Basic Math and Pre-Algebra For Dummies (3 page)

Part I

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In this part…

• See how the number system was invented and how it works
  
• Identify four important sets of numbers: counting numbers, integers, rational numbers, and real numbers
  
• Use place value to write numbers of any size
  
• Round numbers to make calculating quicker
  
• Work with the Big Four operations: adding, subtracting, multiplying, and dividing
  

Chapter 1

In This Chapter

Finding out how numbers were invented

Looking at a few familiar number sequences

Examining the number line

Understanding four important sets of numbers

One useful characteristic about numbers is that they're
conceptual,
which means that, in an important sense, they're all in your head. (This fact probably won't get you out of having to know about them, though — nice try!)

For example, you can picture three of anything: three cats, three baseballs, three cannibals, three planets. But just try to picture the concept of three all by itself, and you find it's impossible. Oh, sure, you can picture the numeral 3, but the
threeness
itself — much like love or beauty or honor — is beyond direct understanding. But when you understand the
concept
of three (or four, or a million), you have access to an incredibly powerful system for understanding the world: mathematics.

In this chapter, I give you a brief history of how numbers came into being. I discuss a few common
number sequences
and show you how these connect with simple math
operations
like addition, subtraction, multiplication, and division.

After that, I describe how some of these ideas come together with a simple yet powerful tool: the
number line.
I discuss how numbers are arranged on the number line, and I also show you how to use the number line as a calculator for simple arithmetic. Finally, I describe how the
counting numbers
(1, 2, 3, ...) sparked the invention of more unusual types of numbers, such as
negative numbers, fractions,
and
irrational numbers.
I also show you how these
sets of numbers
are
nested
— that is, how one set of numbers fits inside another, which fits inside another.

Historians believe that the first number systems came into being at the same time as agriculture and commerce. Before that, people in prehistoric, hunter-gatherer societies were pretty much content to identify bunches of things as “a lot” or “a little.”

But as farming developed and trade between communities began, more precision was needed. So people began using stones, clay tokens, and similar objects to keep track of their goats, sheep, oil, grain, or whatever commodity they had. They exchanged these tokens for the objects they represented in a one-to-one exchange.

Eventually, traders realized that they could draw pictures instead of using tokens. Those pictures evolved into tally marks and, in time, into more complex systems. Whether they realized it or not, their attempts to keep track of commodities led these early humans to invent something entirely new:
numbers
.

Throughout the ages, the Babylonians, Egyptians, Greeks, Romans, Mayans, Arabs, and Chinese (to name just a few) all developed their own systems of writing numbers.

Although Roman numerals gained wide currency as the Roman Empire expanded throughout Europe and parts of Asia and Africa, the more advanced system that the Arabs invented turned out to be more useful. Our own number system, the Hindu–Arabic numbers (also called decimal numbers), is closely derived from these early Arabic numbers.

Although humans invented numbers for counting commodities, as I explain in the preceding section, they soon put them to use in a wide range of applications. Numbers were useful for measuring distances, counting money, amassing an army, levying taxes, building pyramids, and lots more.

But beyond their many uses for understanding the external world, numbers have an internal order all their own. So numbers are not only an
invention,
but equally a
discovery:
a landscape that seems to exist independently, with its own structure, mysteries, and even perils.

One path into this new and often strange world is the
number sequence:
an arrangement of numbers according to a rule. In the following sections, I introduce you to a variety of number sequences that are useful for making sense of numbers.

One of the first facts you probably heard about numbers is that all of them are either even or odd. For example, you can split an even number of marbles
evenly
into two equal piles. But when you try to divide an odd number of marbles the same way, you always have one
odd,
leftover marble. Here are the first few even numbers:

2    4    6    8    10    12    14    16 ...

You can easily keep the sequence of even numbers going as long as you like. Starting with the number 2, keep adding 2 to get the next number.

Similarly, here are the first few odd numbers:

1  3    5   7    9   11  13  15 ...

The sequence of odd numbers is just as simple to generate. Starting with the number 1, keep adding 2 to get the next number.

Patterns of even or odd numbers are the simplest number patterns around, which is why kids often figure out the difference between even and odd numbers soon after learning to count.

When you get used to the concept of counting by numbers greater than 1, you can run with it. For example, here's what counting by threes, fours, and fives looks like:

Threes: 3     6      9    12    15    18    21   24 ...

Fours:  4     8     12    16    20    24    28    32 ...

Fives:   5    10    15    20    25    30    35    40 ...

 Counting by a given number is a good way to begin learning the multiplication table for that number, especially for the numbers you're kind of sketchy on. (In general, people seem to have the most trouble multiplying by 7, but 8 and 9 are also unpopular.) In Chapter
3
, I show you a few tricks for memorizing the multiplication table once and for all.

These types of sequences are also useful for understanding factors and multiples, which you get a look at in Chapter
8
.

When you study math, sooner or later, you probably want to use visual aids to help you see what numbers are telling you. (Later in this book, I show you how one picture can be worth a thousand numbers when I discuss geometry in Chapter
16
and graphing in Chapter
17
.)

The tastiest visual aids you'll ever find are those little square cheese-flavored crackers. (You probably have a box sitting somewhere in the pantry. If not, saltine crackers or any other square food works just as well.) Shake a bunch out of a box and place the little squares together to make bigger squares. Figure 
1-1
shows the first few.

Voilà! The square numbers:

1  4    9  16    25    36    49   64 ...

 You get a
square number
by multiplying a number by itself, so knowing the square numbers is another handy way to remember part of the multiplication table. Although you probably remember without help that 2 × 2 = 4 you may be sketchy on some of the higher numbers, such as 7 × 7 = 49. Knowing the square numbers gives you another way to etch that multiplication table forever into your brain, as I show you in Chapter
3
.