Problems like $(-2) + (-3) = -5$ and $\,(-3) + 5 = 2\,$ are easy for some people and hard for others. If they're easy for you, then try a few problems below, and then jump right to the exercises.
Otherwise, read on—and keep in mind that explaining something simple, in words, often ends up sounding very complicated!
This exercise was conceptualized and contributed to by Robert Fant, Technology Integration Enthusiast. Thanks, Robert!
The phrase signed numbers refers to numbers that can be either positive (like $\,5\,$) or negative (like $\,-5\,$). That is, signed numbers are allowed to have a minus sign.
Every real number can be interpreted in two ways:
The number $\,3\,$ can mean: go to position $\,3\,$ on the number line.
The number $\,-3\,$ can mean: go to position $\,-3\,$ on the number line.
Positive numbers can indicate movement to the right. For example, $\,3\,$ can mean: move $\,3\,$ units to the right.
Negative numbers can indicate movement to the left. For example, $\,-3\,$ can mean: move $\,3\,$ units to the left.
When you add a negative number, you should put it in parentheses, unless it comes first. For example, the sum of $\,-3\,$ and $\,-1\,$ should be written as $\,-3 + (-1)\,.$
(Recall that the word sum refers to an addition problem.) If you want, you can optionally put that first negative number in parentheses, too: $\,(-3) + (-1)$.
Every number has a size (its distance from zero). Every nonzero number has a sign (positive or negative).
For example:
The number $\,3\,$: its size is $\,3\,,$ and its sign is positive.
The number $\,-3\,$: its size is $\,3\,,$ and its sign is negative.
In the movement interpretation of a real number, the size tells us how far to move, and the sign tells us which direction to move.
Now we're ready to combine the position and movement ideas in an addition problem. The process is illustrated first with an example:
Thus, $\,2 + (-3) + 5 = 4\,.$
Or, you can always start at zero! That is, write $2 + (-3) + 5$ as $0 + 2 + (-3) + 5$ . The first number indicates position, and the remaining numbers indicate movement. Start at $\,0\,,$ move $\,2\,$ to the right, $\,3\,$ to the left, and $\,5\,$ to the right, ending up at $\,4\,.$
You should understand both interpretations, but in practice you can use whichever is more natural to you. The start at zero interpretation is used in the following discussion.
You probably don't want to be drawing number lines every time you need to do an addition of signed numbers problem. The good news is that every problem—no matter how many numbers are involved—boils down to either a two-number addition problem, or a two-number subtraction problem, which can then be done efficiently in your head. Keep reading!
When you add numbers with the same signs (both positive or both negative), then in your head you do an addition problem.
Here are two examples:
Notice that in both of these problems, you do an addition problem in your head, which gives the total distance moved. If you always move to the right, then the final answer is positive. If you always move to the left, then the final answer is negative.
When you add numbers with different signs (one positive, one negative), then in your head you do a subtraction problem.
The mental process is this:
Once you recognize that you're adding numbers with different signs, throw away (for the moment) all the signs, take the bigger number, and subtract the smaller number. This gives you the net distance traveled.
If you moved farther to the right, then your answer is positive. If you moved farther to the left, then your answer is negative.
Notice that when you add numbers with different signs, then in your head you do a subtraction problem.
When you add two signed numbers, you can follow this five step process. As you read through these steps, think of applying these questions to the problem $\,2 + (-3)\,$:
If there are more than two numbers being added, just turn it into a two-number problem in the first step, by combining the positive and negative numbers separately, like this:
$(-3) + 5 + (-2) + 1 + 4 + (-6)$
$ = (\,(-3) + (-2) + (-6)\,) \,+\, (5 + 1 + 4)$
(re-group, re-order, to combine negative and positive separately)
$ = -11 + 10$
$= -1$
Here, you will practice addition problems of the form ‘$\,x + y\,$’ where $\,x\,$ and $\,y\,$ can be any of these numbers: $\,-10, -9, -8, \ldots, -1, 0, 1, \ldots, 8, 9, 10\,.$ About half of the problems will involve variables!