Advertisements
Advertisements
Question
Find the cube root of the following rational number 0.001728 .
Solution
We have:
\[0 . 001728 = \frac{1728}{1000000}\]
∴ \[\sqrt[3]{0 . 001728} = \sqrt[3]{\frac{1728}{1000000}} = \frac{\sqrt[3]{1728}}{\sqrt[3]{1000000}}\]
Now
On factorising 1728 into prime factors, we get:
\[1728 = 2 \times 2 \times 2 \times 2 \times 2 \times 2 \times 3 \times 3 \times 3\]
On grouping the factors in triples of equal factors, we get:
\[1728 = \left\{ 2 \times 2 \times 2 \right\} \times \left\{ 2 \times 2 \times 2 \right\} \times \left\{ 3 \times 3 \times 3 \right\}\]
Now, taking one factor from each triple, we get:
\[\sqrt[3]{1728} = 2 \times 2 \times 3 = 12\]
Also
\[\sqrt[3]{1000000} = \sqrt[3]{100 \times 100 \times 100} = 100\]
∴ \[\sqrt[3]{0 . 001728} = \frac{\sqrt[3]{1728}}{\sqrt[3]{1000000}} = \frac{12}{100} = 0 . 12\]
APPEARS IN
RELATED QUESTIONS
Find the cube root of the following rational number \[\frac{10648}{12167}\] .
Find the cube root of the following rational number 0.001 .
Evaluate of the following
\[\sqrt[3]{27} + \sqrt[3]{0 . 008} + \sqrt[3]{0 . 064}\]
Evaluate of the following
\[\sqrt[3]{\frac{729}{216}} \times \frac{6}{9}\]
Evaluate of the following
\[\sqrt[3]{1000} + \sqrt[3]{0 . 008} - \sqrt[3]{0 . 125}\]
Find the cube of:16
Which of the following are cubes of an odd number
216, 729, 3375, 8000, 125, 343, 4096 and 9261.
Ones digit in the cube of 38 is ______.
Find the length of each side of a cube if its volume is 512 cm3.
Evaluate:
`{(5^2 + (12^2)^(1/2))}^3`
