For the decimal number system . . . 'Ten'.
For the binary number system . . . 'Two'
For the octal number system . . . 'Eight'
For the hexidecimal number system . . . 'Sixteen'
.
.
etc.
The number system we commonly used, known as the decimal system, has 10 digits (0 to 9). It is possible to use other number systems, with a different number of digits. Any numbering system based on the same principle (the principle of place-value) must use 2 or more digits.
yes,number system contains digits..
The binary system uses the digits 0 and 1
The digits in a base-4 number system are 0, 1, 2, and 3 .
In the decimal system, 10 times. In another system, where the base is x, it would be x times.
The number system we commonly used, known as the decimal system, has 10 digits (0 to 9). It is possible to use other number systems, with a different number of digits. Any numbering system based on the same principle (the principle of place-value) must use 2 or more digits.
yes,number system contains digits..
The traditional number system is called a positional number system. A number is represented as a string of digits. Each digit position has a weight assoc. with it. Number's value = a weighted sum of the digits
If you mean a number system analogous (similar) to our decimal system, the base for such a number system can be any integer, 2 or greater. In other words, the base can be 2, 3, 4, 5, etc. You need as many different digits as the size of the base (decimal is in base 10, so you need 10 different digits).
For example, the decimal system we commonly use uses base ten. This means that each position (place-value) is worth ten times more than the position to the right of it. It also means that ten different digits are needed (0-9).
There are 10 digits in our number system. The symbols 0,1,2,3,4,5,6,7,8,and 9 are the digits used to create numbers.
The answer depends on what "this" system is!
There are two digits in the binary number system. 0 and 1
3
The required number of digits for an employee ID number varies depending on the company's system, but it is typically between 4 to 8 digits.
In the non positional number system, the value of the number does not depend upon the position of "digits" used to represent the number. Unlike the positional number system, in non positional system every number, as a whole, is represented as a combination of certain specific symbols. Therefore, according to me, there is no such a notion of "digits" in the non positional system. The classic example of non positional number system is the Roman number system in which the numbers are represented by certain specific symbols: I for 1 II for 2 X for 10 XX for 20 etc.
The number system they used back them is the sexagesimal system. Our system has 10 digits from 0 to 9. So they used a system with 60 digits. That's why it is called a sexagesimal system. So make that a 60 for the Babylonian number.