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Q: Which one of the following represent the binary equivalent of the decimal number 23?

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10111

The binary equivalent of the decimal number 23 is 10111. You can use an online converter to easily find this solution.

Neither of the following are true about 1 bit, it can not represent decimal values 0 and 9 nor can it be used to represent one character in the lowercase English alphabet and one binary digit four binary. A true statement would be that 1 bit is represented by the decimal values 0 or 1.

206 = 11001110

a) 6401 in Binary is 1100100000001b) 1010110 in decimal is 86

The binary equivalent of the decimal number 131 is 10000011.

The binary equivalent of the decimal number 14 is 00001110.

Decimal 4 is binary 100.

The decimal equivalent would be 14

11010000 is the equivalent binary representation of the decimal number 208.

If 1101 is a decimal number, then its binary equivalent is 10001001101. If 1101 is a binary number, then its decimal equivalent is 13.

The binary equivalent of the decimal number 47 is 101111.

The binary equivalent of the decimal number 245 is 11110101.

The binary number 10000000 represents the decimal 128

The binary equivalent of the decimal number 63 is 111111.

The decimal equivalent of the binary number 1111111111111111 is 65535.

231

3

Decimal(111111) = Binary(11011001000000111)

8 in decimal is 1000 in binary

6 bits 111110 = 32 + 16 + 8 + 4 + 2 + 0

The decimal equivalent of the binary number 10110000 is 176

Assuming the 00001001 is supposed to be in binary, the decimal equivalent is 9.

A binary decimal is another term for a bicimal, a decimal in base 2. The first digit after a radix point will be equivalent to a half, the second digit equivalent to a quarter, and so on.

All I know is that when a number is negative, you convert the decimal into binary and if it is negative you put 1111 before the binary digits.