QUESTION 25:
Find the pure binary representation of the following decimal value: You DO NOT need to convert to any IEEE standard representation 4 + (5 / 16) OR (4.3125)
Answer : 100.0101
Decimal Conversion:
Note : Please comment below if you have concerns. I am here to help you
If you like my answer please rate and help me it is very Imp for me
QUESTION 25: Find the pure binary representation of the following decimal value: You DO NOT need...
Question 19 In representing the decimal number 11/8 in IEEE 754 representation, the 8-bit binary value of the exponent plus bias for single precision is 01111111 01111110 01111101 10000000 Question 13 In representing the decimal number 11/8 in IEEE 754 representation, the 23-bit binary value of the fraction for single precision is 110 0000 0000 0000 0000 0000 111 0000 0000 0000 0000 0000 100 0000 0000 0000 0000 0000 011 0000 0000 0000 0000 0000 Question 12 The point...
. 2.1 a. Find the 16-bit 2’s complementary binary representation for the decimal number 1987. b. Find the 16-bit 2’s complementary binary representation for the decimal number −1987. What are the 16-bit 1’s and 2’s complements of the following binary numbers? a. 10000 b. 100111100001001 Convert the decimal number 19557 to floating point. Use the format SEEMMMM. All digits are decimal. The exponent is stored excess-40 (not excess-50). The implied decimal point is at the beginning of the mantissa. The sign...
2.1 a. Find the 16-bit 2’s complementary binary representation for the decimal number 1987. b. Find the 16-bit 2’s complementary binary representation for the decimal number −1987. What are the 16-bit 1’s and 2’s complements of the following binary numbers? c. 10000 d. 100111100001001 Convert the decimal number 19557 to floating point. Use the format SEEMMMM. All digits are decimal. The exponent is stored excess-40 (not excess-50). The implied decimal point is at the beginning of the mantissa. The sign...
Consider the following 32 bit binary representation of the value using IEEE 754 single precision floating point representation. Show the corresponding signed number in decimal. 01000001001010100000000000000000
Why do computers use the binary number system instead of the decimal number? Convert 43_10 to binary and hexadecimal. Convert 100111_2 to hexadecimal and decimal Convert 110101_2 to its 2's complement representation. What is the largest Hex value that can be moved into 8-bit register 16-bit register What are the decimal equivalents of these Hex values?
Convert the following numbers from binary to decimal, assuming nine-bit two’s complement binary representation: 1 0110 1010
Q1) Convert the following negative decimal numbers to 8 bit binary using the 2’s complement (show the steps): a) -39 b) -127 Q2) Solve the following subtraction problems using 2's complement representation. (Show the steps using 8-bits) a) 19 – 87 b) 89 – 5 Q3) Convert the following numbers into scientific notation: (Note: to show ten raised to the power of n, you can type as 10^n) a) 654.345 b) 0.000000324235 c) 25600000000000 Q4) Convert the following numbers out...
QUESTION 1 Convert 1 0110 1010 from binary to decimal, assuming nine-bit two's complement binary representation. Provide only the number. For a negative number provide the negative sign. Example 79 NOT +79 or 78 Decimal Example -79 NOT negative 79 or -79 Decimal QUESTION 2 Count the next 10 numbers in base 5 starting after 3434. (Don't include 3434) Provide you answer with only numbers and spaces. No extra spaces or words Example 410 411 412 NOT 410, 411, 412
Convert the following two's domplement binary numbers to decimal. 100101 -5 27 -27 Question 2 (4 points) Convert the following two's complement binary numbers to decimal. 100011 -29 36 -3 28 Question 3 (4 points) Convert the following decimal numbers to 6-bit two's complement binary numbers and add them. Indicate whether or not the sum overflows a 6-bit result. 011001+011011 110100; no overflow 100111 100101-001100; overflovw 100110 100100 001010; overflow 100111 + 100101 -001100; no overflow Question 4 (4 points)...
16. Convert the following decimal numbers to their binary equivalent: a. 34.75 b. 27.1875 17. Express the following numbers in IEEE 32-bit floating-point format: a. -6 b. -1.5