0101 0011 = 101 0011. 3. Map the unsigned binary number's digits versus the corresponding powers of 2 that their place value represent: 26. 1. 25. 0. 24. 1. 23.
Decimal: 3 2 5 Binary: 0011 0010 0101 so 325 = 0011 0010 0101
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0000 0001 0010 0011 0100 0101
The way I convert between decimal and hexadecimal is to first convert the decimal number to binary: 664062510 = 110010101010011111100012 Then split the binary number into 16-bit (4 digit) chunks: 0110 0101 0101 0011 1111 00012 Next, convert each chunk into a hexadecimal digit: 0110 0101 0101 0011 1111 00012 6 5 5 3 F 1 Finally, put all the digits together: 664062510 = 6553F116
1110 0101 1101 1011 is E5DB
Add the binary equivalent of 3 (0011) to each digit of the number in binary format. Ex: 1. Excess-3 of 6 is 0110(6) + 0011(3)= 1001(9) 2. Excess-3 of 12 is 0001 0010 + 0011 0011 = 0100 0101 (45)
It is simplest to convert each hexadecimal digit into its 4-digit binary equivalent. So: 5 = 0101 A = 1010 3 = 0011 4 = 0100 F = 1111 6 = 0101 So, the binary equivalent is 10110100011010011110101.
The answer is 1 0101 0111 1110 1011 1011 0011 1111 1010 0001 0111
What is the product of the binary numbers 0101 and 0101?
0101 0011 (2) = 53 (16) which in BCD means 53
A 4 BCD code is a 4 decimal-digit BCD code, thus a 16 digit binary-code. You take the decimal number 3545. It's BCD code is 0011 0101 0100 0101 where every 4 bits represent a decimal digit.
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