To the best of my knowledge (which is not completely inconsiderable), there is only one binary number system. That is the system in which each place is worth twice that of the preceding place, starting at 1. A 1 will count the place, a 0 will not. You may have meant how many number system are there 'like' the binary system, that is to say, how many number system are there which, like the binary system, do not use 10 digits. The answer to that is an infinite number. Binary is only special in that it uses the least possible number of digits. Our normal system (decimal) uses 10 digits (0-9). A number system can be made which uses any number of digits. The only three that I know of which are commonly used are the following. Decimal is our normal day to day number system with the digits 0-9. Binary is the number system used by computers and has only two digits, 0 and 1. Hexadecimal is a number system used by programs and has 16 digits, 0-f (that is, it uses 0-9 like normal, but continues by replacing "10" with "a", "11" with "b" and so on, up to "15" with "f"). To look into this more fully, they're called bases. Binary is base 2, decimal is base 10, and hexadecimal is base 16.
You can look it up (00010110) or convert each numeral to binary individually. 11111111 is 255 decimal and is the largest number expressible with 8 binary digits.
The binary operator ~ is reflexive if a ~ a for every element a in the relevant set.
what do 100.mill look like in number
Following Richard Dedekind's definitions of numbers, it looks like a whole lot of intervals on the number line, each one stretching to negative infinity.
To the best of my knowledge (which is not completely inconsiderable), there is only one binary number system. That is the system in which each place is worth twice that of the preceding place, starting at 1. A 1 will count the place, a 0 will not. You may have meant how many number system are there 'like' the binary system, that is to say, how many number system are there which, like the binary system, do not use 10 digits. The answer to that is an infinite number. Binary is only special in that it uses the least possible number of digits. Our normal system (decimal) uses 10 digits (0-9). A number system can be made which uses any number of digits. The only three that I know of which are commonly used are the following. Decimal is our normal day to day number system with the digits 0-9. Binary is the number system used by computers and has only two digits, 0 and 1. Hexadecimal is a number system used by programs and has 16 digits, 0-f (that is, it uses 0-9 like normal, but continues by replacing "10" with "a", "11" with "b" and so on, up to "15" with "f"). To look into this more fully, they're called bases. Binary is base 2, decimal is base 10, and hexadecimal is base 16.
You will need to look up the ASCII numbers for each letter, then convert those number to binary. The word "Denny" in binary is: 0100010001100001011011100110111001111001
You can look it up (00010110) or convert each numeral to binary individually. 11111111 is 255 decimal and is the largest number expressible with 8 binary digits.
When two stars appear to be one from Earth's perspective, they are called a binary star system. Although they may look like a single point of light, a binary star system actually consists of two stars that are held together by their mutual gravitational attraction as they orbit around a common center of mass.
The hexadecimal system is a base 16 system, just as binary is base 2 and decimal is base 10. The same way that a binary system is more practical for hardware and software implications, hexadecimal is great for easy viewing of binary numbers. It's a lot easier, in the opinion of most, to look at 1FE4 than it is to get the same information as quickly from 0001111111100100. Hexadecimal numbers can also be easily converted to the seven segment display commonly used on electric signs and scoreboards to display numbers and some letters.
An 8 bit binary code is a code that is 8 digits long. It would look like this: 00110010
You need to separate the binary number into groups of 4 binary digit (starting from the right); then you look up each group in a conversion table. In this case, the separation is:0010 0000 So in hexadecimal, that would be: 20
Electric is easier and faster then mechanical processing, Your question does not give much information but look into Binary, Dont look into computers, Binary is a counting system like our counting system decimal (0,1,2..,9,10,11,12...,19,20,21 ect). We use binary as it is base 2, And electric can have two states, on or off (1 or 0). To use decimal we would need to be able have 10 different values.
The binary operator ~ is reflexive if a ~ a for every element a in the relevant set.
If you mean the character 'a', it has ANSI code 65 decimal therefore it will be 01000001 in binary, which is 0x41 in hex or 101 in octal.
If by normalise you mean convert to decimal it will really depend on the number. Binary using a number scale of 2 which means when you have a number say 10 in binary this would be 1010. If we look at the a section of the binary scale it would look like this 32 16 8 4 2 1 which is 2^5 2^4 2^3 2^2 2^1 2^0 converting to binary you must start with the highest number you can put into binary, in this case it was 8 so we have one 8 so the next number that we have to try is 4 well 4 can't go into 2 with the outcome being a whole number so we have zero 4 next is 2 well two goes into 2 once so we have one 2 and we have 0 left so 1 goes into zero 0 times. Or you could use the scientific calculator on the computer
No, the Sun is not part of a binary star system. It is a single star located at the center of our solar system, around which planets orbit.