Advertisements
Advertisements
प्रश्न
Find the cube root of the following integer −32768 .
Advertisements
उत्तर
We have: \[\sqrt[3]{- 32768} = - \sqrt[3]{32768}\]
To find the cube root of 32768, we use the method of unit digits.
Let us consider the number 32768.
The unit digit is 8; therefore, the unit digit in the cube root of 32768 will be 2.
After striking out the units, tens and hundreds digits of the given number, we are left with 32.
Now, 3 is the largest number whose cube is less than or equal to 32 (\[3^3 < 32 < 4^3\]).
Therefore, the tens digit of the cube root 32768 is 3.
∴ \[\sqrt[3]{32768} = 32\]
⇒ \[\sqrt[3]{- 32768} = - \sqrt[3]{32768} = - 32\]
APPEARS IN
संबंधित प्रश्न
Find the smallest number by which the following number must be multiplied to obtain a perfect cube.
72
Which of the following is perfect cube?
3087
What is the smallest number by which the following number must be multiplied, so that the products is perfect cube?
7803
Write true (T) or false (F) for the following statement:
If a2 ends in 9, then a3 ends in 7.
Write true (T) or false (F) for the following statement:
If a2 ends in 5, then a3 ends in 25.
Show that:
\[\frac{\sqrt[3]{- 512}}{\sqrt[3]{343}} = \sqrt[3]{\frac{- 512}{343}}\]
Find the units digit of the cube root of the following number 226981 .
Find the cube-root of -2744000
Find the cube-root of `(729)/(-1331)`
Find two smallest perfect square numbers which when multiplied together gives a perfect cube number
