SUMMARY - Continued

1-63 The BINARY NUMBER SYSTEM is a base 2 system. The symbols 1 and 0 can be used to represent the state of electrical/electronic devices. A binary 1 may indicate the device is active; a 0 may indicate the device is inactive. The OCTAL NUMBER SYSTEM is a base 8 system and is quite useful as a tool in the conversion of binary numbers. This system works because 8 is an integral power of 2; that is, 2³ = 8. The use of octal numbers reduces the number of digits required to represent the binary equivalent of a decimal number. The HEX NUMBER SYSTEM is a base 16 system and is sometimes used in computer systems. A binary number can be converted directly to a base 16 number if the binary number is first broken into groups of four digits. The basic rules of ADDITION apply to each of the number systems. Each system becomes unique when carries are produced. SUBTRACTION in each system is based on certain rules of that number system. The borrow varies in magnitude according to the number system in use. In most computers, subtraction is accomplished by using the complement (R’s or R’s-1) of the subtrahend and adding it to the minuend. To CONVERT A WHOLE BASE 10 NUMBER to another system, divide the decimal number by the base of the number system to which you are converting. Continue dividing the quotient of the previous division until it can no longer be done. Extract the remainders ž the remainder from the first computation will yield the LSD; the last will provide the MSD.