24, XXIV (Roman numerals) and 11000 (binary code).
16 = 24 so 162 = 10000
Assuming that the B at the end of the number indicates that the number is binary, it is 24.
No - it is not possible. There are four binary operations (*, /, +, -). A binary operations involves two inputs and one output. So each time you use a binary operation on a set of numbers you reduce the size of the set by one. Therefore, with four numbers, you can only use three binary operations. Using only three operations, it is trivially simple: 24 + (16 - 16)*13
To convert decimal to binary, and binary to decimal, you can use the calculator included in Windows. Up to Windows XP, select "scientific" mode; in Windows 7, select "programmer" mode. <><><><><> 2410 = 110002.
24, XXIV (Roman numerals) and 11000 (binary code).
(24)10 = ( 1 1 0 0 0 )2
If these are truly subtractions, then 514-34-24-18 = 438 which in binary is 111000000 and can be considered as a 9 bit signed binary number and translates to EBCDIC "-{" and if considered as an unsigned binary number it translates to EBCDIC "1{", may be this will give you a clue with respect to the context.
16 = 24 so 162 = 10000
Assuming that the B at the end of the number indicates that the number is binary, it is 24.
No - it is not possible. There are four binary operations (*, /, +, -). A binary operations involves two inputs and one output. So each time you use a binary operation on a set of numbers you reduce the size of the set by one. Therefore, with four numbers, you can only use three binary operations. Using only three operations, it is trivially simple: 24 + (16 - 16)*13
To convert decimal to binary, and binary to decimal, you can use the calculator included in Windows. Up to Windows XP, select "scientific" mode; in Windows 7, select "programmer" mode. <><><><><> 2410 = 110002.
36 hexadecimal and 24 binary sets.
Assuming the popular 2's complement is used, the range is from -24 to +24 - 1.
The binary values are 8 = 1000 14 = 1110 24 = 11000 In the binary number system, each digit represents an exponential value of 2, rather than of 10 in the decimal system. For five digit binary numbers, the digits represent 16, 8, 4, 2, and 1 8 = 01000 or 1000 (0 + 8 + 0 + 0 + 0) 14 = 01110 or 1110 (0 + 8 + 4 + 2 + 0) 24 = 11000 (16 + 8 + 0 + 0 + 0)
It would be 2^24 + 2^(24-1) and so on until 2^0 is reached. For those who dont care to do the math it is 29360127.
The most common binary word length for audio is 16-bit. Bit depths of 20- and 24-bit resolution are also commonly used.