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Add the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0101100000 000010 + 0100010000 000011
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Add the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0110100000 000011 + 0101110000 000010
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Add the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0111100000 000010 + 0100110000 000011
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Add the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0111100000 000010 + 0101110000 000100
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Add the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0011100000 000100 + 0110110000 000010
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Subtract the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0111100000 000010 – 0100110000 000011
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Subtract the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0101100000 000100 – 0100110000 000010
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Subtract the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0111100000 000011 – 0100110000 000010
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Subtract the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0111000000 000001 – 0100110000 000011
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.
Subtract the following floating point 16 bit binary numbers of which 10 bits are the mantissa and 6 the exponent:
0100100000 000010 – 0100010000 000010
Present your answer as a normalised, two’s complement, 16 bit floating point binary number (10 bits for the mantissa and 6 bits for the exponent) without spaces.