0.12
Octal numbers are in the range 0 to 7. Since 111 binary is 7 decimal, every three bits in a binary number can be directly converted to a single octal digit. Thus the 9-bit binary number 101011100 can be split into three groups of three bits, 101 011 100, each of which can be converted to octal, 5 3 4, making the octal representation 5348. If a binary number is not an exact multiple of 3 bits, pad with zeroes until it is. Note that all bases that are a power of 2 are directly related to binary. A single base-4 digit represents two binary digits, while a base-8 digit represents three bits, base-16 every four bits, and so on.
It would be a 30 second seminar. All that you need to translate Binary to Octal is take the binary number and group it into 3 bit groups starting with the LSB and assign the groups their equivlant Octal number. Binary = Octal 000 = 0 001 = 1 010 = 2 011 = 3 100 = 4 101 = 5 110 = 6 111 = 7 Example: 10100010111010011100001110110012 1 010 001 011 101 001 110 000 111 011 0012 = 121351607318 ...so 10100010111010011100001110110012 = 121351607318 If you were going to talk about translating between different numbering systems, you could put together a pretty nice seminar. Allowing for questions would be nice. Whatever you end up putting together, you have to stress the importance of Zero (0). It is the most important number in the translating from one numbering system to another, because it is the absolute starting point in all numbering systems. It is also the only common symbol in all numbering systems. Without the symbol for nothing, there would be no common reference point for conversion.
The octal (base-8) system of notation uses eight symbols, 0, 1, 2, 3, 4, 5, 6 and 7, rather than the ten symbols we use in decimal. We denote an octal number by prefixing it with "oct:" or by postfixing 8 to differentiate it from decimal notation (formally prefixed with "dec:" or postfixed with 10). In decimal, each position represents an increasing power of 10, with the units position on the right. In octal, each position is an increasing power of 8. Thus 108 is decimal 1x81 which is 810, while 1008 is decimal 1x82, which is 6410. Octal is typically used as shorthand method of denoting binary numbers (base-2) where each octal digit represents a group of 3 binary digits (bits), because 3 bits have 8 different combinations, including 000. Thus: 0002 = 08 0012 = 18 0102 = 28 0112 = 38 1002 = 48 1012 = 58 1102 = 68 1112 = 78 Thus a longer binary number such 11001110 can be split into 3 groups of three (with an implied leading zero): (0)11 001 110 Translating each of these groups into octal we get 3, 1 and 6, which can be combined to form 3168. In decimal this means (3x82) + (1x81) + (6x80) which is 20610. Thus, 110011102 = 3168 = 20610. Hexadecimal, base-16, allows us to do the same thing, except the bits are grouped in groups of 4 rather than 3. This is easier to work with because a byte is 8 bits, thus a byte can be represented in 2 hexadecimal digits (where each digit represent a nybble, or half a byte). The symbols used in hexadecimal are: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, A, B, C, D, E and F. 110011102 is therefore CE16, which means (12x161) + (14x160), which as we already know is 20610. Therefore, 110011102 = 3168 = 20610 = CE16.
The answer depends on the units used for 0012. It should be clear to anybody that 0012 kilometres converted to centimetre will be different from 0012 micrometres!
2 of them.
.0012
percentage = 0.12%= 0.0012 * 100%= 0.12%
0012 0001 0015
Twelve ten thousands
NACA 0012 with modifications?
212-566-0012
3.0 v6 - in .0010-.0024 ex .0012-.0026 4.0 v6 - in .0012-.0024 ex .0016-.0028
The phone number of the Bedford is: 718-623-0012.
The country code for the USA is +1 so you dial 00 1 then the ten-digit American phone number. For example, (313) 555 0012 would be dialled from the UK as 00 1 313 555 0012.
The address of the Sheldon Public is: 1640 Main St., Sheldon, 05483 0012