The Value of Binary Numbers in Decimal

What are the decimal values of the following binary numbers represented in signed 2's complement: a. 0110 0111 b. 1001 0100 c. 0110 1001 d. 1111 1111?

a. 0110 0111 This binary number is positive because the leftmost bit is 0. So, the binary number is 0110 0111. Then, converting it into decimal: 0110 0111 = (2^6) + (2^5) + (2^1) + (2^0) = 64 + 32 + 2 + 1 = 98 Therefore, the value in decimal is 98. b. 1001 0100 This binary number is negative because the leftmost bit is 1. So, we need to calculate the 2's complement of this number as follows: Step 1: Take the 1's complement of the number, which means changing all 1's to 0's and all 0's to 1's. 1001 0100 -> 0110 1011 Step 2: Add 1 to the 1's complement of the number. 0110 1011 -> 0110 1100 Therefore, the 2's complement of 1001 0100 is 0110 1100. Then, converting it into decimal: 0110 1100 = -(2^6) + (2^5) + (2^4) + (2^3) + (2^1) = -64 + 32 + 16 + 8 + 2 = -6 Therefore, the value in decimal is -6. c. 0110 1001 This binary number is positive because the leftmost bit is 0. So, the binary number is 0110 1001. Then, converting it into decimal: 0110 1001 = (2^6) + (2^4) + (2^3) + (2^0) = 64 + 16 + 8 + 1 = 89 Therefore, the value in decimal is 89. d. 1111 1111 This binary number is negative because the leftmost bit is 1. So, we need to calculate the 2's complement of this number as follows: Step 1: Take the 1's complement of the number, which means changing all 1's to 0's and all 0's to 1's. 1111 1111 -> 0000 0000 Step 2: Add 1 to the 1's complement of the number. 0000 0000 -> 0000 0001 Therefore, the 2's complement of 1111 1111 is 0000 0001. Then, converting it into decimal: 0000 0001 = -(2^0) = -1 Therefore, the value in decimal is -1.

Understanding Binary Numbers in Signed 2's Complement

Signed 2's Complement: Signed 2's complement is a mathematical notation used to represent both positive and negative numbers in binary form. The leftmost bit in a binary number determines its sign - 0 for positive and 1 for negative.

Binary to Decimal Conversion:

The process of converting binary numbers to decimal involves assigning weights to each bit based on its position in the number. For positive numbers, the conversion is straightforward, while for negative numbers, the 2's complement is computed to obtain the correct decimal value. Positive Binary Numbers: When the leftmost bit of a binary number is 0, it indicates a positive number. The conversion to decimal is done by adding the weights of the 1 bits in the binary representation. Negative Binary Numbers: On the other hand, when the leftmost bit of a binary number is 1, it signifies a negative number. To find the decimal value of a negative binary number, the 2's complement operation is performed, which involves taking the 1's complement and then adding 1 to obtain the proper representation.

Conclusion:

Understanding how signed 2's complement works is essential in computing and representing both positive and negative numbers in binary format. By following the conversion process outlined above, you can accurately determine the decimal value of any binary number, whether it is positive or negative.
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