It appears that only single digit numbers work (0 thru 9)
No - octal numbers use only the digits 0-7.
In Excel, the function is Round(number, num_digits) wherenumber is the number that you want to round,andnum_digits is the number of digits after the decimal point that you want.If num_digits < 0 then the number is rounded to that many digits to the left of the decimal point.
Perhaps you mean an automorphic number? Loop through a series of numbers - for example, all numbers from 1 to 10,000 - and check each of the numbers, whether the condition applies. The condition in this case is that if you square the number, the last digits represent the original number.
C. 6
Assuming you're asking about IEEE-754 floating-point numbers, then the three parts are base, digits, and exponent.
Any prime numbers of about 66 or 67 digits will do.
yes
9x8x7x6x5x4x3x2x1 or 9! which equals 362880 possible combinations if no digits are repeated
Digits is how many numbers you have in a number. If you have the number 4 it has one digit if you have the number 20 it has two digits and if you have the number 558 it has three digits. So basically in the number 1085 it has 4 digits because there is 4 numbers in it, the numbers are 1,0,8 and 5. Hoped you understand.
Armstrong numbers are the sum of their own digits to the power of the number of digits.
roman numbers............
In the numbers 1-9 each number has 1 digit and there are 9 of them, so that's 9.In 10-99 each number has 2 digits, and there are 90 of them: 2x90 = 180There are 900 three digit numbers [100 through 999]: 2700 digits.There are 9000 four digit numbers: 36000 digits.90,000 numbers with five digits: 450,000 digits.900,000 numbers with six digits: 5,400,000 digits.Then 1 number with seven digits: 7 digits.Add them up and you have 5,888,896 digits.
If the sum of the digits of a given number equals nine or a multiple of nine, nine is a factor of that number.
3.14 has a finite number of digits. All numbers with a finite number of digits are rational. Pi has an infinite number of digits, AND the digits don't repeat in a regular pattern. (Numbers with repeating decimals are rational as well.)
A number with 22 DIGITS (not numbers) is of the order of a sextillion.
The significant digits in a number can be arbitrarily small or large in number, according to the method of creating them.Numbers that can have an infinite number of possible significant digits are called transcendental numbers.
the number one.