EXPONENTS AND POWERS 261
- Express each of the following as a product of prime factors only in exponential form:
(i) 108 × 192 (ii) 2 7 0 (iii) 729 × 64
(iv) 768 - Simplify:
(i)
532
3
27
87
(ii)
25 5
10
28
34
××
×
t
t
(iii)
55
75
310 25
56
13.5 DECIMAL NUMBER SYSTEM
Let us look at the expansion of 47561, which we already know:
47561 = 4 × 10000 + 7 × 1000 + 5 × 100 + 6 × 10 + 1
We can express it using powers of 10 in the exponent form:
Therefore, 47561 = 4 × 10^4 + 7 × 10^3 + 5 × 10^2 + 6 × 10^1 + 1 × 10^0
(Note 10,000 = 10^4 , 1000 = 10^3 , 100 = 10^2 , 10 = 10^1 and 1 = 10^0 )
Let us expand another number:
104278 = 1 × 100,000 + 0 × 10,000 + 4 × 1000 + 2 × 100 + 7 × 10 + 8 × 1
= 1 × 10^5 + 0 × 10^4 + 4 × 10^3 + 2 × 10^2 + 7 × 10^1 + 8 × 10^0
= 1 × 10^5 + 4 × 10^3 + 2 × 10^2 + 7 × 10^1 + 8 × 10^0
Notice how the exponents of 10 start from a maximum value of 5 and go on decreasing
by 1 at a step from the left to the right upto 0.
13.6 EXPRESSING LARGE NUMBERS IN THE STANDARD FORM
Let us now go back to the beginning of the chapter. We said that large numbers can be
conveniently expressed using exponents. We have not as yet shown this. We shall do so now.
- Sun is located 300,000,000,000,000,000,000 m from the centre of our Milky Way
Galaxy. - Number of stars in our Galaxy is 100,000,000,000.
- Mass of the Earth is 5,976,000,000,000,000,000,000,000 kg.
These numbers are not convenient to write and read. To make it convenient
we use powers.
Observe the following:
59 = 5.9 × 10 = 5.9 × 10^1
590 = 5.9 × 100 = 5.9 × 10^2
5900 = 5.9 × 1000 = 5.9 × 10^3
5900 = 5.9 × 10000 = 5.9 × 10^4 and so on.
TRY THESE
Expand by expressing
powers of 10 in the
exponential form:
(i) 172
(ii) 5,643
(iii) 56,439
(iv) 1,76,428