next

#6

Common

1

÷

3 1 3

Fractions

Taking the Fear out of Math © Math As A Second Language All Rights Reserved

Inventing Common Fractions

You have probably noticed how much more convenient it is to write

“

5 inches

”

than to write

“

5 of what it takes 12 of to equal 1 foot

”

.

So our first abbreviation is to replace

“

5 of what it takes 12 of to equal 1 foot

”

by

“

5 twelfths of a foot

”

.

© Math As A Second Language All Rights Reserved

Definition A

“

twelfth

”

means

“

1 of what it takes 12 of to equal the given unit

”

.

So for example … --- 5 twelfths of a foot means 5 of what it takes 12 of to equal 1 foot.

--- 5 twelfths of a dozen means 5 of what it takes 12 of to equal 1 dozen.

© Math As A Second Language All Rights Reserved

Since we use numbers as adjectives when we do arithmetic, we want to invent a mathematical symbol to represent a twelfth. The symbol we invent to denote one twelfth is called a common fraction , and it is written as 1 / 12 .

The top number (1) is called the numerator and the bottom number (12) is called the denominato r.

© Math As A Second Language All Rights Reserved

Notes Notice that the word

“

numerator

”

the word

“

enumerate

”

suggests which means

“

to count

”

.

“

To count

”

and

“

how many

”

suggests

“

how many suggests an adjective .

”

Hence, in terms of our adjective / noun theme, the numerator is the adjective .

1 note 1 There is a tendency for students to define the numerator as being the top. This masks the true meaning of the numerator . In fact if

“

numerator

”

simply meant

“

top

”

, most likely we would have not replaced the simpler word

“

top

”

by the more cumbersome word

“

numerator

”

.

© Math As A Second Language All Rights Reserved

Notes 5 12 Notice that the word

“

denominator

”

suggests the word

“

denomination

”

which suggests the size of the quantity, and the size is a noun . Hence, in terms of our adjective / noun theme, the denominator is the noun .

is the is numerator denominator .

.

5 12 5 is the 12 adjective is the noun .

.

© Math As A Second Language All Rights Reserved

The important point is that just as the word

“

inch

”

is a noun , so is the word

“

twelfths

”

.

In a similar way, we can define the following common fractions … 1 2 which we read as

“

a (or, one) half

”

and which means 1 of what it takes 2 of to equal the whole. © Math As A Second Language All Rights Reserved

1 3 which we read as

“

a (or, one) third

”

and it means 1 of what it takes 3 of to equal the whole. 1 4 which we read as

“

a (or, one) fourth

”

and it means 1 of what it takes 4 of to equal the whole. © Math As A Second Language All Rights Reserved

1 5 which we read as

“

a (or, one) fifth

”

and it means 1 of what it takes 5 of to equal the whole. 1 6 which we read as

“

a (or, one) sixth

”

and it means 1 of what it takes 6 of to equal the whole. © Math As A Second Language All Rights Reserved

The above common fractions are called unit fractions because they behave the same way as other units. For example , when we count

“

1, 2, 3, ...

”

the numbers are assumed to be modifying a particular unit.

Therefore, 1, 2, 3 can refer to

“

1 half, 2 halves, 3 halves, ...

”

or

“

1 third, 2 thirds, 3 thirds, ...

”

or

“

1 fourth, 2 fourths, 3 fourths, ...

”

© Math As A Second Language All Rights Reserved

An Important Connection between Division and Common Fractions When we say to take 1 of what it takes 5 of to equal a given unit, it means the same thing as dividing the given unit by 5.

In other words, taking a fifth of a number means the same thing as dividing the number by 5. For example , 1 / 5 of 30 means the same thing as 30

÷

5.

© Math As A Second Language All Rights Reserved

More Notation

In the same way that we may think of 3 apples as 3

×

1 apple, we may think of 3 fifths as 3

×

1 fifth, and we write it as 3 / 5 .

In this context, 3 / 5 of 30 means 3 or 3

×

6 or 18.

×

1 / 5 of 30 To take a fractional part of a number we divide the number by the denominator (to find the size of each part) and then multiply by the numerator (the number of parts we are taking).

© Math As A Second Language All Rights Reserved

For example , to take 4 / 7 of 56 we would first divide 56 by 7 to obtain 8, and we would then multiply 8 by 4 to obtain 32.

In terms of a picture, we may think of 56 as being represented by a rectangle (which we personify by referring to it as a

“

corn bread

”

) corn bread © Math As A Second Language All Rights Reserved

Thus, 56 is represented by our corn bread.

56 We then divide the corn bread into 7 equally sized pieces to obtain… 8 8 8 8 And finally, we take 4 of the pieces.

© Math As A Second Language All Rights Reserved

Important Note for the Teacher There is a tendency for some teachers (and some textbooks as well) to define 4 / 7 by saying it means to divide the given unit into 7 parts of equal size and then to take 4 of these equal parts. Roughly speaking, they say it means to take

“

4 out of 7

”

.

© Math As A Second Language All Rights Reserved

This is not a problem as long as the numerator is not greater than the denominator. However, it can raise sort of a mystical question when the numerator is greater than the denominator . For example , if we define 8 / 7 as meaning to divide the given unit into 7 parts of equal size and then take 8 of these parts, it raises the serious question as to whether we can take 8 parts from a group that has only 7 parts.

© Math As A Second Language All Rights Reserved

However this problem is avoided if we use the adjective / noun way of defining a common fraction. Namely, we define 4 / 7 by saying that we are taking 4 of what it takes 7 of to equal the given unit.

In a similar way, 8 / 7 means that we take 8 of what it takes 7 of to equal the given unit. In that way, we see that it is equal to the entire given unit (that is, 7 sevenths) plus 1 more part.

© Math As A Second Language All Rights Reserved

An Application of Geometry to Arithmetic

While most of us might not have thought about it in that way, the ordinary ruler is a very nice example of the

“

marriage

”

between arithmetic and geometry.

The ruler is basically a straight line (geometry) with equally spaced points (again, geometry) marked on it. The points are then given names such as 1, 2, 3, etc (arithmetic).

© Math As A Second Language All Rights Reserved

In essence, the ruler is a model for the number line where geometric points are given arithmetical names.

2 One of the constructions that

’

s described in Euclid

’

s elements is how to divide a line segment of any length into any number of equally sized pieces.

note 2 Notice that name

“

number line

”

itself indicates a combination of arithmetic (number) and geometry (line).

© Math As A Second Language All Rights Reserved

Most of us are aware of the simple case of dividing a piece of string or a sheet of paper into two pieces of equal size. Namely, we essentially fold it in half by placing the ends together.

© Math As A Second Language All Rights Reserved

Let

’

s look at Euclid

’

s way to divide a piece of string (of any given length) into 5 equally sized pieces. 3 Suppose you want to divide the line segment AB into 5 pieces of equal size.

A B note 3 We choose 5 simply for illustrative purposes. The same concept would work for obtaining any number of equally-sized pieces.

© Math As A Second Language All Rights Reserved

Step 1 : Through the point A draw a line of any length of your of your choosing.

A © Math As A Second Language All Rights Reserved B

Step 2 : Pick any size length and on the line you chose, mark that length off 5 consecutive times. Label the points you obtain in this way C, D, E, F, and G. G F E D C A © Math As A Second Language All Rights Reserved B

By construction the line segment AG is divided into 5 pieces of equal length. That is, AC = CD = DE = EF = FG.

4 note 4 There is a subtle but important difference between writing AC and AC. Namely when we write AC we are referring to the set of points that constitute the line segment AC. However when we write AC we are referring to the length of the line segment AC. Thus, to be precise, we do not write AC = CD because these two line segments do not consist of the same points. However what is true is that the length of these two segments are the same; and to indicate this we write AC = CD.

© Math As A Second Language All Rights Reserved

Step 3 : Draw the line segment GB.

C D E F G A © Math As A Second Language All Rights Reserved B

Step 4 : Through each of the points C, D, E, and F draw lines that are parallel to GB, and label the points at which these lines intersect AB by H, I, J, and K.

G F E D C A H © Math As A Second Language All Rights Reserved I J K B

And the fact that the points on the line segment AG are equally spaced means that the line segment AB has also been divided into 5 pieces of equal length. That is, AH = HI = IJ = JK = KB In most text books, the

“

whole

”

is usually a circle (either a pie or a pizza). However, it is much easier to divide a line segment into pieces of equal length (5 pieces) than it is to divide a circle into 5 pieces of equal size. Students might find it to be an enjoyable activity to practice the above construction.

© Math As A Second Language All Rights Reserved

G F Moreover, our corn bread is a

“

thick

”

number line, and the same Euclidian C D E construction easily divides the corn bread into any number of equal parts.

A H I J K Students seem to visualize a two dimensional cornbread more easily than the one dimensional number line.

B © Math As A Second Language All Rights Reserved

Final Note By now you should be getting the idea that when treated in terms of the adjective / noun theme, the arithmetic of fractions is a special application of the arithmetic of whole numbers. All we have done is defined units that are a fractional part of other units and expressed these new units as common fractions .

© Math As A Second Language All Rights Reserved

Final Note This is why it so important for students to internalize the arithmetic of whole numbers. If the students

’

knowledge of arithmetic consists of rote learning, it is very likely that serious problems will arise when these students encounter the arithmetic of fractions.

© Math As A Second Language All Rights Reserved

next Common Fractions 1 5 We will get a clearer insight to the arithmetic of fractions in our next presentations.

© Math As A Second Language All Rights Reserved