Converting Gray Code to Binary1). Write down the number in gray code.2). The most significant bit of the binary number is the most significant bitof the gray code.3). Add (using modulo 2) the next significant bit of the binary number to thenext significant bit of the gray coded number to obtain the next binary bit.4). Repeat step 3 till all bits of the gray coded number have been added inmodulo 2. The resultant number is the binary equivalent of the gray number.Converting Binary to Gray Code1). Write down the number in binary code.2). The most significant bit of the gray number is the most significant bitof the binary code.3). Add (using modulo 2) the next significant bit of the binary number to thenext significant bit of the binary number to obtain the next gray coded bit.4). Repeat step 3 till all bits of the binary coded number have been added inmodulo 2. The resultant number is the gray coded equivalent of the binarynumber.
I assume you mean a binary representation of a number.The "least significant bit" (usually the one to the far right but in some languages it has another placement) is "ones"the next most significant bit are the twosThe third most significant bit are the foursetc.So if your number is 37there is one 32 (the sixth most significant bit)no 16's (the fifth most significant bit)no 8's (the fourth most significant bit)one 4 (the third most significant bit)no 2's (the second most significant bit)one 1 (the least most significant bit)if we are to fill an 8 bit "word " we get:0010 0101
720,720
The most significant byte (MSB) of a positive binary number is the decimal value of the left-most bit.For example, the binary number 10111001011 is 11 bits, meaning it's 11 digits long. Thus, the decimal value of the left-most bit, the MSB, is 1 X 210 = 1024. The reason why it's not 1 X 211 is that the decimal value of the right-most bit is represented by raising 2 to the 0th power, not the first power. In this case, the right-most bit has a decimal value of 1 X 20 = 1.
binary and hexadecimal
The decimal equivalent is 59 (base ten). You have the most significant digit is 2^5 = 32, so you have 32 + 16 + 8 + (0) + 2 + 1 = 59.
It could mean anything, depending on how you interpret it. But the most likely interpretation is that this is a binary number. If so, it is the binary representation of the base-10 number 170,784.
You can convert decimal to binary, and vice versa, with most scientific calculators. In Windows XP, open the calculator and set it to "Scientific". In Windows 7, set it to "Programmer". After doing this, select "Decimal", type in the number, and then select "Binary" to convert to binary.
binary numbers
You can convert from decimal to binary in most scientific calculators, including the one that comes with Windows. Set its mode to "Scientific" (in Windows XP) or to "Programmer" (in Windows 7), select decimal mode (it should already be selected, initially), type in the number, then select "Binary" to convert your number to Binary.
The least number of significant figures in any number of the problem determines the number of significant figures in the answer.
80.07749999999999