² iii) 2³ × 3² = 6⁵ iv) 3⁰ = (1000)⁰
Sol.3) i) 10 × 10¹¹ = 100¹¹
LHS 10¹⁺¹¹ = 10¹² and RHS (10²)¹¹ = 10²²
False, because first number will have 12 zeroes while the second number will have 22 zeroes at
the end.
Since, 𝐿𝐻𝑆 ≠ 𝑅𝐻𝑆
∴ given statement is false.
ii) 2³ > 5²
LHS 2³ = 8 and RHS 5² = 25
Since, 𝐿𝐻𝑆 ≠ 𝑅𝐻𝑆
False, because first number is 8 while second number is 25.
∴ given statement is false.
iii) 2³ × 3² = 6⁵
LHS 2³ × 3² = 8 × 9 = 72 and              RHS 6⁵ = 7,776
Since, LHS is not greater than RHS
∴ given statement is false.
iv) 3⁰ = (1000)⁰
LHS 3⁰ = 1 and RHS (1000)⁰ = 1
Since, 𝐿𝐻𝑆 = 𝑅𝐻𝑆
True, because both are equal to 1.
∴ given statement is true.

Q.4) Express each of the following as a product of prime factors only in exponential form:
i) 108 × 192 ii) 270 iii) 729 × 64 iv) 768
Sol.4) i) 108 × 192
= (2² × 3³) × (2⁶ × 3)
= 2²⁺⁶ × 3³⁺¹
= 2⁸ × 3⁴

= 2⁵⁻⁵ × 3⁵⁻⁵ × 5⁵⁻⁵
= 2⁰ × 3⁰ × 3^ 0
= 1 × 1 × 1 = 1

Exercise 13.3

Q.1) Write the following numbers in the expanded forms :
279404, 3006194, 2806196, 120719, 20068
Sol.1) (i) 2,79,404
= 2,00,000 + 70,000 + 9,000 + 400 + 00 + 4
= 2 × 100000 + 7 × 10000 + 9 × 1000 + 4 × 100 + 0 × 10 + 4 × 1
= 2 × 10⁵ + 7 × 10⁴ + 9 × 10³ + 4 × 10² + 0 × 10¹ + 4 × 10⁰

(ii) 30,06,194
= 30,00,000 + 0 + 0 + 6,000 + 100 + 90 + 4
= 3 × 1000000 + 0 × 100000 + 0 × 10000 + 6 × 1000 + 1 × 100 + 9 × 10 + 4 × 1
= 3 × 10⁶ + 0 × 10⁵ + 0 × 10⁴ + 6 × 10³ + 1 × 10² + 9 × 10 + 4 × 10⁰

(iii) 28,06,196
= 20,00,000 + 8,00,000 + 0 + 6,000 + 100 + 90 + 6
= 2 × 1000000 + 8 × 100000 + 0 × 10000 + 6 × 1000 + 1 × 100 + 9 × 10 + 6 × 1
= 2 × 10⁶ + 8 × 10⁵ + 0 × 10⁴ + 6 × 10³ + 1 × 10² + 9 × 10 + 6 × 10⁰

(iv) 1,20,719
= 1,00,000 + 20,000 + 0 + 700 + 10 + 9
= 1 × 100000 + 2 × 10000 + 0 × 1000 + 7 × 100 + 1 × 10 + 9 × 1
= 1 × 10⁵ + 2 × 10⁴ + 0 × 10³ + 7 × 10² + 1 × 10¹ + 9 × 10⁰

(v) 20,068
= 20,000 + 00 + 00 + 60 + 8
= 2 × 10000 + 0 × 1000 + 0 × 100 + 6 × 10 + 8 × 1
= 20 × 10⁴ + 0 × 10³ + 0 × 10² + 6 × 10¹ + 8 × 10⁰

Q.2) Find the number from each of the following expanded forms :
i) 8 × 10⁴ + 6 × 10³ + 0 × 10² + 4 × 10¹ + 5 × 10⁰
ii) 4 × 10⁵ + 5 × 10⁴ + 3 × 10² + 2 × 10⁰
iii) 3 × 10⁴ + 7 × 10² + 5 × 10⁰
iv) 9 × 10⁵ + 2 × 10² + 3 × 10¹
Sol.2) i) 8 × 10⁴ + 6 × 10³ + 0 × 10² + 4 × 10¹ + 5 × 10⁰
= 8 × 10000 + 6 × 1000 + 0 × 100 + 4 × 10 + 5 × 1
= 80000 + 6000 + 0 + 40 + 5
= 86,045

ii) 4 × 10⁵ + 5 × 10⁴ + 3 × 10² + 2 × 10⁰
= 4 × 100000 + 0 × 10000 + 5 × 1000 + 3 × 100 + 0 × 10 + 2 × 1
= 400000 + 0 + 5000 + 3000 + 0 + 2
= 4,05,302

iii) 3 × 10⁴ + 7 × 10² + 5 × 10⁰
= 3 × 10000 + 0 × 1000 + 7 × 100 + 0 × 10 + 5 × 1
= 30000 + 0 + 700 + 0 + 5
= 30,705

iv) 9 × 10⁵ + 2 × 10² + 3 × 10¹
= 9 × 100000 + 0 × 10000 + 0 × 1000 + 2 × 100 + 3 × 10 + 0 × 1
= 900000 + 0 + 0 + 200 + 30 + 0
= 9,00,230

Q.3) Express the following numbers in standard form:
(i) 5,00,00,000 (ii) 70,00,000 (iii) 3,18,65,00,000
(iv) 3,90,878 (v) 39087.8 (vi) 3908.78
Sol.3) (i) 5,00,00,000 = 5 × 1,00,00,000 = 5 × 10⁷
(ii) 70,00,000 = 7 × 10,00,000 = 7 × 10⁶
(iii) 3,18,65,00,000 = 31865 × 100000
= 3.1865 × 10000 × 100000 = 3.1865 × 10⁹
(iv) 3,90,878 = 3.90878 × 100000 = 3.90878 × 10⁵
(v) 39087.8 = 3.90878 × 10000 = 3.90878 × 10⁴
(vi) 3908.78 = 3.90878 × 1000 = 3.90878 × 10³

Q.4) Express the number appearing in the following statements in standard form:
(a) The distance between Earth and Moon is 384,000,000 m.
(b) Speed of light in vacuum is 300,000,000 m/s. (c) Diameter of Earth id 1,27,56,000 m.
(d) Diameter of the Sun is 1,400,000,000 m. (e) In a galaxy there are on an average
100,000,000,0000 stars.
(f) The universe is estimated to be about 12,000,000,000 years old.
(g) The distance of the Sun from the centre of the Milky Way Galaxy is estimated to be
300,000,000,000,000,000,000 m.
(h) 60,230,000,000,000,000,000,000 molecules are contained in a drop of water weighing 1.8
gm.
(i) The Earth has 1,353,000,000 cubic km of sea water.
(j) The population of India was about 1,027,000,000 in march, 2001.
Sol.4) (a) The distance between Earth and Moon
= 384,000,000 m = 384 × 1000000 m
= 3.84 × 100 × 1000000 = 3.84 × 10⁸ m

(b) Speed of light in vacuum
= 300,000,000 m/s = 3 × 100000000 m/s
= 3 × 10⁸ m/s

(c) Diameter of the Earth
= 1,27,56,000 m = 12756 × 1000 m
= 1.2756 × 10000 × 1000 m = 1.2756 × 10⁷ m

(d) Diameter of the Sun
= 1,400,000,000 m = 14 × 100,000,000 m
= 1.4 × 10 × 100,000,000 m = 1.4 × 10⁹ m

(e) Average of Stars
= 100,000,000,000 = 1 × 100,000,000,000
= 1 × 10¹¹

(f) Years of Universe
= 12,000,000,000 years = 12 × 1000,000,000 years
= 1.2 × 10 × 1000,000,000 years = 1.2 × 10¹⁰ years

(g) Distance of the Sun from the center of the Milky Way Galaxy
= 300,000,000,000,000,000,000 m
= 3 × 100,000,000,000,000,000,000 m
= 3 × 10²⁰ m

(h) Number of molecules in a drop of water weighing 1.8 𝑔m
= 60,230,000,000,000,000,000,000 = 6023 × 10,000,000,000,000,000,000
= 6.023 × 1000 × 10,000,000,000,000,000,000 = 6.023 × 10²²

(i) The Earth has Sea water
= 1,353,000,000 km³ = 1,353 × 1000000 km³
= 1.353 × 1000 × 1000,000 km³ = 1.353 × 109 km³

(j) The population of India
= 1,027,000,000 = 1027 × 1000000
= 1.027 × 1000 × 1000000
= 1.027 × 10⁹