Posted in Algebra

What Makes Algebra Difficult is the Equal Sign – Part 1 of x

Algebra is one of the most researched topics in mathematics education. And most of these studies are about students understanding of algebraic concepts, particularly equations and the 24th letter of the English alphabet. With the volume of studies, one wonders why until now algebra many learners still have difficulty with the subject. I read a remark somewhere comparing the search for effective means of teaching/learning algebra similar to that of the quest for the holy grail.

I’m not about to offer in this post a way of making learning algebra easier. I have not found it myself. But let me offer an explanation why algebra is illusive to many first time learners of the subject. I adhere to the belief that once you know where the problem is, you have solved half of it. Sometimes, it could turn out of course that the solution of the other half of the problem is learning to live with it.

Consider the following familiar symbols we write in our blackboard. I will label each string of symbols, A and B.

Equivalence

What do the math symbols in A and B mean? How does A differ from B? How are they similar?

Let’s start with the ‘visual’ similarity. They both have an equal sign. They both show equality. Are they both equations? The statement 12+4x=4(3+x) is an equivalence. It means that the right hand side is a transformation of the left hand side. This transformation is called factoring, using the division operation. The transformation from right to left is called getting the product and you do this by multiplication.

Would you consider statement B an equivalence? It certainly not. You can test this in two ways. One, try to think of an transformation you can do. Two, you can test a few values of x for both sides of the equality sign to check if it will generate equal values. You will find that only x=-5.5 will yield the same result. This means that statement B is not an equivalence but a conditional equation. They are only true for certain values of x. This is what we commonly call equation.

I have shown that we have used the ‘=’ sign in two ways: to denote an equivalence and an equation. How important are the distinctions between the two? Is it so much of a big deal? Are they really that different? Let’s fast forward the lesson and say you are now dealing with function (some curriculum starts with function). Let f:x?12+4x, g:x?4(3+x), and h:x?2x+1. Their graphs are show below. Note that functions f and g coincide at all points while function h intersect them at one point only.

intersecting lines

The graphical representation clearly show how different statements A and B are and that the ‘=’ sign denotes two different things here. Now, if you notice the graphs above, the function notation also use the ‘=’ sign. Is it use the same as  in A and B? Try transforming. Try solving. It’s different isn’t it?  In function notation such as f(x) = 12 + 4x, ‘=’ is used to denote a label or name for the function that maps x to (12 + 4×0. This meaning should be very clear to students. Studies have shown that learners misinterprets f(x) as f times x and tried to solve for x in the equation.

In 13 – 5 =____, what does ‘=’ equal sign mean? Ask any primary school learner and they would tell you it means ‘take way’ or ‘do the operation’. You may be interested to read What Pupils Think About the Equal Sign and Teaching the Meaning of Equal Sign.

I have presented four meanings of ‘=’ in mathematics: equivalence, equation, to denote a name for a function, and to do the operation. My point is that one of the factors that make algebra difficult is the multiple meaning of symbols used. We also use of the word equation to everything with ‘=’. Students need to be able to discern the meaning of these in the context to which they are used if we want our learners to make sense of and do algebra.

In Part 2, I talk about the multiple meanings of the letter symbols as source of students difficulties in algebra. You may also want to read Making Sense of Equivalent Equations and Expressions and Equations, Equations, Equations. If you want some references for Algebra teaching you can try Fostering Algebraic Thinking.

Posted in Elementary School Math

Teaching the meaning of equal sign

Here’s how I sequence my lesson to develop pupil’s understanding of the meaning of the equal sign. Actually the lesson uses the context of the meaning of equal sign to introduce the students to the meaning of variable intuitively. The students enjoyed this lesson and they said they loved the way I made them think. Scaffolding was done through questions that engages pupils in reasoning and making decisions. Note that the emphasis of the lesson is not on computations but on thinking and problem solving. This is also an example of teaching algebraic thinking in the grades.

I first wrote the equal sign on the board then said What does the equal sign mean? You may use an example to explain your answer. One boy said it means you add or do the operation and provided this example 2 + 10 = 12. I asked the class who agrees with him and 25 out of 35 showed hand.

What about in 15 + ____ = 21 + ____? One girl said “It means balance” and explained that 15 plus a number balances with 21 plus another number. When I asked the class who agrees with her 30 out of 35 raised their hand. Everyone’s eyes was on me, waiting for me to say which meaning of equal sign is correct. I just gave them a wink to heighten their curiosity.

Now that I got them all thinking, I asked: Do you think you can put just any two numbers in the blanks? With this question I successfully divided the class into two camps: those who say yes and those who say no and everyone is challenged to prove themselves right or prove the other wrong.

Click here for the slide version of this post.

Posted in Number Sense

Teaching algebraic thinking without the x’s

Students need not wait till they meet Mr. x to learn about algebra. In fact, the best way to learn about algebra is to learn it while there aren’t x’s yet; when all the learners need to deal with are concepts that still make sense to them. Here is a list of tips and ways for teaching algebraic thinking as pupils learn about numbers and number operations.

1. Vary the “orientations” of the way you write number sentences.

For example, 5 + 20 = 25 can be written as 25 = 5 + 20. The first expression is about ‘doing math’, the second engages students about ‘thinking about the math’, the different representations of the number 25. The thinking involved in the second one is ‘algebraic’.

2. Be mindful of the meaning of equal sign

If you want to ask your learners to find, for example, the sum of 15 plus 6, do not write 15 + 6 =___. It’s a recipe for misconception of the meaning of equal sign. I recommend: What numbers is the same as (or equal to) 15 + 6? Better, What number phrases are the same as (or equal to) 15 + 6? This last one promotes algebraic thinking.

3. Encourage learners to generalize. Continue reading “Teaching algebraic thinking without the x’s”

Posted in Elementary School Math

What pupils think about the equal sign

I gave a set of questions to a group of Grade 6 and 7 pupils in a public school. Here are two of the questions:

Question 1: 173 + 49 = ___ + 47 .

Question 2:  43 + __ = 48 + 76.

Some pupils wrote 122 in the blank in Question 1. Others wrote 5 for Question 2.Obviously, these pupils lack understanding of the meaning of equal sign. For them, “=” means do the sum or do the operation. Who can blame them? For all the time they have been doing numbers, their teachers have probably been asking them to answer these type of task.

Kinder: 2 + 6 =

Grade 1: 35 + 24 =

Grade 2: 943 – 202 =

Grade 3: 7,473 + 6,738 =

Grade 4: 94, 578 – 35, 475 =

Indeed it is only logical to think that the “=” means do the operation. But that is not the meaning of the equal sign. That is not even half correct. It is 100% incorrect! Writing 2+6 = is even an incorrect way of setting the task. It reinforces the wrong meaning for =.