Complementary Subtraction

1-19 Q18. Subtract: Q19. Subtract: Q20. Subtract: Complementary Subtraction If you do any work with computers, you will soon find out that most digital systems cannot subtractžthey can only add. You are going to need a method of adding that gives the results of subtraction. Does that sound confusing? Really, it is quite simple. A COMPLEMENT is used for our subtractions. A complement is something used to complete something else. In most number systems you will find two types of complements. The first is the amount necessary to complete a number up to the highest number in the number system. In the decimal system, this would be the difference between a given number and all 9s. This is called the nines complement or the radix-1 or R’s-1 complement. As an example, the nines complement of 254 is 999 minus 254, or 745. The second type of complement is the difference between a number and the next higher power of the number base. As an example, the next higher power of 10 above 999 is 1,000. The difference between 1,000 and 254 is 746. This is called the tens complement in the decimal number system. It is also called the radix or R’s complement. We will use complements to subtract. Let’s look at the magic of this process. There are three important points we should mention before we start: (1) Never complement the minuend in a problem, (2) always disregard any carry beyond the number of positions of the largest of the original numbers, and (3) add the R’s complement of the original subtrahend to the original minuend. This will have the same effect as subtracting the original number. Let’s look at a base ten example in which we subtract 38 from 59: