"Taking a cube" is the same basic procedure, whether it's a one-digit number, a three digit number, a complex number, a square matrix, or anything else you can multiply. Taking the cube simply means, multiply the number by itself, in such a way that it appears three times as a factor. For example, if your three-digit number is 235, you calculate the cube as 235 x 235 x 235.
You multiply it by itself twice.
Multiply the number by itself. Multiply that total by the number.
find the diagonal method of two digit number and three digit number
6859. Cube root of 9999 is 21.54, so find the largest prime number less than that (19), then cube that number. 19^3=6,859
592704 is the cube of 84. You can find the cube of any number by multiplying the number three times that is - 84 x 84 x 84.
Is this exactly how the problem was written?
Easily put any number with a single odd number 1,3,5,7,9 in a three digit number. Like 113 the 3 and 1 makes it odd number or 223 the three makes it odd.
160 and 192.
well, according to boohbahs, i think the 3 digit number they'd like to be in is 101!
To find the cube root of a number, enter the number followed by ^(1/3).To find the cube root of a number, enter the number followed by ^(1/3).To find the cube root of a number, enter the number followed by ^(1/3).To find the cube root of a number, enter the number followed by ^(1/3).
The same way you find the cube of any other number. Multiply, using the same number three times as a factor. In this case: 0.5 x 0.5 x 0.5.
27
N squared would be used to find the square root of a number or numbers. In order to find the number of three digit numbers such that the sum of the square results of any two digits are equal to the third digit the use of the formula (HOE)squared=Hsquared*10000+2HE*100+Esquared is needed.
Assuming you are rounding to the nearest 10, and not, for example, the nearest 220, the number you are looking for is 438.