Binary to hexadecimal is very easy because hexadecimal numbers are designed specifically so that each hex digit is exactly 4 bits (i.e. 16 different values). So if you had this binary number:
binary: 100011011011110101000100001
You could put in commas every four places (starting on the left):
binary: 100,0110,1101,1110,1010,0010,0001
Then you could write the hex values immediately below:
binary: 0100,0110,1101,1110,1010,0010,0001
hex: 4 6 D E A 2 1
and the hex value would be 46DEA21.
Assuming the original was in binary, the answer is 36.A
ABCD1 = 10101011110011010001
It is CEF0.
58880 cannot be binary. Please check the base for 58880 and then what base you want to convert it to and then resubmit.
Because - Hex is an exact multiple of binary - whereas decimal numbers need to be converted from base 10 to base 2.
The answer depends on what you are converting from: binary, ternary, octal, hexadecimal ...
Assuming the original was in binary, the answer is 36.A
Okay, I'm pretty sure that 864 binary is 30 hexadecimal. - RG
The answer depends on what form you wish to convert binary and hex 2011 to.
4F7B: Binary = 100111101111011 Decimal = 20347
Octal = 52746757 Binary = 101010111100110111101111
The binary equivalent of the hexadecimal number EF16 is 1110111100010110.
ABCD1 = 10101011110011010001
01
It is CEF0.
It is used because it is easier to convert to and from binary to hexadecimal than decimal, and it uses less characters than binary. For instance: decimal: 65535 hex: FFFF binary: 1111111111111111
In order to convert binary to hexadecimal using assembly language, the programmer must possess an understanding on boolean algebra or binary system in other words. A compiler is also needed to complete the program.