Difference between revisions of "Fractions"

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<div style="width:150px;border:none; border-radius:10px;box-shadow: 5px 5px 5px #888888; background:#ffffff; vertical-align:top; text-align:center; padding:5px;">
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''[http://karnatakaeducation.org.in/KOER/index.php//೧೦ನೇ_ತರಗತಿಯ_ಭಿನ್ನರಾಶಿಗಳು ಕನ್ನಡದಲ್ಲಿ ನೋಡಿ]''</div>
 
= Introduction =
 
= Introduction =
 
   
 
   
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ready reference for the teacher to develop the concepts, inculcate
 
ready reference for the teacher to develop the concepts, inculcate
 
necessary skills, and impart knowledge in fractions from Class 6 to
 
necessary skills, and impart knowledge in fractions from Class 6 to
Class 10.
+
Class X
  
 
   
 
   
Line 18: Line 19:
 
conceptually understanding topics of fractions.
 
conceptually understanding topics of fractions.
  
 +
This can be used as part of the bridge course material alongwith Number Systems
  
 
 
 
= Mind Map =
 
= Mind Map =
 
   
 
   
Line 29: Line 30:
 
== Introduction ==
 
== Introduction ==
 
   
 
   
Commonly fractions are always approached by teaching it through
+
Fractions  are defined in relation to a whole—or unit amount—by dividing the whole into equal parts. The notion of dividing into equal parts may seem simple, but it can be problematic. Commonly fractions are always approached by teaching it through
 
one model or interpretation namely the '''part-whole '''model
 
one model or interpretation namely the '''part-whole '''model
 
where the '''whole '''is
 
where the '''whole '''is
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of the parts. The limitations of this method, especially in
 
of the parts. The limitations of this method, especially in
 
explaining mixed fractions, multiplication and division of fractions
 
explaining mixed fractions, multiplication and division of fractions
has led to educators using other interpretations such as '''equal
+
has led to educators using other interpretations such as '''equal'''
share''' and '''measure'''.
+
share''' and '''measure'''.''' 
These approaches to fraction teaching are discussed here.
+
 
 +
Although we use pairs of numbers to represent fractions, a fraction stands for a single number, and as such, has a location on the number line. Number lines provide an excellent way to represent improper fractions, which represent an amount that is more than the related whole. 
 +
 
 +
Given their different representations, and the way they sometimes refer to a number and sometimes an operation, it is important to be able to discuss fractions in the many ways they appear. A multiple representation activity, including different numerical and visual representations, is one way of doing this. Sharing food is a good way to introduce various concepts about fractions. For example, using a chocolate bar and dividing it into pieces. This can be highly motivating if learners can eat it afterwards.  A clock face shows clearly what halves and quarters look like, and can be extended to other fractions with discussion about why some are easier to show than others. We can find a third of an hour, but what about a fifth? 
 +
 
 +
The five meanings listed below serve as conceptual models or tools for thinking about and working with fractions and serve as a framework for designing teaching activities that engage students in sense making as they construct knowledge about fractions.
 +
 
 +
1.Part of a whole 2.Part of a group/set 3.Measure (name for point on number line) 4.Ratio 5.Indicated division
 +
 
 +
We recommend that teachers explicitly use the language of fractions in other parts of the curriculum for reinforcement. For example, when looking at shapes, talk about ‘half a square’ and ‘third of a circle’.
  
+
The various approaches to fraction teaching are discussed here.
 
== Objectives ==
 
== Objectives ==
 
   
 
   
Line 64: Line 74:
 
   
 
   
 
Half
 
Half
(½) : The whole is divided into '''two
+
(½) : The whole is divided into '''two'''
equal '''parts.
+
equal '''parts.'''
  
 
   
 
   
Line 76: Line 86:
 
   
 
   
 
One-Fourth
 
One-Fourth
(1/4) : The whole is divided into '''four
+
(1/4) : The whole is divided into '''four'''
equal '''parts.
+
equal '''parts.'''
  
 
   
 
   
Line 83: Line 93:
  
 
   
 
   
 
 
 
   
 
   
 
[[Image:KOER%20Fractions_html_43b75d3a.gif]]
 
[[Image:KOER%20Fractions_html_43b75d3a.gif]]
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One
 
One
(2/2 or 1) : The whole is divided into '''two
+
(2/2 or 1) : The whole is divided into '''two'''
equal '''parts.
+
equal '''parts.'''
  
 
   
 
   
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Two
 
Two
Fifth (2/5) : The whole is divided into '''five
+
Fifth (2/5) : The whole is divided into '''five'''
equal '''parts.
+
equal '''parts.'''
  
 
   
 
   
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part are coloured, this part represents the fraction 2/5.
 
part are coloured, this part represents the fraction 2/5.
  
 +
 
 
   
 
   
 +
[[Image:KOER%20Fractions_html_9e5c77.gif]]Three
 +
Seventh (3/7) : The whole is divided into '''seven'''
 +
equal '''parts.'''
  
 +
 +
'''Three'''
 +
part are coloured, this part represents the fraction 3/7.
  
 +
 
 
   
 
   
 
+
[[Image:KOER%20Fractions_html_m30791851.gif]]
  
 
   
 
   
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_9e5c77.gif]]Three
+
Seven
Seventh (3/7) : The whole is divided into '''seven
+
tenth (7/10) : The whole is divided into '''ten'''
equal '''parts.
+
equal '''parts.'''
  
 
   
 
   
'''Three'''
+
'''Seven'''
part are coloured, this part represents the fraction 3/7.
+
part are coloured, this part represents the fraction 7/10 .
  
 +
 
 
   
 
   
 
+
'''Terms Numerator'''
 
+
and Denominator and their meaning
 
 
 
 
 
 
[[Image:KOER%20Fractions_html_m30791851.gif]]
 
 
 
 
 
 
 
 
 
Seven
 
tenth (7/10) : The whole is divided into '''ten
 
equal '''parts.
 
 
 
 
'''Seven'''
 
part are coloured, this part represents the fraction 7/10 .
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
'''Terms Numerator
 
and Denominator and their meaning'''
 
  
 
   
 
   
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Three
 
Three
Eight (3/8) The whole is divided into '''eight
+
Eight (3/8) The whole is divided into '''eight'''
equal '''parts.
+
equal '''parts.'''
  
 
   
 
   
 
 
 
   
 
   
 
'''Three'''
 
'''Three'''
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In the equal share interpretation the fraction '''m/n''' denotes
 
In the equal share interpretation the fraction '''m/n''' denotes
one share when '''m identical things''' are '''shared equally among
+
one share when '''m identical things''' are '''shared equally among'''
n'''. The relationships between fractions are arrived at by logical
+
n'''. The relationships between fractions are arrived at by logical'''
 
reasoning (Streefland, 1993). For example ''' 5/6 '''is the share of
 
reasoning (Streefland, 1993). For example ''' 5/6 '''is the share of
 
one child when 5 rotis (disk-shaped handmade bread) are shared
 
one child when 5 rotis (disk-shaped handmade bread) are shared
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+
   
 
 
 
 
   
 
 
The relations 3/6 = 1⁄2 and 2/6 = 1/3 also follow from the
 
The relations 3/6 = 1⁄2 and 2/6 = 1/3 also follow from the
 
process of distribution. Another way of distributing the rotis would
 
process of distribution. Another way of distributing the rotis would
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remaining 4 rotis. Each child gets a share of rotis from each of the
 
remaining 4 rotis. Each child gets a share of rotis from each of the
 
5 rotis giving us the relation
 
5 rotis giving us the relation
 
 
 
 
  
 
   
 
   
 
[[Image:KOER%20Fractions_html_m39388388.gif]]
 
[[Image:KOER%20Fractions_html_m39388388.gif]]
 
 
 
 
  
 
   
 
   
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out that four copies of the given quantity put together would make
 
out that four copies of the given quantity put together would make
 
three wholes and hence is equal to one share when these three wholes
 
three wholes and hence is equal to one share when these three wholes
are shared equally among 4. '''''Share interpretation is also the
+
are shared equally among 4. '''''Share interpretation is also the'''''
 
quotient interpretation of fractions in the sense that 3⁄4 = 3 ÷ 4
 
quotient interpretation of fractions in the sense that 3⁄4 = 3 ÷ 4
 
and this is important for developing students’ ability to solve
 
and this is important for developing students’ ability to solve
problems involving multiplicative and linear functional relations. '''''
+
problems involving multiplicative and linear functional relations.  
 
 
 
 
 
  
  
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[[Image:KOER%20Fractions_html_17655b73.png|650]]
+
[[Image:KOER%20Fractions_html_17655b73.png|800px]]
  
 
== Measure Model ==
 
== Measure Model ==
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measure of one part when one whole is divided into ''n ''equal
 
measure of one part when one whole is divided into ''n ''equal
 
parts. The ''composite fraction'' ''m/n '' is as the measure of
 
parts. The ''composite fraction'' ''m/n '' is as the measure of
m such parts. Thus ''5/6 '' is made of 5 piece units of size ''1/5
+
m such parts. Thus ''5/6 '' is made of 5 piece units of size ''1/5''
''each and ''6/5 ''is made of 6 piece units of size ''1/5''
+
''each and ''6/5 ''is made of 6 piece units of size ''1/5
 
each. Since 5 piece units of size make a whole, we get the relation
 
each. Since 5 piece units of size make a whole, we get the relation
 
6/5 = 1 + 1/5.
 
6/5 = 1 + 1/5.
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=== Introducing Fractions Using Share and Measure Interpretations ===
 
=== Introducing Fractions Using Share and Measure Interpretations ===
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== Activities ==
 
== Activities ==
 
   
 
   
 
=== Activity1: Introduction to fractions ===
 
=== Activity1: Introduction to fractions ===
 +
This video helps to know the basic information about fraction.
 +
 +
{{#widget:YouTube|id=n0FZhQ_GkKw}}
 
   
 
   
'''''Learning
+
 
Objectives '''''
+
'''''Learning Objectives '''''
  
 
   
 
   
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'''''Materials and
+
'''''Materials and'''''
resources required '''''
+
resources required
 
 
 
 
 
 
 
 
 
 
   
 
   
 
# Write the Number Name and the number of the picture like the example  [[Image:KOER%20Fractions_html_m1d9c88a9.gif]]Number Name = One third  Number: [[Image:KOER%20Fractions_html_52332ca.gif]]
 
# Write the Number Name and the number of the picture like the example  [[Image:KOER%20Fractions_html_m1d9c88a9.gif]]Number Name = One third  Number: [[Image:KOER%20Fractions_html_52332ca.gif]]
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What is the value of the numerator and denominator in the last figure
 
What is the value of the numerator and denominator in the last figure
 
, the answer is [[Image:KOER%20Fractions_html_m2dc8c779.gif]]
 
, the answer is [[Image:KOER%20Fractions_html_m2dc8c779.gif]]
 
 
 
  
  
 
 
# Colour the correct amount that represents the fractions
 
# Colour the correct amount that represents the fractions
 
   
 
   
[[Image:KOER%20Fractions_html_19408cb.gif]][[Image:KOER%20Fractions_html_m12e15e63.gif]][[Image:KOER%20Fractions_html_m6b49c523.gif]][[Image:KOER%20Fractions_html_m6f2fcb04.gif]]
+
[[Image:KOER%20Fractions_html_19408cb.gif]] 7/10
 
+
[[Image:KOER%20Fractions_html_m12e15e63.gif]] 3/8
 
+
[[Image:KOER%20Fractions_html_m6b49c523.gif]] 1/5
 
+
[[Image:KOER%20Fractions_html_m6f2fcb04.gif]] 4/7
7/10 3/8
 
1/5 4/7
 
 
 
 
   
 
   
 
Question:
 
Question:
 
Before colouring count the number of parts in each figure. What does
 
Before colouring count the number of parts in each figure. What does
it represent. Answer: Denominator
+
it represent. Answer: Denominator <br>
 
+
 +
# Divide the circle into fractions and colour the right amount to show the fraction
 
   
 
   
 
+
[[Image:KOER%20Fractions_html_55f65a3d.gif]] 3/5  [[Image:KOER%20Fractions_html_55f65a3d.gif]] 6/7 [[Image:KOER%20Fractions_html_55f65a3d.gif]] 1/3 [[Image:KOER%20Fractions_html_55f65a3d.gif]] 5/8 [[Image:KOER%20Fractions_html_55f65a3d.gif]] 2/5 [[Image:KOER%20Fractions_html_55f65a3d.gif]]
 
+
 
  
 
   
 
   
# Divide the circle into fractions and colour the right amount to show the fraction
+
# Draw the Fraction and observe which is the greater fraction – observe that the parts are equal for each pair
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]] 1/3  2/3  <br>
 
+
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]] 4/5  2/5  <br>
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]] 3/7  4/7  <br>
  
 
   
 
   
 +
# Draw the Fraction and observe which is the greater fraction – Observe that the parts are different sizes for each pair.
 +
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]] 1/3  1/4  <br>
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]] 1/5  1/8  <br>
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]] 1/6  1/2  <br>
  
 +
# Solve these word problems by drawing
 +
## Amar divided an apple into 8 equal pieces. He ate 5 pieces. He put the other 3 in a box. What fraction did Amar eat?
 +
## There are ten biscuits in the box. 3 are cream biscuits. 2 are salt biscuits. 4 are chocolate biscuits. 1 is a sugar biscuit. What fraction of the biscuits in the box are salt biscuits.
 +
## Radha has 6 pencils. She gives one to Anil and he gives one to Anita. She keeps the rest. What fraction of her pencils did she give away?
  
 +
# The circles in the box represent the whole; colour the right amount to show the fraction [[Image:KOER%20Fractions_html_m78f3688a.gif]]''Hint: Half is 2 circles'' 
  
 
   
 
   
 +
[[Image:KOER%20Fractions_html_activity1.png]]
  
  
 
+
'''''Pre-requisites/'''''
 
+
Instructions Method
3/5
 
6/7 1/3 5/8 2/5
 
 
 
 
   
 
   
 
+
Do
 
+
the six different sections given in the activity sheet. For each
 +
section there is a discussion point or question for a teacher to ask
 +
children.
  
 
   
 
   
# Draw the Fraction and observe which is the greater fraction – observe that the parts are equal for each pair
+
After
 +
the activity sheet is completed, please use the evaluation questions
 +
to see if the child has understood the concept of fractions
 +
 
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
'''''Evaluation'''''
 +
# Recognises that denominator is the total number of parts a whole is divided into
 +
# Divides the parts  equally .
 +
# Recognises that the coloured part represents the numerator
 +
# Recognises that when the denominators are different and the numerators are the same for a pair of fractions, they parts are different in size.
 +
# What happens when the denominator is 1 ?
 +
# What is the meaning of a denominator being 0 ?
  
 +
=== Activity 2: Proper and Improper Fractions ===
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
'''''Learning'''''
 +
Objectives
  
 
   
 
   
 
+
Proper and Improper Fractions
  
 
   
 
   
 
+
'''''Materials'''''
 +
and resources required
  
 
   
 
   
1/3 2/3 4/5 2/5  
+
# [[Image:KOER%20Fractions_html_5518d221.jpg]]If you want to understand proper fraction , example 5/6. In the equal share model , 5/6 represents the share that each child gets when 5 rotis are divided among 6 children '''equally.'''
3/7 4/7
 
 
 
 
   
 
   
 +
[[Image:KOER%20Fractions_html_5e906d5b.jpg]][[Image:KOER%20Fractions_html_5518d221.jpg]]
  
  
 
   
 
   
 
+
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
  
 
   
 
   
# Draw the Fraction and observe which is the greater fraction – Observe that the parts are different sizes for each pair.
 
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
[[Image:KOER%20Fractions_html_5518d221.jpg]][[Image:KOER%20Fractions_html_5e906d5b.jpg]]
  
 
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
 
  
 
   
 
   
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
  
  
 
   
 
   
 +
[[Image:KOER%20Fractions_html_5518d221.jpg]]
  
  
 
   
 
   
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]]
  
 
+
 
 +
 +
# If you want to understand improper fraction , example 8/3. In the equal share model , 8/3 represents the share that each child gets when 8 rotis are divided among 3 children equally. The child in this case will usually distribute 2 full rotis to each child and then try to divide the remaining rotis. At this point you can show the mixed fraction representation as 2 2/3
 +
 +
 
 
   
 
   
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_5e906d5b.jpg]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
  
  
 
   
 
   
1/3
+
[[Image:KOER%20Fractions_html_5518d221.jpg]]
1/4 1/5 1/8
 
1/6 1/2
 
  
 
   
 
   
 
+
 +
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_5518d221.jpg]]
  
  
 
   
 
   
# Solve these word problems by drawing
+
[[Image:KOER%20Fractions_html_55f65a3d.gif]]
## Amar divided an apple into 8 equal pieces. He ate 5 pieces. He put the a  other 3 in a box. What fraction did Amar eat?
 
## There are ten biscuits in the box. 3 are cream biscuits. 2 are salt biscuits. 4 are chocolate biscuits. 1 is a sugar biscuit. What fraction of the biscuits in the box are salt biscuits.
 
## Radha has 6 pencils. She gives one to Anil and he gives one to Anita. She keeps the  rest. What fraction of her pencils did she give away?
 
#
 
# The circles in the box represent the whole; colour the right amount to show the fraction [[Image:KOER%20Fractions_html_m78f3688a.gif]]''Hint: Half is 2 circles'' 
 
  
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_activity1.gif]]
+
 +
'''Pre-requisites/'''
 +
Instructions Method
  
 +
 +
Examples of Proper and improper
 +
fractions are given. The round disks in the figure represent rotis
 +
and the children figures represent children. Cut each roti and each
 +
child figure and make the children fold, tear and equally divide the
 +
roits so that each child figure gets equal share of roti.
  
 
   
 
   
 +
 +
'''''Evaluation'''''
  
 +
# What happens when the numerator and denominator are the same, why ?
 +
# What happens when the numerator is greater than the denominator why ?
 +
# How can we represent this in two ways ?
  
 +
=== Activity 3: Comparing Fractions ===
 +
 +
'''''Learning'''''
 +
Objectives
  
 
   
 
   
 +
Comparing-Fractions
  
 +
 +
'''''Materials'''''
 +
and resources required
  
 +
 
 
   
 
   
'''''Pre-requisites/
+
[[http://www.superteacherworksheets.com/fractions/comparing-fractions.pdf]]
Instructions Method '''''
 
  
 
   
 
   
 +
[[http://www.superteacherworksheets.com/fractions/comparing-fractions2.pdf]]
  
 +
 +
'''Pre-requisites/'''
 +
Instructions Method
  
 
   
 
   
Do
+
Print the
the six different sections given in the activity sheet. For each
+
document and work out the
section there is a discussion point or question for a teacher to ask
+
activity sheet
children.
 
  
 
   
 
   
After
+
'''''Evaluation'''''
the activity sheet is completed, please use the evaluation questions
 
to see if the child has understood the concept of fractions
 
  
 
   
 
   
'''''Evaluation'''''
+
# Does the child know the symbols '''&gt;, &lt;''' and '''='''
 +
# What happens to the size of the part when the denominator is different ?
 +
# Does it decrease or increase when the denominator becomes larger ?
 +
# Can we compare quantities when the parts are different sizes ?
 +
# What should we do to make the sizes of the parts the same ?
 +
  
=== Activity 2: Proper and Improper Fractions ===
 
 
   
 
   
'''''Learning
+
=== Activity 4: Equivalent Fractions ===
Objectives'''''
 
 
 
 
   
 
   
Proper and Improper Fractions
+
'''''Learning'''''
 +
Objectives
  
 
   
 
   
'''''Materials
+
To understand Equivalent Fractions
and resources required '''''
 
  
 
   
 
   
# [[Image:KOER%20Fractions_html_5518d221.jpg]]If you want to understand proper fraction , example 5/6. In the equal share model , 5/6 represents the share that each child gets when 5 rotis are divided among 6 children '''equally.'''
+
'''''Materials'''''
+
and resources required
[[Image:KOER%20Fractions_html_5e906d5b.jpg]][[Image:KOER%20Fractions_html_5518d221.jpg]]
 
 
 
  
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
[[http://www.superteacherworksheets.com/fractions/fractions-matching-game.pdf]]
 
 
  
 
   
 
   
 
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_5518d221.jpg]][[Image:KOER%20Fractions_html_5e906d5b.jpg]]
+
'''Pre-requisites/'''
 
+
Instructions Method
  
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
Print 10 copies
 
+
of the document from pages 2 to 5 fractions-matching-game
 +
Cut the each fraction part. Play memory game as described in
 +
the document in groups of 4 children.
  
 
   
 
   
[[Image:KOER%20Fractions_html_5518d221.jpg]]
+
'''''Evaluation'''''
 
 
  
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
# What is reducing a fraction to the simplest form ?
 
+
# What is GCF – Greatest Common Factor ?
 
+
# Use the document [[simplifying-fractions.pdf]]
 +
# Why are fractions called equivalent and not equal.
 
   
 
   
 +
== Evaluation ==
  
 +
== Self-Evaluation ==
 +
This '''PhET simulation''', lets you
 +
* Find matching fractions using numbers and pictures <br>
 +
* Make the same fractions using different numbers <br>
 +
* Match fractions in different picture patterns <br>
 +
* Compare fractions using numbers and patterns <br>
 +
 
 +
[https://phet.colorado.edu/sims/html/fraction-matcher/latest/fraction-matcher_en.html Fraction Matcher]
  
 
+
== Further Exploration ==
 +
 
 +
== Enrichment Activities ==
 
   
 
   
 
+
= Errors with fractions =
 
 
 
 
 
   
 
   
 +
== Introduction ==
 +
 +
A brief
 +
understanding of the common errors that children make when it comes
 +
to fractions are addressed to enable teachers to understand the
 +
child's levels of conceptual understanding to address the
 +
misconceptions.
  
 +
 +
== Objectives ==
 +
 +
When fractions are operated erroneously
 +
like natural numbers, i.e. treating the numerator and the
 +
denominators separately and not considering the relationship between
 +
the numerator and the denominator is termed as N-Distractor. For
 +
example 1/3 + ¼ are added to result in 2/7. Here 2 units of the
 +
numerator are added and 3 &amp; four units of the denominator are
 +
added. This completely ignores the relationship between the numerator
 +
and denominator of each of the fractions. Streefland (1993) noted
 +
this challenge as N-distractors and a slow-down of learning when
 +
moving from the '''concrete level to the abstract level'''.
  
 
+
 
 
   
 
   
# If you want to understand improper fraction , example 8/3. In the equal share model , 8/3 represents the share that each child gets when 8 rotis are divided among 3 children equally. The child in this case will usually distribute 2 full rotis to each child and then try to divide the remaining rotis. At this point you can show the mixed fraction representation as 2 2/3
+
== N-Distractors ==
 
   
 
   
 
 
  
 
   
 
   
 
+
The five levels of resistance to
 
+
N-Distractors that a child develops are:
  
 
   
 
   
 
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_5e906d5b.jpg]][[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
# '''''Absence of cognitive conflict:''''' The child is unable to recognize the error even when she sees the same operation performed resulting in a correct answer. The child thinks both the answers are the same in spite of different results. Eg. ½ + ½ she erroneously calculated as 2/4. But when the child by some other method, say, through manipulatives (concrete) sees ½ + ½ = 1 does not recognize the conflict.
 
+
# '''''Cognitive conflict takes place: '''''The student sees a conflict when she encounters the situation described in level 1 and rejects the ½+1/2 = 2/4 solution and recognizes it as incorrect. She might still not have a method to arrive at the correct solution.
 
+
# '''''Spontaneous refutation of N-Distractor errors:''''' The student may still make N-Distractor errors, but is able to detect the error for herself. This detection of the error may be followed by just rejection or explaining the rejection or even by a correct solution.
 +
# '''''Free of N-Distractor: '''''The written work is free of N-Distractors. This could mean a thorough understanding of the methods/algorithms of manipulating fractions.
 +
# '''''Resistance to N-Distractor: '''''The student is completely free (conceptually and algorithmically) of N-Distractor errors.
 
   
 
   
[[Image:KOER%20Fractions_html_5518d221.jpg]]
 
 
  
 
   
 
   
 
+
== Activities ==
 
 
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_55f65a3d.gif]][[Image:KOER%20Fractions_html_5518d221.jpg]]
+
== Evaluation ==
 
 
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_55f65a3d.gif]]
+
== Self-Evaluation ==
 
 
 
 
 
   
 
   
 
+
== Further Exploration ==
 
 
 
 
 
   
 
   
'''Pre-requisites/
+
# [[www.merga.net.au/publications/counter.php?pub=pub_conf&id=1410]] A PDF Research paper titled Probing Whole Number Dominance with Fractions.
Instructions Method '''
+
# [[www.merga.net.au/documents/RP512004.pdf]] A PDF research paper titled “Why You Have to Probe to Discover What Year 8 Students Really Think About Fractions ”
 
+
# [[http://books.google.com/books?id=Y5Skj-EA2_AC&pg=PA251&lpg=PA251&dq=streefland+fractions&source=bl&ots=aabKaciwrA&sig=DcM0mi7r1GJlTUbZVq9J0l53Lrc&hl=en&ei=0xJBTvLjJ8bRrQfC3JmyBw&sa=X&oi=book_result&ct=result&resnum=1&ved=0CBUQ6AEwAA#v=onepage&q&f=false]] A google book Fractions in realistic mathematics education: a paradigm of developmental ...By Leen Streefland
 
   
 
   
Examples of Proper and improper
+
== Enrichment Activities ==
fractions are given. The round disks in the figure represent rotis
 
and the children figures represent children. Cut each roti and each
 
child figure and make the children fold, tear and equally divide the
 
roits so that each child figure gets equal share of roti.
 
 
 
 
   
 
   
 
  
 
   
 
   
'''''Evaluation'''''
+
= Operations on Fractions =
 
 
 
   
 
   
# What happens when the numerator and denominator are the same, why ?
+
== Introduction ==
# What happens when the numerator is greater than the denominator why ? How can we represent this in two ways ?
 
 
   
 
   
 
+
This topic introduces the different operations on fractions. When
 
+
learners move from whole numbers to fractions, many of the operations
 +
are counter intuitive. This section aims to clarify the concepts
 +
behind each of the operations.
  
 
   
 
   
=== Activity 3: Comparing Fractions ===
+
== Objectives ==
 
   
 
   
'''''Learning
+
The aim of this section is to visualise and conceptually
Objectives'''''
+
understand each of the operations on fractions.
  
 
   
 
   
Comparing-Fractions
+
== Addition and Subtraction ==
 
 
 
   
 
   
'''''Materials
 
and resources required '''''
 
  
 
   
 
   
 
+
Adding and
 
+
subtracting like fractions is simple. It must be emphasised thought
 +
even during this process that the parts are equal in size or quantity
 +
because the denominator is the same and hence for the result we keep
 +
the common denominator and add the numerators.
  
 
   
 
   
 
 
 
 
   
 
   
[[http://www.superteacherworksheets.com/fractions/comparing-fractions.pdf]]
+
Adding and
 +
subtracting unlike fractions requires the child to visually
 +
understand that the parts of each of the fractions are differing in
 +
size and therefore we need to find a way of dividing the whole into
 +
equal parts so that the parts of all of the fractions look equal.
 +
Once this concept is established, the terms LCM and the methods of
 +
determining them may be introduced.
  
 +
 
 
   
 
   
[[http://www.superteacherworksheets.com/fractions/comparing-fractions2.pdf]]
+
== Multiplication ==
 
 
 
   
 
   
'''Pre-requisites/
 
Instructions Method'''
 
  
 
   
 
   
Print the
+
Multiplying a
document and work out the
+
fraction by a whole number: Here the repeated addition logic of
activity sheet
+
multiplying whole numbers is still valid. 1/6 multiplied by 4 is 4
 +
times 1/6 which is equal to 4/6.
  
 
   
 
   
'''''Evaluation'''''
+
 +
[[Image:KOER%20Fractions_html_714bce28.gif]]
  
 
   
 
   
# Does the child know the symbols '''&gt;, &lt;''' and '''='''
 
# What happens to the size of the part when the denominator is different ?
 
# Does it decrease or increase when the denominator becomes larger ?
 
# Can we compare quantities when the parts are different sizes ?
 
# What should we do to make the sizes of the parts the same ?
 
 
   
 
   
 
+
Multiplying a
 
+
fraction by a fraction: In this case the child is confused as
 +
repeated addition does not make sense. To make a child understand the
 +
''of operator ''we can use the
 +
language and demonstrate it using the measure model and the area of
 +
a rectangle.
  
 
   
 
   
=== Activity 4: Equivalent Fractions ===
 
 
   
 
   
'''''Learning
+
The
Objectives'''''
+
area of a rectangle is found by multiplying side length by side
 +
length. For example, in the rectangle below, the sides are 3 units
 +
and 9 units, and the area is 27 square units.
  
 +
 
 
   
 
   
To understand Equivalent Fractions
+
[[Image:KOER%20Fractions_html_m66ce78ea.gif]]
  
 +
     
 
   
 
   
'''''Materials
+
We can apply that
and resources required'''''
+
idea to fractions, too.
  
 
   
 
   
[[http://www.superteacherworksheets.com/fractions/fractions-matching-game.pdf]]
+
* The one side of the rectangle is 1 unit (in terms of length).
 +
* The other side is 1 unit also.
 +
* The whole rectangle also is ''1 square unit'', in terms of area.
 +
  
 
   
 
   
 +
See figure below
 +
to see how the following multiplication can be shown.
  
 +
 +
 +
[[Image:KOER%20Fractions_html_m6c9f1742.gif]]
  
 +
 +
 +
[[Image:KOER%20Fractions_html_753005a4.gif]]
  
 +
   
 
   
 
   
'''Pre-requisites/
+
'''Remember: '''The
Instructions Method'''
+
two fractions to multiply represent the length of the sides, and the
 +
answer fraction represents area.
  
 +
 
 
   
 
   
Print 10 copies
+
== Division ==
of the document from pages 2 to 5 fractions-matching-game
 
Cut the each fraction part. Play memory game as described in
 
the document in groups of 4 children.
 
 
 
 
   
 
   
'''''Evaluation'''''
 
  
 
   
 
   
# What is reducing a fraction to the simplest form ?
+
Dividing a fraction by a whole number
# What is GCF – Greatest Common Factor ?
+
can be demonstrated just like division of whole numbers. When we
# Use the document [[simplifying-fractions.pdf]]
+
divide 3/4 by 2 we can visualise it as dividing 3 parts of a whole
# Why are fractions called equivalent and not equal.
+
roti among 4 people.
 +
 
 
   
 
   
== Evaluation ==
+
[[Image:KOER%20Fractions_html_1f617ac8.gif]]
 +
 
 
   
 
   
== Self-Evaluation ==
+
Here 3/4 is divided between two
 +
people. One fourth piece is split into two. Each person gets
 +
1/4 and 1/8.
 +
 
 
   
 
   
== Further Exploration ==
 
 
 
== Enrichment Activities ==
 
 
   
 
   
= Errors with fractions =
+
[[Image:KOER%20Fractions_html_m5f26c0a.gif]]
 +
 
 
   
 
   
== Introduction ==
 
 
   
 
   
A brief
+
OR
understanding of the common errors that children make when it comes
+
 
to fractions are addressed to enable teachers to understand the
 
child's levels of conceptual understanding to address the
 
misconceptions.
 
 
 
 
   
 
   
== Objectives ==
+
[[Image:KOER%20Fractions_html_m25efcc2e.gif]]
 
When fractions are operated erroneously
 
like natural numbers, i.e. treating the numerator and the
 
denominators separately and not considering the relationship between
 
the numerator and the denominator is termed as N-Distractor. For
 
example 1/3 + ¼ are added to result in 2/7. Here 2 units of the
 
numerator are added and 3 &amp; four units of the denominator are
 
added. This completely ignores the relationship between the numerator
 
and denominator of each of the fractions. Streefland (1993) noted
 
this challenge as N-distractors and a slow-down of learning when
 
moving from the '''concrete level to the abstract level'''.
 
  
 
   
 
   
 
+
Another way of solving the same
 +
problem is to split each fourth piece into 2.
  
 
   
 
   
 +
This means we change the 3/4
 +
into 6/8.
  
 +
 
 +
[[Image:KOER%20Fractions_html_7ed8164a.gif]]
  
 
   
 
   
== N-Distractors ==
 
 
   
 
   
 
+
When dividing a fraction by a fraction,
 +
we use the measure interpretation.
  
 
   
 
   
The five levels of resistance to
+
[[Image:KOER%20Fractions_html_m3192e02b.gif]]
N-Distractors that a child develops are:
 
  
 
   
 
   
 +
When we divide 2 by ¼ we ask how many
 +
times does ¼
  
 +
 +
 +
[[Image:KOER%20Fractions_html_m257a1863.gif]][[Image:KOER%20Fractions_html_m257a1863.gif]]
  
 
   
 
   
# '''''Absence of cognitive conflict:''''' The child is unable to recognize the error even when she sees the same operation performed resulting in a correct answer. The child thinks both the answers are the same in spite of different results. Eg. ½ + ½ she erroneously calculated as 2/4. But when the child by some other method, say, through manipulatives (concrete) sees ½ + ½ = 1 does not recognize the conflict.
+
'''fit into 2'''.
# '''''Cognitive conflict takes place: '''''The student sees a conflict when she encounters the situation described in level 1 and rejects the ½+1/2 = 2/4 solution and recognizes it as incorrect. She might still not have a method to arrive at the correct solution.
+
 
# '''''Spontaneous refutation of N-Distractor errors:''''' The student may still make N-Distractor errors, but is able to detect the error for herself. This detection of the error may be followed by just rejection or explaining the rejection or even by a correct solution.
+
 
# '''''Free of N-Distractor: '''''The written work is free of N-Distractors. This could mean a thorough understanding of the methods/algorithms of manipulating fractions.
 
# '''''Resistance to N-Distractor: '''''The student is completely free (conceptually and algorithmically) of N-Distractor errors.
 
 
   
 
   
 +
It fits in 4 times in each roti, so
 +
totally 8 times.
  
 +
 +
 +
We write it as
 +
[[Image:KOER%20Fractions_html_m390fcce6.gif]]
  
 +
 
   
 
   
 
== Activities ==
 
== Activities ==
 
   
 
   
== Evaluation ==
+
=== Activity 1 Addition of Fractions ===
 
   
 
   
== Self-Evaluation ==
+
'''''Learning'''''
 +
Objectives
 +
 
 
   
 
   
== Further Exploration ==
+
Understand Addition of Fractions
 +
 
 
   
 
   
# [[www.merga.net.au/publications/counter.php?pub=pub_conf&id=1410]] A PDF Research paper titled Probing Whole Number Dominance with Fractions.
+
'''''Materials'''''
# [[www.merga.net.au/documents/RP512004.pdf]] A PDF research paper titled “Why You Have to Probe to Discover What Year 8 Students Really Think About Fractions ”
+
and resources required
# [[http://books.google.com/books?id=Y5Skj-EA2_AC&pg=PA251&lpg=PA251&dq=streefland+fractions&source=bl&ots=aabKaciwrA&sig=DcM0mi7r1GJlTUbZVq9J0l53Lrc&hl=en&ei=0xJBTvLjJ8bRrQfC3JmyBw&sa=X&oi=book_result&ct=result&resnum=1&ved=0CBUQ6AEwAA#v=onepage&q&f=false]] A google book Fractions in realistic mathematics education: a paradigm of developmental ...By Leen Streefland
+
 
 
   
 
   
== Enrichment Activities ==
+
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Addition.html]]
 
 
 
  
 
 
= Operations on Fractions =
 
 
== Introduction ==
 
 
   
 
   
This topic introduces the different operations on fractions. When
+
'''''Pre-requisites/'''''
learners move from whole numbers to fractions, many of the operations
+
Instructions Method
are counter intuitive. This section aims to clarify the concepts
 
behind each of the operations.
 
  
 
   
 
   
== Objectives ==
+
Open link
+
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Addition.html]]
The aim of this section is to visualise and conceptually
 
understand each of the operations on fractions.
 
  
 
   
 
   
== Addition and Subtraction ==
+
[[Image:KOER%20Fractions_html_m3dd8c669a.png]]
 
  
  
 
   
 
   
Adding and
+
Move the sliders
subtracting like fractions is simple. It must be emphasised thought
+
Numerator1 and Denominator1 to set Fraction 1
even during this process that the parts are equal in size or quantity
 
because the denominator is the same and hence for the result we keep
 
the common denominator and add the numerators.
 
  
 
   
 
   
 +
Move the sliders
 +
Numerator2 and Denominator2 to set Fraction 2
  
 +
 +
See the last bar
 +
to see the result of adding fraction 1 and fraction 2
  
 
   
 
   
Adding and
+
When you move
subtracting unlike fractions requires the child to visually
+
the sliders ask children to
understand that the parts of each of the fractions are differing in
 
size and therefore we need to find a way of dividing the whole into
 
equal parts so that the parts of all of the fractions look equal.
 
Once this concept is established, the terms LCM and the methods of
 
determining them may be introduced.
 
  
 
   
 
   
 
+
Observe and
 +
describe what happens when the denominator is changed.
  
 
   
 
   
 
+
Observe and
 +
describe what happens when denominator changes
  
 
   
 
   
== Multiplication ==
+
Observe and
 +
describe the values of the numerator and denominator and relate it to
 +
the third result fraction.
 +
 
 
   
 
   
 +
Discuss LCM and
 +
GCF
  
 +
 +
'''''Evaluation'''''
  
 +
=== Activity 2 Fraction Subtraction ===
 
   
 
   
Multiplying a
+
'''''Learning'''''
fraction by a whole number: Here the repeated addition logic of
+
Objectives
multiplying whole numbers is still valid. 1/6 multiplied by 4 is 4
 
times 1/6 which is equal to 4/6.
 
  
 
   
 
   
 
+
Understand Fraction Subtraction
  
 
   
 
   
[[Image:KOER%20Fractions_html_714bce28.gif]]
+
'''''Materials and'''''
 +
resources required
  
 
   
 
   
 +
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Subtraction.html]]
  
 +
 
 +
'''''Pre-requisites/'''''
 +
Instructions Method
  
 
   
 
   
Multiplying a
+
Open link
fraction by a fraction: In this case the child is confused as
+
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Subtraction.html]]
repeated addition does not make sense. To make a child understand the
 
''of operator ''we can use the
 
language and demonstrate it using the measure model and the area of
 
a rectangle.
 
  
 
   
 
   
 +
 +
[[Image:KOER%20Fractions_html_481d8c4.png|600px]]
  
  
 
   
 
   
The
+
Move the sliders Numerator1 and Denominator1 to set Fraction 1
area of a rectangle is found by multiplying side length by side
 
length. For example, in the rectangle below, the sides are 3 units
 
and 9 units, and the area is 27 square units.
 
  
 
   
 
   
 +
Move the sliders Numerator2 and Denominator2 to set Fraction 2
  
 +
 +
See the last bar to see the result of subtracting fraction 1 and
 +
fraction 2
  
 
   
 
   
 +
 +
When you move the sliders ask children to
  
 +
 +
observe and describe what happens when the denominator is
 +
changed.
  
 
   
 
   
[[Image:KOER%20Fractions_html_m66ce78ea.gif]]
+
observe and describe what happens when denominator changes
  
 
   
 
   
 +
observe and describe the values of the numerator and denominator
 +
and relate it to the third result fraction.
  
 +
 +
Discuss LCM and GCF
  
 
   
 
   
 +
'''''Evaluation'''''
  
 +
=== Activity 3  Multiplication of fractions ===
 +
 +
'''''Learning'''''
 +
Objectives
  
 
   
 
   
 +
Understand Multiplication of fractions
  
 +
 +
'''''Materials and'''''
 +
resources required
  
 
   
 
   
 
+
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_MultiplyArea.html]]
  
 
   
 
   
 
+
'''''Pre-requisites/'''''
 +
Instructions Method
  
 
   
 
   
 +
Open link
 +
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_MultiplyArea.html]]
  
 
 
   
 
   
 +
 +
[[Image:KOER%20Fractions_html_12818756.png|600px]]
  
  
 
   
 
   
We can apply that
+
Move the sliders Numerator1 and Denominator1 to set Fraction 1
idea to fractions, too.
 
  
 
   
 
   
* The one side of the rectangle is 1 unit (in terms of length).
+
Move the sliders Numerator2 and Denominator2 to set Fraction 2
* The other side is 1 unit also.
+
 
* The whole rectangle also is ''1 square unit'', in terms of area.
 
 
   
 
   
 +
On the right hand side see the result of multiplying fraction 1
 +
and fraction 2
  
 +
 +
'''Material/Activity Sheet'''
  
 
   
 
   
See figure below
+
Please open
to see how the following multiplication can be shown.
+
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_MultiplyArea.html]]
 +
in Firefox and follow the process
  
 
   
 
   
 
+
When you move the sliders ask children to
  
 
   
 
   
[[Image:KOER%20Fractions_html_m6c9f1742.gif]]
+
observe and describe what happens when the denominator is
 +
changed.
  
 
   
 
   
 +
observe and describe what happens when denominator changes
  
 +
 +
One unit will be the large square border-in blue solid lines
  
 
   
 
   
[[Image:KOER%20Fractions_html_753005a4.gif]]
+
A sub-unit is in dashed lines within one square unit.
  
 
   
 
   
 +
The thick red lines represent the fraction 1 and 2 and also the
 +
side of the quadrilateral
  
 +
 +
The product represents the area of the the quadrilateral
  
 
   
 
   
 +
'''''Evaluation'''''
  
 +
 +
When
 +
two fractions are multiplied
 +
is the product larger or smaller that the multiplicands – why ?
  
 +
=== Activity 4 Division by Fractions ===
 
   
 
   
 +
'''''Learning'''''
 +
Objectives
  
 +
 +
Understand Division by Fractions
  
 
   
 
   
 +
'''''Materials and'''''
 +
resources required
  
 +
 +
[[http://www.superteacherworksheets.com/fractions/fractionstrips_TWQWF.pdf]]
  
 
   
 
   
'''Remember: '''The
+
Crayons/ colour
two fractions to multiply represent the length of the sides, and the
+
pencils, Scissors, glue
answer fraction represents area.
 
  
 
   
 
   
 
+
'''''Pre-requisites/'''''
 +
Instructions Method
  
 
   
 
   
 
+
Print out the pdf
 +
[[http://www.superteacherworksheets.com/fractions/fractionstrips_TWQWF.pdf]]
  
 
   
 
   
== Division ==
+
Colour each of the unit fractions in different colours. Keep the
 +
whole unit (1) white.
 +
 
 
   
 
   
 
+
Cut out each unit fraction piece.
  
 
   
 
   
Dividing a fraction by a whole number
+
Give examples
can be demonstrated just like division of whole numbers. When we
+
[[Image:KOER%20Fractions_html_m282c9b3f.gif]]
divide 3/4 by 2 we can visualise it as dividing 3 parts of a whole
 
roti among 4 people.
 
  
 
   
 
   
[[Image:KOER%20Fractions_html_1f617ac8.gif]]
+
For example if we try the first one,
 +
[[Image:KOER%20Fractions_html_21ce4d27.gif]]
 +
See how many
 +
[[Image:KOER%20Fractions_html_m31bd6afb.gif]]strips
 +
will fit exactly onto whole unit strip.
  
 
   
 
   
Here 3/4 is divided between two
 
people. One fourth piece is split into two. Each person gets
 
1/4 and 1/8.
 
 
 
   
 
   
 +
== Evaluation ==
 +
When
 +
we divide by a fraction is the result larger or smaller why ?
  
 +
== Self-Evaluation ==
 +
This '''PhET simulation''' enables you to
 +
*Predict and explain how changing the numerator or denominator of a fraction affects the fraction's value. <br>
 +
* Make equivalent fractions using different numbers. <br>
 +
* Match fractions in different picture patterns. <br>
 +
*Find matching fractions using numbers and pictures. <br>
 +
* Compare fractions using numbers and patterns. <br>
  
+
[https://phet.colorado.edu/en/simulation/legacy/fractions-intro Fractions-intro]
[[Image:KOER%20Fractions_html_m5f26c0a.gif]]
 
 
 
 
  
 +
Software requirement: Sun Java 1.5.0_15 or later version
  
 +
== Further Exploration ==
 +
 +
# [[http://www.youtube.com/watch?v=41FYaniy5f8]] detailed conceptual understanding of division by fractions
 +
# [[http://www.homeschoolmath.net/teaching/f/understanding_fractions.php]] understanding fractions
 +
# [[http://www.superteacherworksheets.com]] Worksheets in mathematics for teachers to use
 +
 +
= Linking Fractions to other Topics =
 
   
 
   
OR
+
== Introduction ==
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_m25efcc2e.gif]]
+
It is also very common for the school system to treat themes in a
 
+
separate manner. Fractions are taught as stand alone chapters. In
 +
this resource book an attempt to connect it to other middle school
 +
topics such as Ratio Proportion, Percentage and high school topics
 +
such as rational and irrational numbers, inverse proportions are
 +
made. These other topics are not discussed in detail themselves, but
 +
used to show how to link these other topics with the already
 +
understood concepts of fractions.
 +
== Objectives ==
 
   
 
   
Another way of solving the same
+
Explicitly link the other
problem is to split each fourth piece into 2.
+
topics in school mathematics that use fractions.
  
 
   
 
   
This means we change the 3/4
+
== Decimal Numbers ==
into 6/8.
+
 +
“Decimal”
 +
comes from the Latin root '''''decem''''',
 +
which simply means ten. The number system we use is called the
 +
decimal number system, because the place value units go in tens: you
 +
have ones, tens, hundreds, thousands, and so on, each unit being 10
 +
times the previous one.
  
 
+
[[Image:KOER%20Fractions_html_7ed8164a.gif]]
+
In
 +
common language, the word “decimal number” has come to mean
 +
numbers which have digits after the decimal point, such as 5.8 or
 +
9.302. But in reality, any number within the decimal number system
 +
could be termed a decimal number, including whole numbers such as 12
 +
or 381.
  
 
   
 
   
 
 
 
   
 
   
When dividing a fraction by a fraction,
+
The
we use the measure interpretation.
+
simplest way to link or connect fractions to the decimal number
 +
system is with the number line representation. Any scale that a
 +
child uses is also very good for this purpose, as seen in the figure
 +
below.
  
 
   
 
   
[[Image:KOER%20Fractions_html_m3192e02b.gif]]
 
 
 
   
 
   
When we divide 2 by ¼ we ask how many
+
The
times does ¼
+
number line between 0 and 1 is divided into ten parts. Each of these
 +
ten parts is '''1/10''', a '''tenth'''.
  
 
   
 
   
 +
[[Image:KOER%20Fractions_html_3d7b669f.gif]]
  
  
 
   
 
   
[[Image:KOER%20Fractions_html_m257a1863.gif]][[Image:KOER%20Fractions_html_m257a1863.gif]]
+
Under
 +
the tick marks you see decimal numbers such as 0.1, 0.2, 0.3, and so
 +
on. These are the same numbers as the fractions 1/10, 2/10, 3/10 and
 +
so on.
  
 
   
 
   
'''fit into 2'''.
+
We
 +
can write any fraction with '''tenths (denominator 10) '''using the
 +
decimal point. Simply write after the decimal point how many tenths
 +
the number has. 0.6 means six tenths or 1/6. 1.5 means 1 whole and 5
 +
tenths or
 +
[[Image:KOER%20Fractions_html_m7f1d448c.gif]]
  
 
   
 
   
 
+
Note: A common error one sees is 0.7 is written as 1 /7. It is
 +
seven tenths and not one seventh. That the denominator is always 10
 +
has to be stressed. To reinforce this one can use a simple rectangle
 +
divided into 10 parts , the same that was used to understand place
 +
value in whole numbers.
  
 
   
 
   
 +
The
 +
coloured portion represents 0.6 or 6/10 and the whole block
 +
represents 1.
  
 +
 
 +
[[Image:KOER%20Fractions_html_1cf72869.gif]]
  
 
It fits in 4 times in each roti, so
 
totally 8 times.
 
  
 +
 
 +
== Percentages ==
 
   
 
   
 +
Fractions and percentages are different ways of writing the same
 +
thing. When we say that a book costs Rs. 200 and the shopkeeper is
 +
giving a 10 % discount. Then we can represent the 10% as a fraction
 +
as
 +
[[Image:KOER%20Fractions_html_m1369c56e.gif]]
 +
where '''10 is the numerator''' and the '''denominator is '''<u>'''always'''</u>
 +
100'''. In this case 10 % of the cost of the book is '''
 +
[[Image:KOER%20Fractions_html_m50e22a06.gif]].
 +
So you can buy the book for 200 – 20 = 180 rupees.
  
 
+
 
 
   
 
   
We write it as
+
There
[[Image:KOER%20Fractions_html_m390fcce6.gif]]
+
are a number of common ones that are useful to learn. Here is a table
 
+
showing you the ones that you should learn.
 +
                                     
 +
{| border="1"
 +
|-
 +
|
 +
Percentage
 
   
 
   
 
+
|
 
+
Fraction
 
 
 
   
 
   
== Activities ==
+
|-
 +
|
 +
100%
 
   
 
   
=== Activity 1 Addition of Fractions ===
+
|
 +
[[Image:KOER%20Fractions_html_m15ed765d.gif]]
 
   
 
   
'''''Learning
+
|-
Objectives'''''
+
|
 
+
50%
 
   
 
   
Understand Addition of Fractions
+
|
 
+
[[Image:KOER%20Fractions_html_df52f71.gif]]
 
   
 
   
'''''Materials
+
|-
and resources required '''''
+
|
 
+
25%
 
   
 
   
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Addition.html]]
+
|
 
+
[[Image:KOER%20Fractions_html_m6c97abb.gif]]
 
   
 
   
'''''Pre-requisites/
+
|-
Instructions Method '''''
+
|
 
+
75%
 
   
 
   
Open link
+
|
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Addition.html]]
+
[[Image:KOER%20Fractions_html_m6cb13da4.gif]]
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_m3dd8c669a.png]]
+
|-
 
+
|
 
+
10%
 
   
 
   
Move the sliders
+
|
Numerator1 and Denominator1 to set Fraction 1
+
[[Image:KOER%20Fractions_html_26bc75d0.gif]]
 
 
 
   
 
   
Move the sliders
+
|-
Numerator2 and Denominator2 to set Fraction 2
+
|
 
+
20%
 
   
 
   
See the last bar
+
|
to see the result of adding fraction 1 and fraction 2
+
[[Image:KOER%20Fractions_html_m73e98509.gif]]
 
+
 +
|-
 +
|
 +
40%
 +
 +
|
 +
[[Image:KOER%20Fractions_html_m2dd64d0b.gif]]
 
   
 
   
When you move
+
|} 
the sliders ask children to
 
  
 
   
 
   
Observe and
 
describe what happens when the denominator is changed.
 
 
 
   
 
   
Observe and
+
[[Image:KOER%20Fractions_html_m60c76c68.gif]]To
describe what happens when denominator changes
+
see 40 % visually see the figure :
  
 
   
 
   
Observe and
+
You
describe the values of the numerator and denominator and relate it to
+
can see that if the shape is divided into 5 equal parts, then 2 of
the third result fraction.
+
those parts are shaded.
  
 
   
 
   
Discuss LCM and
+
If
GCF
+
the shape is divided into 100 equal parts, then 40 parts are shaded.
  
 
   
 
   
'''''Evaluation'''''
+
These
 +
are equivalent fractions as in both cases the same amount has been
 +
shaded.
  
=== Activity 2 Fraction Subtraction ===
 
 
   
 
   
'''''Learning
 
Objectives '''''
 
 
 
   
 
   
Understand Fraction Subtraction
+
== Ratio and Proportion ==
 
 
 
   
 
   
'''''Materials and
+
It
resources required'''''
+
is important to understand that fractions also can be interpreted as
 +
ratio's. Stressing that a fraction can be interpreted in many ways is
 +
of vital importance. Here briefly I describe the linkages that must
 +
be established between Ratio and Proportion and the fraction
 +
representation. Connecting multiplication of fractions is key to
 +
understanding ratio and proportion.
  
 
   
 
   
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Subtraction.html]]
 
 
 
 
'''''Pre-requisites/
 
Instructions Method '''''
 
 
 
   
 
   
Open link
+
'''What'''
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_Subtraction.html]]
+
is ratio?
  
 
   
 
   
 
+
Ratio
 
+
is a way of comparing amounts of something. It shows how much bigger
 +
one thing is than another. For example:
  
 
   
 
   
[[Image:KOER%20Fractions_html_481d8c4.png|600px]]
+
* Use 1 measure detergent (soap) to 10 measures water
 
+
* Use 1 shovel (bucket) of cement to 3 shovels (buckets) of sand
 
+
* Use 3 parts blue paint to 1 part white
 
   
 
   
Move the sliders Numerator1 and Denominator1 to set Fraction 1
+
Ratio
 +
is the number of '''parts''' to a mix. The paint mix is 4
 +
parts, with 3 parts blue and 1 part white.
  
 
   
 
   
Move the sliders Numerator2 and Denominator2 to set Fraction 2
+
The
 +
order in which a ratio is stated is important. For example, the ratio
 +
of soap to water is 1:10. This means for every 1 measure of soap
 +
there are 10 measures of water.
  
 
   
 
   
See the last bar to see the result of subtracting fraction 1 and
+
Mixing
fraction 2
+
paint in the ratio 3:1 (3 parts blue paint to 1 part white paint)
 +
means 3 + 1 = 4 parts in all.
  
 
   
 
   
 
+
3
 
+
parts blue paint to 1 part white paint = is ¾ blue paint to ¼ white
 +
paint.
  
 
   
 
   
When you move the sliders ask children to
 
 
 
   
 
   
observe and describe what happens when the denominator is
+
Cost
changed.
+
of a pen is Rs 10 and cost of a pencil is Rs 2. How many times the
 +
cost of a pencil is the cost of a pen? Obviously it is five times.
 +
This can be written as
  
 
   
 
   
observe and describe what happens when denominator changes
 
 
 
   
 
   
observe and describe the values of the numerator and denominator
+
The
and relate it to the third result fraction.
+
ratio of the cost of a pen to the cost of a pencil =
 +
[[Image:KOER%20Fractions_html_m762fb047.gif]]
  
 
   
 
   
Discuss LCM and GCF
 
 
 
   
 
   
'''''Evaluation'''''
+
What
 +
is Direct Proportion ?
  
=== Activity 3  Multiplication of fractions ===
 
 
   
 
   
'''''Learning
+
Two
Objectives '''''
+
quantities are in direct proportion when they increase or decrease in
 +
the same ratio. For example you could increase something by doubling
 +
it or decrease it by halving. If we look at the example of mixing
 +
paint the ratio is 3 pots blue to 1 pot white, or 3:1.
  
 
   
 
   
Understand Multiplication of fractions
+
Paint
 +
pots in a ratio of 3:1
  
 
   
 
   
'''''Materials and
+
[[Image:KOER%20Fractions_html_m22cda036.gif]]
resources required'''''
 
  
 +
   
 
   
 
   
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_MultiplyArea.html]]
+
But
 +
this amount of paint will only decorate two walls of a room. What if
 +
you wanted to decorate the whole room, four walls? You have to double
 +
the amount of paint and increase it in the same ratio.
  
 
   
 
   
'''''Pre-requisites/
+
If
Instructions Method '''''
+
we double the amount of blue paint we need 6 pots.
  
 
   
 
   
Open link
+
If
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_MultiplyArea.html]]
+
we double the amount of white paint we need 2 pots.
  
 
   
 
   
 +
Six
 +
paint pots in a ratio of 3:1
  
 
 
 
   
 
   
[[Image:KOER%20Fractions_html_12818756.png|600px]]
+
 
+
The
 +
amount of blue and white paint we need increase in direct proportion
 +
to each other. Look at the table to see how as you use more blue
 +
paint you need more white paint:
  
 
   
 
   
Move the sliders Numerator1 and Denominator1 to set Fraction 1
+
Pots
 +
of blue paint 3 6 9 12
  
 
   
 
   
Move the sliders Numerator2 and Denominator2 to set Fraction 2
+
Pots
 +
of white paint 1 2 3 4
  
 +
 
 
   
 
   
On the right hand side see the result of multiplying fraction 1
+
Two
and fraction 2
+
quantities which are in direct proportion will always produce a graph
 +
where all the points can be joined to form a straight line.
  
 
   
 
   
'''Material/Activity Sheet'''
 
 
 
   
 
   
Please open
+
'''What'''
[[http://rmsa.karnatakaeducation.org.in/sites/rmsa.karnatakaeducation.org.in/files/documents/Fraction_MultiplyArea.html]]
+
is Inverse Proportion ?
in Firefox and follow the process
 
  
 
   
 
   
When you move the sliders ask children to
+
Two
 +
quantities may change in such a manner that if one quantity increases
 +
the the quantity decreases and vice-versa. For example if we are
 +
building a room, the time taken to finish decreases as the number of
 +
workers increase. Similarly when the speed increases the time to
 +
cover a distance decreases. Zaheeda can go to school in 4 different
 +
ways. She can walk, run, cycle or go by bus.
  
 
   
 
   
observe and describe what happens when the denominator is
+
Study
changed.
+
the table below, observe that as the speed increases time taken to
 
+
cover the distance decreases
 +
                           
 +
{| border="1"
 +
|-
 +
|
 
   
 
   
observe and describe what happens when denominator changes
+
|
 
+
Walk
 
   
 
   
One unit will be the large square border-in blue solid lines
+
|
 
+
Run
 
   
 
   
A sub-unit is in dashed lines within one square unit.
+
|
 
+
Cycle
 
   
 
   
The thick red lines represent the fraction 1 and 2 and also the
+
|
side of the quadrilateral
+
Bus
 
 
 
   
 
   
The product represents the area of the the quadrilateral
+
|-
 
+
|
 +
Speed
 +
Km/Hr
 
   
 
   
'''''Evaluation'''''
+
|
 
+
3
 
   
 
   
When
+
|
two fractions are multiplied
+
6
is the product larger or smaller that the multiplicands – why ?
+
(walk speed *2)
 
 
=== Activity 4 Division by Fractions ===
 
 
   
 
   
'''''Learning
+
|
Objectives '''''
+
9
 
+
(walk speed *3)
 
   
 
   
Understand Division by Fractions
+
|
 
+
45
 +
(walk speed *15)
 
   
 
   
'''''Materials and
+
|-
resources required'''''
+
|
 
+
Time
 +
Taken (minutes)
 
   
 
   
[[http://www.superteacherworksheets.com/fractions/fractionstrips_TWQWF.pdf]]
+
|
 
+
30
 
   
 
   
Crayons/ colour
+
|
pencils, Scissors, glue
+
15
 
+
(walk Time * ½)
 +
 +
|
 +
10
 +
(walk Time * 1/3)
 +
 +
|
 +
2
 +
(walk Time * 1/15)
 
   
 
   
'''''Pre-requisites/
+
|}
Instructions Method '''''
 
 
 
 
   
 
   
Print out the pdf
+
As
[[http://www.superteacherworksheets.com/fractions/fractionstrips_TWQWF.pdf]]
+
Zaheeda doubles her speed by running, time reduces to half. As she
 +
increases her speed to three times by cycling, time decreases to one
 +
third. Similarly, as she increases her speed to 15 times, time
 +
decreases to one fifteenth. (Or, in other words the ratio by which
 +
time decreases is inverse of the ratio by which the corresponding
 +
speed increases). We can say that speed and time change inversely in
 +
proportion.
  
 
   
 
   
Colour each of the unit fractions in different colours. Keep the
 
whole unit (1) white.
 
 
 
   
 
   
Cut out each unit fraction piece.
+
'''Moving from Additive Thinking to'''
 +
Multiplicative Thinking
  
 
   
 
   
Give examples
 
[[Image:KOER%20Fractions_html_m282c9b3f.gif]]
 
 
 
   
 
   
For example if we try the first one,
+
Avinash
[[Image:KOER%20Fractions_html_21ce4d27.gif]]
+
thinks that if you use 5 spoons of sugar to make 6 cups of tea, then
See how many
+
you would need 7 spoons of sugar to make 8 cups of tea just as sweet
[[Image:KOER%20Fractions_html_m31bd6afb.gif]]strips
+
as the cups before. Avinash would be using an '''''additive'''''
will fit exactly onto whole unit strip.
+
transformation<nowiki>'''</nowiki>'''''; '''he thinks that since we added 2 more''
 +
cups of tea from 6 to 8. To keep it just as sweet he would need to
 +
add to more spoons of sugar. What he does not know is that for it to
 +
taste just as sweet he would need to preserve the ratio of sugar to
 +
tea cup and use '''multiplicative thinking'''. He is unable to
 +
detect the ratio.
  
 
   
 
   
 
+
=== Proportional Reasoning ===
 
 
 
 
 
   
 
   
'''''Evaluation'''''
+
'''''Proportional'''''
 +
thinking''''' involves the ability to understand and compare'''''
 +
ratios, and to predict and produce equivalent ratios. It requires
 +
comparisons between quantities and also the relationships between
 +
quantities. It involves quantitative thinking as well as qualitative
 +
thinking. A feature of proportional thinking is the multiplicative
 +
relationship among the quantities and being able to recognize this
 +
relationship. The relationship may be direct (divide), i.e. when one
 +
quantity increases, the other also increases. The relationship is
 +
inverse (multiply), when an increase in one quantity implies a
 +
decrease in the other, in both cases the ratio or the rate of change
 +
remains a constant.
  
 
   
 
   
When
 
we divide by a fraction is the result larger or smaller why ?
 
 
 
   
 
   
 
+
The
 
+
process of adding involved situations such as adding, joining,
 +
subtracting, removing actions which involves the just the two
 +
quantities that are being joined, while proportional thinking is
 +
associated with shrinking, enlarging, scaling , fair sharing etc. The
 +
process involves multiplication. To be able to recognize, analyse and
 +
reason these concepts is '''''multiplicative thinking/reasoning'''''.
 +
Here the student must be able to understand the third quantity which
 +
is the ratio of the two quantities. The preservation of the ratio is
 +
important in the multiplicative transformation.
  
 
   
 
   
== Evaluation ==
 
 
   
 
   
== Self-Evaluation ==
+
== Rational & Irrational Numbers ==
 
   
 
   
== Further Exploration ==
+
After
 +
the number line was populated with natural numbers, zero and the
 +
negative integers, we discovered that it was full of gaps. We
 +
discovered that there were numbers in between the whole numbers -
 +
fractions we called them.
 +
 
 
   
 
   
# [[http://www.youtube.com/watch?v=41FYaniy5f8]] detailed conceptual understanding of division by fractions
+
But,
# [[http://www.homeschoolmath.net/teaching/f/understanding_fractions.php]] understanding fractions
+
soon we discovered numbers that could not be expressed as a fraction.
# [[http://www.superteacherworksheets.com]] Worksheets in mathematics for teachers to use
+
These numbers could not be represented as a simple fraction. These
 +
were called irrational numbers. The ones that can be represented by a
 +
simple fraction are called rational numbers. They h ad a very
 +
definite place in the number line but all that could be said was that
 +
square root of 2 is between 1.414 and 1.415. These numbers were very
 +
common. If you constructed a square, the diagonal was an irrational
 +
number. The idea of an irrational number caused a lot of agony to
 +
the Greeks. Legend has it that Pythagoras was deeply troubled by
 +
this discovery made by a fellow scholar and had him killed because
 +
this discovery went against the Greek idea that numbers were perfect.
 +
 
 
   
 
   
= Linking Fractions to other Topics =
+
How
 +
can we be sure that an irrational number cannot be expressed as a
 +
fraction? This can be proven algebraic manipulation. Once these
 +
&quot;irrational numbers&quot; came to be identified, the numbers
 +
that can be expressed of the form p/q where defined as rational
 +
numbers.
 +
 
 
   
 
   
== Introduction ==
+
There
 +
is another subset called transcendental numbers which have now been
 +
discovered. These numbers cannot be expressed as the solution of an
 +
algebraic polynomial. &quot;pi&quot; and &quot;e&quot; are such
 +
numbers.
 +
 
 
   
 
   
It is also very common for the school system to treat themes in a
+
== Activities ==
separate manner. Fractions are taught as stand alone chapters. In
+
this resource book an attempt to connect it to other middle school
+
=== Activity 1  Fractions representation of decimal numbers ===
topics such as Ratio Proportion, Percentage and high school topics
+
such as rational and irrational numbers, inverse proportions are
+
'''''Learning'''''
made. These other topics are not discussed in detail themselves, but
+
Objectives
used to show how to link these other topics with the already
+
understood concepts of fractions.
+
Fractions representation of decimal
 +
numbers
 +
 +
'''''Materials and'''''
 +
resources required
 +
 +
[[http://www.superteacherworksheets.com/decimals/decimal-tenths-squares_TWDWQ.pdf Decimals: Tenths]]
 +
 +
[[http://www.superteacherworksheets.com/decimals/decimal-hundredths-tenths.pdf Decimal: Hundredths and Tenths]]
 +
 +
 +
'''''Pre-requisites/'''''
 +
Instructions Method
 +
 +
Make copies of the above given resources.
 +
 
 +
'''''Evaluation'''''
 +
# Draw a number line and name the fraction and decimal numbers on the number line. Take a print of the document [[http://www.superteacherworksheets.com/decimals/decimal-number-lines-tenths.pdf]] ''' . '''Ask students to place any fraction and decimal numbers between between 0 and 10 on the number line
 +
# Write 0.45, 0.68, 0.05 in fraction form and represent as a fraction 100 square.
  
 +
=== Activity 2 Fraction representation and percentages ===
 
   
 
   
 +
'''''Learning'''''
 +
Objectives
  
 +
Understand fraction representation and percentages
  
 +
'''''Materials and'''''
 +
resources required
  
 +
[[http://www.superteacherworksheets.com/percents/converting-fractions-decimals-percents_EASIE.pdf Converting fractions, decimals and percents]]<br>
 +
[[http://www.superteacherworksheets.com/percents/basic-percentages1.pdf Percentage]]
 
   
 
   
== Objectives ==
+
'''''Pre-requisites/Instructions Method'''''
 +
 
 +
Please print copies of the above given activity sheets and discuss the various percentage quantities with various shapes.
 +
 
 +
Then print a copy each of [[spider-percentages.pdf]] and make the children do this activity
 +
 
 +
'''''Evaluation'''''
 +
# What value is the denominator when we represent percentage as fraction ?
 +
# What does the numerator represent ?
 +
# What does the whole fraction represent ?
 +
# What other way can we represent a fraction whose denominator is 100.
 +
 
 +
=== Activity 3 Fraction representation and rational and irrational numbers ===
 
   
 
   
Explicitly link the other
+
'''''Learning Objectives'''''
topics in school mathematics that use fractions.
 
  
 +
Understand fraction representation and rational and irrational numbers <br>
 +
'''''Materials and resources required'''''
 
   
 
   
== Decimal Numbers ==
+
Thread of a certain length.
 
   
 
   
“Decimal”
+
'''''Pre-requisites/Instructions Method'''''
comes from the Latin root '''''decem''''',
 
which simply means ten. The number system we use is called the
 
decimal number system, because the place value units go in tens: you
 
have ones, tens, hundreds, thousands, and so on, each unit being 10
 
times the previous one.
 
 
 
 
   
 
   
In
+
Construct Koch's snowflakes .  
common language, the word “decimal number” has come to mean
 
numbers which have digits after the decimal point, such as 5.8 or
 
9.302. But in reality, any number within the decimal number system
 
could be termed a decimal number, including whole numbers such as 12
 
or 381.
 
 
 
 
   
 
   
 
+
Start
 
+
with a thread of a certain length (perimeter) and using the same
 
+
thread construct the following shapes (see Figure).
 
   
 
   
The
+
[[Image:KOER%20Fractions_html_m1a6bd0d0.gif]]
simplest way to link or connect fractions to the decimal number
 
system is with the number line representation. Any scale that a
 
child uses is also very good for this purpose, as seen in the figure
 
below.
 
 
 
 
   
 
   
 
+
See
 
+
how the shapes can continue to emerge but cannot be identified
 
+
definitely with the same perimeter (length of the thread).
 
   
 
   
The
+
Identify
number line between 0 and 1 is divided into ten parts. Each of these
+
the various places where pi, &quot;e&quot; and the golden ratio occur
ten parts is '''1/10''', a '''tenth'''.
 
  
 +
== Evaluation ==
 +
# How many numbers can I represent on a number line between 1 and 2.
 +
# What is the difference between a rational and irrational number, give an example ?
 +
# What is Pi ? Why is it a special number ?
 
   
 
   
[[Image:KOER%20Fractions_html_3d7b669f.gif]]
+
== Self-Evaluation ==
  
 +
== Worksheets ==
 +
# fraction addition worksheet [http://karnatakaeducation.org.in/KOER/en/images/1/11/Fractionaddition.odt Fraction simple addition]
 +
# fraction addition worksheet  Fraction simple addition]
 +
# Fraction multiplication worksheet [http://karnatakaeducation.org.in/KOER/en/images/8/83/Multiplication.odt multiplication]
 +
# Fraction Division worksheet [http://karnatakaeducation.org.in/KOER/en/images/c/ca/Division.odt Division]
 +
# Fraction Subtraction worksheet[http://karnatakaeducation.org.in/KOER/en/images/1/1d/Subtraction.odt Subtraction]
  
 +
== Further Exploration ==
 
   
 
   
Under
+
# Percentage and Fractions, [[http://www.bbc.co.uk/skillswise/numbers/wholenumbers/]]
the tick marks you see decimal numbers such as 0.1, 0.2, 0.3, and so
+
# A mathematical curve Koch snowflake, [[http://en.wikipedia.org/wiki/Koch_snowflake]]
on. These are the same numbers as the fractions 1/10, 2/10, 3/10 and
+
# Bringing it Down to Earth: A Fractal Approach, [[http://www.realmagick.com/5552/bringing-it-down-to-earth-a-fractal-approach/]]
so on.
 
 
 
 
   
 
   
We
+
= See Also =
can write any fraction with '''tenths (denominator 10) '''using the
+
# At Right Angles December 2012 Fractions Pullout [[http://www.teachersofindia.org/en/article/atria-pullout-section-december-2012]]
decimal point. Simply write after the decimal point how many tenths
+
# Video on teaching fractions using the equal share method made by Eklavya an NGO based in Madhya Pradesh, India [[http://vimeo.com/22238434]]
the number has. 0.6 means six tenths or 1/6. 1.5 means 1 whole and 5
+
# Mathematics resources from Homi Baba Centre for Science Education [[http://mathedu.hbcse.tifr.res.in/]]
tenths or
+
# Understand how to use Geogebra a mathematical computer aided tool [[http://www.geogebra.com]] <br>
[[Image:KOER%20Fractions_html_m7f1d448c.gif]]
 
  
+
= Teachers Corner =
Note: A common error one sees is 0.7 is written as 1 /7. It is
 
seven tenths and not one seventh. That the denominator is always 10
 
has to be stressed. To reinforce this one can use a simple rectangle
 
divided into 10 parts , the same that was used to understand place
 
value in whole numbers.
 
  
   
+
GOVT  HIGH SCHOOL, DOMLUR<br><br>
The
 
coloured portion represents 0.6 or 6/10 and the whole block
 
represents 1.
 
  
 
+
Our  8th std students are learning about fraction using projector . <br>
[[Image:KOER%20Fractions_html_1cf72869.gif]]
+
[[File:1.jpg|400px]]<br>
 
+
Students are actively participating in the activity.<br>
 
 
 
 
== Percentages ==
 
   
 
Fractions and percentages are different ways of writing the same
 
thing. When we say that a book costs Rs. 200 and the shopkeeper is
 
giving a 10 % discount. Then we can represent the 10% as a fraction
 
as
 
[[Image:KOER%20Fractions_html_m1369c56e.gif]]
 
where '''10 is the numerator''' and the '''denominator is '''<u>'''always'''</u>'''
 
100'''. In this case 10 % of the cost of the book is
 
[[Image:KOER%20Fractions_html_m50e22a06.gif]].
 
So you can buy the book for 200 – 20 = 180 rupees.
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
There
 
are a number of common ones that are useful to learn. Here is a table
 
showing you the ones that you should learn.
 
 
 
                                     
 
{| border="1"
 
|-
 
|
 
Percentage
 
 
 
 
|
 
Fraction
 
 
 
 
|-
 
|
 
100%
 
 
 
 
|
 
[[Image:KOER%20Fractions_html_m15ed765d.gif]]
 
 
 
 
|-
 
|
 
50%
 
 
 
 
|  
 
[[Image:KOER%20Fractions_html_df52f71.gif]]
 
 
 
 
|-
 
|
 
25%
 
 
 
 
|
 
[[Image:KOER%20Fractions_html_m6c97abb.gif]]
 
 
 
 
|-
 
|
 
75%
 
 
 
 
|
 
[[Image:KOER%20Fractions_html_m6cb13da4.gif]]
 
 
 
 
|-
 
|
 
10%
 
 
 
 
|
 
[[Image:KOER%20Fractions_html_26bc75d0.gif]]
 
 
 
 
|-
 
|
 
20%
 
 
 
 
|
 
[[Image:KOER%20Fractions_html_m73e98509.gif]]
 
 
 
 
|-
 
|
 
40%
 
 
 
 
|
 
[[Image:KOER%20Fractions_html_m2dd64d0b.gif]]
 
 
 
 
|} 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
[[Image:KOER%20Fractions_html_m60c76c68.gif]]To
 
see 40 % visually see the figure :
 
 
 
 
You
 
can see that if the shape is divided into 5 equal parts, then 2 of
 
those parts are shaded.
 
 
 
 
If
 
the shape is divided into 100 equal parts, then 40 parts are shaded.
 
 
 
 
These
 
are equivalent fractions as in both cases the same amount has been
 
shaded.
 
 
 
 
 
 
 
 
 
 
 
== Ratio and Proportion ==
 
 
It
 
is important to understand that fractions also can be interpreted as
 
ratio's. Stressing that a fraction can be interpreted in many ways is
 
of vital importance. Here briefly I describe the linkages that must
 
be established between Ratio and Proportion and the fraction
 
representation. Connecting multiplication of fractions is key to
 
understanding ratio and proportion.
 
 
 
 
 
 
 
 
 
 
 
'''What
 
is ratio?'''
 
 
 
 
Ratio
 
is a way of comparing amounts of something. It shows how much bigger
 
one thing is than another. For example:
 
 
 
 
* Use 1 measure detergent (soap) to 10 measures water
 
* Use 1 shovel (bucket) of cement to 3 shovels (buckets) of sand
 
* Use 3 parts blue paint to 1 part white
 
 
Ratio
 
is the number of '''parts''' to a mix. The paint mix is 4
 
parts, with 3 parts blue and 1 part white.
 
 
 
 
The
 
order in which a ratio is stated is important. For example, the ratio
 
of soap to water is 1:10. This means for every 1 measure of soap
 
there are 10 measures of water.
 
 
 
 
Mixing
 
paint in the ratio 3:1 (3 parts blue paint to 1 part white paint)
 
means 3 + 1 = 4 parts in all.
 
 
 
 
3
 
parts blue paint to 1 part white paint = is ¾ blue paint to ¼ white
 
paint.
 
 
 
 
 
 
 
 
 
 
 
Cost
 
of a pen is Rs 10 and cost of a pencil is Rs 2. How many times the
 
cost of a pencil is the cost of a pen? Obviously it is five times.
 
This can be written as
 
 
 
 
 
 
 
 
 
 
 
The
 
ratio of the cost of a pen to the cost of a pencil =
 
[[Image:KOER%20Fractions_html_m762fb047.gif]]
 
 
 
 
 
 
 
 
 
 
 
What
 
is Direct Proportion ?
 
 
 
 
Two
 
quantities are in direct proportion when they increase or decrease in
 
the same ratio. For example you could increase something by doubling
 
it or decrease it by halving. If we look at the example of mixing
 
paint the ratio is 3 pots blue to 1 pot white, or 3:1.
 
 
 
 
Paint
 
pots in a ratio of 3:1
 
 
 
 
[[Image:KOER%20Fractions_html_m22cda036.gif]]
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
But
 
this amount of paint will only decorate two walls of a room. What if
 
you wanted to decorate the whole room, four walls? You have to double
 
the amount of paint and increase it in the same ratio.
 
 
 
 
If
 
we double the amount of blue paint we need 6 pots.
 
 
 
 
If
 
we double the amount of white paint we need 2 pots.
 
 
 
 
Six
 
paint pots in a ratio of 3:1
 
 
 
 
 
 
 
 
 
 
 
The
 
amount of blue and white paint we need increase in direct proportion
 
to each other. Look at the table to see how as you use more blue
 
paint you need more white paint:
 
 
 
 
Pots
 
of blue paint 3 6 9 12
 
 
 
 
Pots
 
of white paint 1 2 3 4
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Two
 
quantities which are in direct proportion will always produce a graph
 
where all the points can be joined to form a straight line.
 
 
 
 
 
 
 
 
 
 
 
'''What
 
is Inverse Proportion ?'''
 
 
 
 
Two
 
quantities may change in such a manner that if one quantity increases
 
the the quantity decreases and vice-versa. For example if we are
 
building a room, the time taken to finish decreases as the number of
 
workers increase. Similarly when the speed increases the time to
 
cover a distance decreases. Zaheeda can go to school in 4 different
 
ways. She can walk, run, cycle or go by bus.
 
 
 
 
Study
 
the table below, observe that as the speed increases time taken to
 
cover the distance decreases
 
 
 
 
 
 
 
 
 
 
                           
 
{| border="1"
 
|-
 
|
 
 
 
 
 
 
|
 
Walk
 
 
 
 
|
 
Run
 
 
 
 
|
 
Cycle
 
 
 
 
|
 
Bus
 
 
 
 
|-
 
|
 
Speed
 
Km/Hr
 
 
 
 
|
 
3
 
 
 
 
|
 
6
 
(walk speed *2)
 
 
 
 
|
 
9
 
(walk speed *3)
 
 
 
 
|
 
45
 
(walk speed *15)
 
 
 
 
|-
 
|
 
Time
 
Taken (minutes)
 
 
 
 
|
 
30
 
 
 
 
|
 
15
 
(walk Time * ½)
 
 
 
 
|
 
10
 
(walk Time * 1/3)
 
 
 
 
|
 
2
 
(walk Time * 1/15)
 
 
 
 
|}
 
 
 
 
 
 
 
 
As
 
Zaheeda doubles her speed by running, time reduces to half. As she
 
increases her speed to three times by cycling, time decreases to one
 
third. Similarly, as she increases her speed to 15 times, time
 
decreases to one fifteenth. (Or, in other words the ratio by which
 
time decreases is inverse of the ratio by which the corresponding
 
speed increases). We can say that speed and time change inversely in
 
proportion.
 
 
 
 
 
 
 
 
 
 
 
'''Moving from Additive Thinking to
 
Multiplicative Thinking '''
 
 
 
 
 
 
 
 
 
Avinash
 
thinks that if you use 5 spoons of sugar to make 6 cups of tea, then
 
you would need 7 spoons of sugar to make 8 cups of tea just as sweet
 
as the cups before. Avinash would be using an '''''additive
 
transformation''''''''; '''he thinks that since we added 2 more
 
cups of tea from 6 to 8. To keep it just as sweet he would need to
 
add to more spoons of sugar. What he does not know is that for it to
 
taste just as sweet he would need to preserve the ratio of sugar to
 
tea cup and use '''multiplicative thinking'''. He is unable to
 
detect the ratio.
 
 
 
 
=== Proportional Reasoning ===
 
 
'''''Proportional
 
thinking''''' involves the ability to understand and compare
 
ratios, and to predict and produce equivalent ratios. It requires
 
comparisons between quantities and also the relationships between
 
quantities. It involves quantitative thinking as well as qualitative
 
thinking. A feature of proportional thinking is the multiplicative
 
relationship among the quantities and being able to recognize this
 
relationship. The relationship may be direct (divide), i.e. when one
 
quantity increases, the other also increases. The relationship is
 
inverse (multiply), when an increase in one quantity implies a
 
decrease in the other, in both cases the ratio or the rate of change
 
remains a constant.
 
 
 
 
 
 
 
 
 
The
 
process of adding involved situations such as adding, joining,
 
subtracting, removing actions which involves the just the two
 
quantities that are being joined, while proportional thinking is
 
associated with shrinking, enlarging, scaling , fair sharing etc. The
 
process involves multiplication. To be able to recognize, analyse and
 
reason these concepts is '''''multiplicative thinking/reasoning'''''.
 
Here the student must be able to understand the third quantity which
 
is the ratio of the two quantities. The preservation of the ratio is
 
important in the multiplicative transformation.
 
 
 
 
 
 
 
 
 
 
 
== Rational & Irrational Numbers ==
 
 
After
 
the number line was populated with natural numbers, zero and the
 
negative integers, we discovered that it was full of gaps. We
 
discovered that there were numbers in between the whole numbers -
 
fractions we called them.
 
 
 
 
But,
 
soon we discovered numbers that could not be expressed as a fraction.
 
These numbers could not be represented as a simple fraction. These
 
were called irrational numbers. The ones that can be represented by a
 
simple fraction are called rational numbers. They h ad a very
 
definite place in the number line but all that could be said was that
 
square root of 2 is between 1.414 and 1.415. These numbers were very
 
common. If you constructed a square, the diagonal was an irrational
 
number. The idea of an irrational number caused a lot of agony to
 
the Greeks. Legend has it that Pythagoras was deeply troubled by
 
this discovery made by a fellow scholar and had him killed because
 
this discovery went against the Greek idea that numbers were perfect.
 
 
 
 
How
 
can we be sure that an irrational number cannot be expressed as a
 
fraction? This can be proven algebraic manipulation. Once these
 
&quot;irrational numbers&quot; came to be identified, the numbers
 
that can be expressed of the form p/q where defined as rational
 
numbers.
 
 
 
 
There
 
is another subset called transcendental numbers which have now been
 
discovered. These numbers cannot be expressed as the solution of an
 
algebraic polynomial. &quot;pi&quot; and &quot;e&quot; are such
 
numbers.
 
 
 
 
== Activities ==
 
 
=== Activity 1  Fractions representation of decimal numbers ===
 
 
'''''Learning
 
Objectives '''''
 
 
 
 
Fractions representation of decimal
 
numbers
 
 
 
 
'''''Materials and
 
resources required'''''
 
 
 
 
[[http://www.superteacherworksheets.com/decimals/decimal-tenths-squares_TWDWQ.pdf]]
 
 
 
 
[[http://www.superteacherworksheets.com/decimals/decimal-hundredths-tenths.pdf]]
 
 
 
 
 
 
 
 
 
 
 
'''''Pre-requisites/
 
Instructions Method '''''
 
 
 
 
Make copies of the worksheets
 
 
 
 
[[http://www.superteacherworksheets.com/decimals/decimal-tenths-squares_TWDWQ.pdf]]
 
 
 
 
[[http://www.superteacherworksheets.com/decimals/decimal-hundredths-tenths.pdf]]
 
 
 
 
 
 
 
 
 
 
 
'''''Evaluation'''''
 
 
 
 
# Draw a number line and name the fraction and decimal numbers on the number line. Take a print of the document [[http://www.superteacherworksheets.com/decimals/decimal-number-lines-tenths.pdf]] ''' . '''Ask students to place any fraction and decimal numbers between between 0 and 10 on the number line
 
# Write 0.45, 0.68, 0.05 in fraction form and represent as a fraction 100 square.
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
=== Activity 2 Fraction representation and percentages ===
 
 
'''''Learning
 
Objectives '''''
 
 
 
 
Understand fraction representation and percentages
 
 
 
 
 
 
 
 
 
 
 
'''''Materials and
 
resources required'''''
 
 
 
 
[[http://www.superteacherworksheets.com/percents/converting-fractions-decimals-percents_EASIE.pdf]]
 
 
 
 
[[http://www.superteacherworksheets.com/percents/basic-percentages1.pdf]]
 
 
 
 
'''''Pre-requisites/
 
Instructions Method '''''
 
 
 
 
Please print
 
copies of the 2 activity sheets
 
[[http://www.superteacherworksheets.com/percents/converting-fractions-decimals-percents_EASIE.pdf]] and
 
[[http://www.superteacherworksheets.com/percents/basic-percentages1.pdf]] and discuss the various percentage quantities with
 
the various shapes.
 
 
 
 
 
 
 
 
 
Then print a copy
 
each of [[spider-percentages.pdf]]
 
and make the children do this activity
 
 
 
 
 
 
 
 
 
 
 
'''''Evaluation'''''
 
 
 
 
# What value is the denominator when we represent percentage as fraction ?
 
# What does the numerator represent ?
 
# What does the whole fraction represent ?
 
# What other way can we represent a fraction whose denominator is 100.
 
 
 
 
 
 
 
 
 
 
 
 
 
 
=== Activity 3 Fraction representation and rational and irrational numbers ===
 
 
'''''Learning
 
Objectives '''''
 
 
 
 
Understand fraction representation and rational and irrational
 
numbers
 
 
 
 
'''''Materials and
 
resources required'''''
 
 
 
 
Thread
 
of a certain length.
 
 
 
 
'''''Pre-requisites/
 
Instructions Method '''''
 
 
 
 
Construct
 
Koch's snowflakes .
 
 
 
 
 
 
 
 
 
Start
 
with a thread of a certain length (perimeter) and using the same
 
thread construct the following shapes (see Figure).
 
 
 
 
[[Image:KOER%20Fractions_html_m1a6bd0d0.gif]]
 
 
 
 
See
 
how the shapes can continue to emerge but cannot be identified
 
definitely with the same perimeter (length of the thread).
 
 
 
 
 
 
 
 
 
Identify
 
the various places where pi, &quot;e&quot; and the golden ratio
 
occur
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
'''''Evaluation'''''
 
  
   
+
They are learning about meaning of the fractions, equivalent fractions and addition of fractions using paper cuttings.<br>
# How many numbers can I represent on a number line between 1 and 2.
+
[[File:2..jpg|400px]][[File:3.jpg|400px]][[File:4.jpg|400px]] <br><br>
# What is the difference between a rational and irrational number, give an example ?
+
A student is showing 1/4=? 1/6+1/12<br>
# What is Pi ? Why is it a special number ?
+
[[File:5.jpg|400px]]<br>
+
[[File:6..jpg|400px]]<br>
  
 +
Showing 1/3=1/4+1/12<br>
  
 +
They started to solve the problems easily <br>
 +
[[File:7.jpg|400px]]<br>[[File:8.jpg|400px]]
  
 
== Evaluation ==
 
 
== Self-Evaluation ==
 
 
== Further Exploration ==
 
 
# Percentage and Fractions, [[http://www.bbc.co.uk/skillswise/numbers/wholenumbers/]]
 
# A mathematical curve Koch snowflake, [[http://en.wikipedia.org/wiki/Koch_snowflake]]
 
# Bringing it Down to Earth: A Fractal Approach, [[http://www.realmagick.com/5552/bringing-it-down-to-earth-a-fractal-approach/]]
 
 
= See Also =
 
 
# Video on teaching fractions using the equal share method made by Eklavya an NGO based in Madhya Pradesh, India [[http://vimeo.com/22238434]]
 
# Mathematics resources from Homi Baba Centre for Science Education , [[http://mathedu.hbcse.tifr.res.in/]]
 
# [[http://www.geogebra.com]] Understand how to use Geogebra a mathematical computer aided tool
 
 
= Teachers Corner =
 
 
 
= Books =
 
= Books =
 
   
 
   
# [[http://books.google.com/books?id=Y5Skj-EA2_AC&pg=PA251&lpg=PA251&dq=streefland+fractions&source=bl&ots=aabKaciwrA&sig=DcM0mi7r1GJlTUbZVq9J0l53Lrc&hl=en&ei=0xJBTvLjJ8bRrQfC3JmyBw&sa=X&oi=book_result&ct=result&resnum=1&ved=0CBUQ6AEwAA#v=onepage&q&f=false]] A google book Fractions in realistic mathematics education: a paradigm of developmental ...By Leen Streefland
+
# [[http://books.google.com/books?id=Y5Skj-EA2_AC&pg=PA251&lpg=PA251&dq=streefland+fractions&source=bl&ots=aabKaciwrA&sig=DcM0mi7r1GJlTUbZVq9J0l53Lrc&hl=en&ei=0xJBTvLjJ8bRrQfC3JmyBw&sa=X&oi=book_result&ct=result&resnum=1&ved=0CBUQ6AEwAA#v=onepage&q&f=false]] A google book Fractions in realistic mathematics education: a paradigm of developmental ...By Lee Streefland
+
 
 
= References =
 
= References =
 
   
 
   
 
 
 
   
 
   
 
# Introducing Fractions Using Share and Measure Interpretations: A Report from Classroom Trials . Jayasree Subramanian, Eklavya, Hoshangabad, India and Brijesh Verma,Muskan, Bhopal, India
 
# Introducing Fractions Using Share and Measure Interpretations: A Report from Classroom Trials . Jayasree Subramanian, Eklavya, Hoshangabad, India and Brijesh Verma,Muskan, Bhopal, India
 
# Streefland, L. (1993). “Fractions: A Realistic Approach.” In Carpenter, T.P., Fennema, E., Romberg, T.A. (Eds.), Rational Numbers: an Integration of Research. (289-325). New Jersey: Lawrence, Erlbaum Associates, Publishers.
 
# Streefland, L. (1993). “Fractions: A Realistic Approach.” In Carpenter, T.P., Fennema, E., Romberg, T.A. (Eds.), Rational Numbers: an Integration of Research. (289-325). New Jersey: Lawrence, Erlbaum Associates, Publishers.
 +
 +
[[Category:Fractions]]

Latest revision as of 13:09, 5 November 2019

ಕನ್ನಡದಲ್ಲಿ ನೋಡಿ

Introduction

The following is a background literature for teachers. It summarises the various concepts, approaches to be known to a teacher to teach this topic effectively . This literature is meant to be a ready reference for the teacher to develop the concepts, inculcate necessary skills, and impart knowledge in fractions from Class 6 to Class X


It is a well known fact that teaching and learning fractions is a complicated process in primary and middle school. Although much of fractions is covered in the middle school, if the foundation is not holistic and conceptual, then topics in high school mathematics become very tough to grasp. Hence this documents is meant to understand the research that has been done towards simplifying and conceptually understanding topics of fractions.

This can be used as part of the bridge course material alongwith Number Systems

Mind Map

KOER Fractions html m700917.png


Different Models for interpreting and teaching-learning fractions

Introduction

Fractions are defined in relation to a whole—or unit amount—by dividing the whole into equal parts. The notion of dividing into equal parts may seem simple, but it can be problematic. Commonly fractions are always approached by teaching it through one model or interpretation namely the part-whole model where the whole is divided into equal parts and the fraction represents one or more of the parts. The limitations of this method, especially in explaining mixed fractions, multiplication and division of fractions has led to educators using other interpretations such as equal share and measure.

Although we use pairs of numbers to represent fractions, a fraction stands for a single number, and as such, has a location on the number line. Number lines provide an excellent way to represent improper fractions, which represent an amount that is more than the related whole.

Given their different representations, and the way they sometimes refer to a number and sometimes an operation, it is important to be able to discuss fractions in the many ways they appear. A multiple representation activity, including different numerical and visual representations, is one way of doing this. Sharing food is a good way to introduce various concepts about fractions. For example, using a chocolate bar and dividing it into pieces. This can be highly motivating if learners can eat it afterwards. A clock face shows clearly what halves and quarters look like, and can be extended to other fractions with discussion about why some are easier to show than others. We can find a third of an hour, but what about a fifth?

The five meanings listed below serve as conceptual models or tools for thinking about and working with fractions and serve as a framework for designing teaching activities that engage students in sense making as they construct knowledge about fractions.

1.Part of a whole 2.Part of a group/set 3.Measure (name for point on number line) 4.Ratio 5.Indicated division

We recommend that teachers explicitly use the language of fractions in other parts of the curriculum for reinforcement. For example, when looking at shapes, talk about ‘half a square’ and ‘third of a circle’.

The various approaches to fraction teaching are discussed here.

Objectives

The objective of this section is to enable teachers to visualise and interpret fractions in different ways in order to clarify the concepts of fractions using multiple methods. The idea is for teachers to be able to select the appropriate method depending on the context, children and class they are teaching to effectively understand fractions.


Part-whole

The most commonly used model is the part whole model where where the whole is divided into equal parts and the fraction represents one or more of the parts.


KOER Fractions html 78a5005.gif


Half (½) : The whole is divided into two equal parts.


One part is coloured, this part represents the fraction ½.


KOER Fractions html 6fbd7fa5.gif


One-Fourth (1/4) : The whole is divided into four equal parts.


One part is coloured, this part represents the fraction ¼.


KOER Fractions html 43b75d3a.gif


One (2/2 or 1) : The whole is divided into two equal parts.


Two part are coloured, this part represents the fraction 2/2


which is equal to the whole or 1.


KOER Fractions html 2faaf16a.gif


Two Fifth (2/5) : The whole is divided into five equal parts.


Two part are coloured, this part represents the fraction 2/5.


KOER Fractions html 9e5c77.gifThree Seventh (3/7) : The whole is divided into seven equal parts.


Three part are coloured, this part represents the fraction 3/7.


KOER Fractions html m30791851.gif


Seven tenth (7/10) : The whole is divided into ten equal parts.


Seven part are coloured, this part represents the fraction 7/10 .


Terms Numerator and Denominator and their meaning


KOER Fractions html 3bf1fc6d.gif


Three Eight (3/8) The whole is divided into eight equal parts.


Three part are coloured, this part represents the fraction 3/8 .

3/8 is also written as numerator/denominator. Here the number above the line- numerator tells us HOW MANY PARTS are involved. It 'enumerates' or counts the coloured parts.

The number BELOW the line tells – denominator tells us WHAT KIND OF PARTS the whole is divided into. It 'denominates' or names the parts.


The important factor to note here is WHAT IS THE WHOLE . In both the figures below the fraction quantity is 1/4. In fig 1 one circle is the whole and in fig 2, 4 circles is the whole.


KOER Fractions html wholemore1a.png KOER Fractions html wholemore1b.png

Equal Share

In the equal share interpretation the fraction m/n denotes one share when m identical things are shared equally among n. The relationships between fractions are arrived at by logical reasoning (Streefland, 1993). For example 5/6 is the share of one child when 5 rotis (disk-shaped handmade bread) are shared equally among 6 children. The sharing itself can be done in more than one way and each of them gives us a relation between fractions. If we first distribute 3 rotis by dividing each into two equal pieces and giving each child one piece each child gets 1⁄2 roti. Then the remaining 2 rotis can be distributed by dividing each into three equal pieces giving each child a piece. This gives us the relations


KOER Fractions html 3176e16a.gif


The relations 3/6 = 1⁄2 and 2/6 = 1/3 also follow from the process of distribution. Another way of distributing the rotis would be to divide the first roti into 6 equal pieces give one piece each to the 6 children and continue this process with each of the remaining 4 rotis. Each child gets a share of rotis from each of the 5 rotis giving us the relation


KOER Fractions html m39388388.gif


It is important to note here that the fraction symbols on both sides of the equation have been arrived at simply by a repeated application of the share interpretation and not by appealing to prior notions one might have of these fraction symbols. In the share interpretation of fractions, unit fractions and improper fractions are not accorded a special place.


Also converting an improper fraction to a mixed fraction becomes automatic. 6/5 is the share that one child gets when 6 rotis are shared equally among 5 children and one does this by first distributing one roti to each child and then sharing the remaining 1 roti equally among 5 children giving us the relation


KOER Fractions html m799c1107.gif


Share interpretation does not provide a direct method to answer the question ‘how much is the given unknown quantity’. To say that the given unknown quantity is 3⁄4 of the whole, one has figure out that four copies of the given quantity put together would make three wholes and hence is equal to one share when these three wholes are shared equally among 4. Share interpretation is also the quotient interpretation of fractions in the sense that 3⁄4 = 3 ÷ 4 and this is important for developing students’ ability to solve problems involving multiplicative and linear functional relations.


To understand the equal share model better, use the GeoGebra file explaining the equal share model available on [[1]]. See figure below. Move the sliders m and n and see how the equal share model is interpreted.


Error creating thumbnail: File with dimensions greater than 12.5 MP

Measure Model

Measure interpretation defines the unit fraction 1/n as the measure of one part when one whole is divided into n equal parts. The composite fraction m/n is as the measure of m such parts. Thus 5/6 is made of 5 piece units of size 1/5 each and 6/5 is made of 6 piece units of size 1/5 each. Since 5 piece units of size make a whole, we get the relation 6/5 = 1 + 1/5.


Significance of measure interpretation lies in the fact that it gives a direct approach to answer the ‘how much’ question and the real task therefore is to figure out the appropriate n so that finitely many pieces of size will be equal to a given quantity. In a sense then, the measure interpretation already pushes one to think in terms of infinitesimal quantities. Measure interpretation is different from the part whole interpretation in the sense that for measure interpretation we fix a certain unit of measurement which is the whole and the unit fractions are sub-units of this whole. The unit of measurement could be, in principle, external to the object being measured.


Introducing Fractions Using Share and Measure Interpretations

One of the major difficulties a child faces with fractions is making sense of the symbol m/n. In order to facilitate students’ understanding of fractions, we need to use certain models. Typically we use the area model in both the measure and share interpretation and use a circle or a rectangle that can be partitioned into smaller pieces of equal size. Circular objects like roti that children eat every day have a more or less fixed size. Also since we divide the circle along the radius to make pieces, there is no scope for confusing a part with the whole. Therefore it is possible to avoid explicit mention of the whole when we use a circular model. Also, there is no need to address the issue that no matter how we divide the whole into n equal parts the parts will be equal. However, at least in the beginning we need to instruct children how to divide a circle into three or five equal parts and if we use the circular model for measure interpretation, we would need ready made teaching aids such as the circular fraction kit for repeated use.


Rectangular objects (like cake) do not come in the same size and can be divided into n equal parts in more than one way. Therefore we need to address the issues (i) that the size of the whole should be fixed (ii) that all 1⁄2’s are equal– something that children do not see readily. The advantage of rectangular objects is that we could use paper models and fold or cut them into equal parts in different ways and hence it easy to demonstrate for example that 3/5 = 6/10 using the measure interpretation .


Though we expose children to the use of both circles and rectangles, from our experience we feel circular objects are more useful when use the share interpretation as children can draw as many small circles as they need and since the emphasis not so much on the size as in the share, it does not matter if the drawings are not exact. Similarly rectangular objects would be more suited for measure interpretation for, in some sense one has in mind activities such as measuring the length or area for which a student has to make repeated use of the unit scale or its subunits.


Activities

Activity1: Introduction to fractions

This video helps to know the basic information about fraction.


Learning Objectives


Introduce fractions using the part-whole method


Materials and resources required

  1. Write the Number Name and the number of the picture like the example KOER Fractions html m1d9c88a9.gifNumber Name = One third Number: KOER Fractions html 52332ca.gif

KOER Fractions html 2625e655.gifKOER Fractions html m685ab2.gifKOER Fractions html 55c6e68e.gifKOER Fractions html mfefecc5.gifKOER Fractions html m12e15e63.gif


Question: What is the value of the numerator and denominator in the last figure , the answer is KOER Fractions html m2dc8c779.gif


  1. Colour the correct amount that represents the fractions

KOER Fractions html 19408cb.gif 7/10 KOER Fractions html m12e15e63.gif 3/8 KOER Fractions html m6b49c523.gif 1/5 KOER Fractions html m6f2fcb04.gif 4/7

Question: Before colouring count the number of parts in each figure. What does it represent. Answer: Denominator

  1. Divide the circle into fractions and colour the right amount to show the fraction

KOER Fractions html 55f65a3d.gif 3/5 KOER Fractions html 55f65a3d.gif 6/7 KOER Fractions html 55f65a3d.gif 1/3 KOER Fractions html 55f65a3d.gif 5/8 KOER Fractions html 55f65a3d.gif 2/5 KOER Fractions html 55f65a3d.gif


  1. Draw the Fraction and observe which is the greater fraction – observe that the parts are equal for each pair

KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif 1/3 2/3
KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif 4/5 2/5
KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif 3/7 4/7


  1. Draw the Fraction and observe which is the greater fraction – Observe that the parts are different sizes for each pair.

KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif 1/3 1/4
KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif 1/5 1/8
KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif 1/6 1/2

  1. Solve these word problems by drawing
    1. Amar divided an apple into 8 equal pieces. He ate 5 pieces. He put the other 3 in a box. What fraction did Amar eat?
    2. There are ten biscuits in the box. 3 are cream biscuits. 2 are salt biscuits. 4 are chocolate biscuits. 1 is a sugar biscuit. What fraction of the biscuits in the box are salt biscuits.
    3. Radha has 6 pencils. She gives one to Anil and he gives one to Anita. She keeps the rest. What fraction of her pencils did she give away?
  1. The circles in the box represent the whole; colour the right amount to show the fraction KOER Fractions html m78f3688a.gifHint: Half is 2 circles


KOER Fractions html activity1.png


Pre-requisites/ Instructions Method

Do the six different sections given in the activity sheet. For each section there is a discussion point or question for a teacher to ask children.


After the activity sheet is completed, please use the evaluation questions to see if the child has understood the concept of fractions


Evaluation

  1. Recognises that denominator is the total number of parts a whole is divided into
  2. Divides the parts equally .
  3. Recognises that the coloured part represents the numerator
  4. Recognises that when the denominators are different and the numerators are the same for a pair of fractions, they parts are different in size.
  5. What happens when the denominator is 1 ?
  6. What is the meaning of a denominator being 0 ?

Activity 2: Proper and Improper Fractions

Learning Objectives


Proper and Improper Fractions


Materials and resources required


  1. KOER Fractions html 5518d221.jpgIf you want to understand proper fraction , example 5/6. In the equal share model , 5/6 represents the share that each child gets when 5 rotis are divided among 6 children equally.

KOER Fractions html 5e906d5b.jpgKOER Fractions html 5518d221.jpg


KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif


KOER Fractions html 5518d221.jpgKOER Fractions html 5e906d5b.jpg


KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gif


KOER Fractions html 5518d221.jpg


KOER Fractions html 55f65a3d.gif


  1. If you want to understand improper fraction , example 8/3. In the equal share model , 8/3 represents the share that each child gets when 8 rotis are divided among 3 children equally. The child in this case will usually distribute 2 full rotis to each child and then try to divide the remaining rotis. At this point you can show the mixed fraction representation as 2 2/3


KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gifKOER Fractions html 5e906d5b.jpgKOER Fractions html 55f65a3d.gif


KOER Fractions html 5518d221.jpg


KOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gifKOER Fractions html 55f65a3d.gifKOER Fractions html 5518d221.jpg


KOER Fractions html 55f65a3d.gif


Pre-requisites/ Instructions Method


Examples of Proper and improper fractions are given. The round disks in the figure represent rotis and the children figures represent children. Cut each roti and each child figure and make the children fold, tear and equally divide the roits so that each child figure gets equal share of roti.


Evaluation

  1. What happens when the numerator and denominator are the same, why ?
  2. What happens when the numerator is greater than the denominator why ?
  3. How can we represent this in two ways ?

Activity 3: Comparing Fractions

Learning Objectives


Comparing-Fractions


Materials and resources required


[[2]]


[[3]]


Pre-requisites/ Instructions Method


Print the document and work out the activity sheet


Evaluation


  1. Does the child know the symbols >, < and =
  2. What happens to the size of the part when the denominator is different ?
  3. Does it decrease or increase when the denominator becomes larger ?
  4. Can we compare quantities when the parts are different sizes ?
  5. What should we do to make the sizes of the parts the same ?


Activity 4: Equivalent Fractions

Learning Objectives


To understand Equivalent Fractions


Materials and resources required


[[4]]


Pre-requisites/ Instructions Method


Print 10 copies of the document from pages 2 to 5 fractions-matching-game Cut the each fraction part. Play memory game as described in the document in groups of 4 children.


Evaluation


  1. What is reducing a fraction to the simplest form ?
  2. What is GCF – Greatest Common Factor ?
  3. Use the document simplifying-fractions.pdf
  4. Why are fractions called equivalent and not equal.

Evaluation

Self-Evaluation

This PhET simulation, lets you

  • Find matching fractions using numbers and pictures
  • Make the same fractions using different numbers
  • Match fractions in different picture patterns
  • Compare fractions using numbers and patterns

Fraction Matcher

Further Exploration

Enrichment Activities

Errors with fractions

Introduction

A brief understanding of the common errors that children make when it comes to fractions are addressed to enable teachers to understand the child's levels of conceptual understanding to address the misconceptions.


Objectives

When fractions are operated erroneously like natural numbers, i.e. treating the numerator and the denominators separately and not considering the relationship between the numerator and the denominator is termed as N-Distractor. For example 1/3 + ¼ are added to result in 2/7. Here 2 units of the numerator are added and 3 & four units of the denominator are added. This completely ignores the relationship between the numerator and denominator of each of the fractions. Streefland (1993) noted this challenge as N-distractors and a slow-down of learning when moving from the concrete level to the abstract level.


N-Distractors

The five levels of resistance to N-Distractors that a child develops are:


  1. Absence of cognitive conflict: The child is unable to recognize the error even when she sees the same operation performed resulting in a correct answer. The child thinks both the answers are the same in spite of different results. Eg. ½ + ½ she erroneously calculated as 2/4. But when the child by some other method, say, through manipulatives (concrete) sees ½ + ½ = 1 does not recognize the conflict.
  2. Cognitive conflict takes place: The student sees a conflict when she encounters the situation described in level 1 and rejects the ½+1/2 = 2/4 solution and recognizes it as incorrect. She might still not have a method to arrive at the correct solution.
  3. Spontaneous refutation of N-Distractor errors: The student may still make N-Distractor errors, but is able to detect the error for herself. This detection of the error may be followed by just rejection or explaining the rejection or even by a correct solution.
  4. Free of N-Distractor: The written work is free of N-Distractors. This could mean a thorough understanding of the methods/algorithms of manipulating fractions.
  5. Resistance to N-Distractor: The student is completely free (conceptually and algorithmically) of N-Distractor errors.


Activities

Evaluation

Self-Evaluation

Further Exploration

  1. www.merga.net.au/publications/counter.php?pub=pub_conf&id=1410 A PDF Research paper titled Probing Whole Number Dominance with Fractions.
  2. www.merga.net.au/documents/RP512004.pdf A PDF research paper titled “Why You Have to Probe to Discover What Year 8 Students Really Think About Fractions ”
  3. [[5]] A google book Fractions in realistic mathematics education: a paradigm of developmental ...By Leen Streefland

Enrichment Activities

Operations on Fractions

Introduction

This topic introduces the different operations on fractions. When learners move from whole numbers to fractions, many of the operations are counter intuitive. This section aims to clarify the concepts behind each of the operations.


Objectives

The aim of this section is to visualise and conceptually understand each of the operations on fractions.


Addition and Subtraction

Adding and subtracting like fractions is simple. It must be emphasised thought even during this process that the parts are equal in size or quantity because the denominator is the same and hence for the result we keep the common denominator and add the numerators.


Adding and subtracting unlike fractions requires the child to visually understand that the parts of each of the fractions are differing in size and therefore we need to find a way of dividing the whole into equal parts so that the parts of all of the fractions look equal. Once this concept is established, the terms LCM and the methods of determining them may be introduced.


Multiplication

Multiplying a fraction by a whole number: Here the repeated addition logic of multiplying whole numbers is still valid. 1/6 multiplied by 4 is 4 times 1/6 which is equal to 4/6.


KOER Fractions html 714bce28.gif


Multiplying a fraction by a fraction: In this case the child is confused as repeated addition does not make sense. To make a child understand the of operator we can use the language and demonstrate it using the measure model and the area of a rectangle.


The area of a rectangle is found by multiplying side length by side length. For example, in the rectangle below, the sides are 3 units and 9 units, and the area is 27 square units.


KOER Fractions html m66ce78ea.gif


We can apply that idea to fractions, too.


  • The one side of the rectangle is 1 unit (in terms of length).
  • The other side is 1 unit also.
  • The whole rectangle also is 1 square unit, in terms of area.


See figure below to see how the following multiplication can be shown.


KOER Fractions html m6c9f1742.gif


KOER Fractions html 753005a4.gif


Remember: The two fractions to multiply represent the length of the sides, and the answer fraction represents area.


Division

Dividing a fraction by a whole number can be demonstrated just like division of whole numbers. When we divide 3/4 by 2 we can visualise it as dividing 3 parts of a whole roti among 4 people.


KOER Fractions html 1f617ac8.gif


Here 3/4 is divided between two people. One fourth piece is split into two. Each person gets 1/4 and 1/8.


KOER Fractions html m5f26c0a.gif


OR


KOER Fractions html m25efcc2e.gif


Another way of solving the same problem is to split each fourth piece into 2.


This means we change the 3/4 into 6/8.


KOER Fractions html 7ed8164a.gif


When dividing a fraction by a fraction, we use the measure interpretation.


KOER Fractions html m3192e02b.gif


When we divide 2 by ¼ we ask how many times does ¼


KOER Fractions html m257a1863.gifKOER Fractions html m257a1863.gif


fit into 2.


It fits in 4 times in each roti, so totally 8 times.


We write it as KOER Fractions html m390fcce6.gif


Activities

Activity 1 Addition of Fractions

Learning Objectives


Understand Addition of Fractions


Materials and resources required


[[6]]


Pre-requisites/ Instructions Method


Open link [[7]]


KOER Fractions html m3dd8c669a.png


Move the sliders Numerator1 and Denominator1 to set Fraction 1


Move the sliders Numerator2 and Denominator2 to set Fraction 2


See the last bar to see the result of adding fraction 1 and fraction 2


When you move the sliders ask children to


Observe and describe what happens when the denominator is changed.


Observe and describe what happens when denominator changes


Observe and describe the values of the numerator and denominator and relate it to the third result fraction.


Discuss LCM and GCF


Evaluation

Activity 2 Fraction Subtraction

Learning Objectives


Understand Fraction Subtraction


Materials and resources required


[[8]]


Pre-requisites/ Instructions Method


Open link [[9]]


KOER Fractions html 481d8c4.png


Move the sliders Numerator1 and Denominator1 to set Fraction 1


Move the sliders Numerator2 and Denominator2 to set Fraction 2


See the last bar to see the result of subtracting fraction 1 and fraction 2


When you move the sliders ask children to


observe and describe what happens when the denominator is changed.


observe and describe what happens when denominator changes


observe and describe the values of the numerator and denominator and relate it to the third result fraction.


Discuss LCM and GCF


Evaluation

Activity 3 Multiplication of fractions

Learning Objectives


Understand Multiplication of fractions


Materials and resources required


[[10]]


Pre-requisites/ Instructions Method


Open link [[11]]


KOER Fractions html 12818756.png


Move the sliders Numerator1 and Denominator1 to set Fraction 1


Move the sliders Numerator2 and Denominator2 to set Fraction 2


On the right hand side see the result of multiplying fraction 1 and fraction 2


Material/Activity Sheet


Please open [[12]] in Firefox and follow the process


When you move the sliders ask children to


observe and describe what happens when the denominator is changed.


observe and describe what happens when denominator changes


One unit will be the large square border-in blue solid lines


A sub-unit is in dashed lines within one square unit.


The thick red lines represent the fraction 1 and 2 and also the side of the quadrilateral


The product represents the area of the the quadrilateral


Evaluation


When two fractions are multiplied is the product larger or smaller that the multiplicands – why ?

Activity 4 Division by Fractions

Learning Objectives


Understand Division by Fractions


Materials and resources required


[[13]]


Crayons/ colour pencils, Scissors, glue


Pre-requisites/ Instructions Method


Print out the pdf [[14]]


Colour each of the unit fractions in different colours. Keep the whole unit (1) white.


Cut out each unit fraction piece.


Give examples KOER Fractions html m282c9b3f.gif


For example if we try the first one, KOER Fractions html 21ce4d27.gif See how many KOER Fractions html m31bd6afb.gifstrips will fit exactly onto whole unit strip.


Evaluation

When we divide by a fraction is the result larger or smaller why ?

Self-Evaluation

This PhET simulation enables you to

  • Predict and explain how changing the numerator or denominator of a fraction affects the fraction's value.
  • Make equivalent fractions using different numbers.
  • Match fractions in different picture patterns.
  • Find matching fractions using numbers and pictures.
  • Compare fractions using numbers and patterns.

Fractions-intro

Software requirement: Sun Java 1.5.0_15 or later version

Further Exploration

  1. [[15]] detailed conceptual understanding of division by fractions
  2. [[16]] understanding fractions
  3. [[17]] Worksheets in mathematics for teachers to use

Linking Fractions to other Topics

Introduction

It is also very common for the school system to treat themes in a separate manner. Fractions are taught as stand alone chapters. In this resource book an attempt to connect it to other middle school topics such as Ratio Proportion, Percentage and high school topics such as rational and irrational numbers, inverse proportions are made. These other topics are not discussed in detail themselves, but used to show how to link these other topics with the already understood concepts of fractions.

Objectives

Explicitly link the other topics in school mathematics that use fractions.


Decimal Numbers

“Decimal” comes from the Latin root decem, which simply means ten. The number system we use is called the decimal number system, because the place value units go in tens: you have ones, tens, hundreds, thousands, and so on, each unit being 10 times the previous one.


In common language, the word “decimal number” has come to mean numbers which have digits after the decimal point, such as 5.8 or 9.302. But in reality, any number within the decimal number system could be termed a decimal number, including whole numbers such as 12 or 381.


The simplest way to link or connect fractions to the decimal number system is with the number line representation. Any scale that a child uses is also very good for this purpose, as seen in the figure below.


The number line between 0 and 1 is divided into ten parts. Each of these ten parts is 1/10, a tenth.


KOER Fractions html 3d7b669f.gif


Under the tick marks you see decimal numbers such as 0.1, 0.2, 0.3, and so on. These are the same numbers as the fractions 1/10, 2/10, 3/10 and so on.


We can write any fraction with tenths (denominator 10) using the decimal point. Simply write after the decimal point how many tenths the number has. 0.6 means six tenths or 1/6. 1.5 means 1 whole and 5 tenths or KOER Fractions html m7f1d448c.gif


Note: A common error one sees is 0.7 is written as 1 /7. It is seven tenths and not one seventh. That the denominator is always 10 has to be stressed. To reinforce this one can use a simple rectangle divided into 10 parts , the same that was used to understand place value in whole numbers.


The coloured portion represents 0.6 or 6/10 and the whole block represents 1.


KOER Fractions html 1cf72869.gif


Percentages

Fractions and percentages are different ways of writing the same thing. When we say that a book costs Rs. 200 and the shopkeeper is giving a 10 % discount. Then we can represent the 10% as a fraction as KOER Fractions html m1369c56e.gif where 10 is the numerator and the denominator is always 100. In this case 10 % of the cost of the book is KOER Fractions html m50e22a06.gif. So you can buy the book for 200 – 20 = 180 rupees.


There are a number of common ones that are useful to learn. Here is a table showing you the ones that you should learn.

Percentage

Fraction

100%

KOER Fractions html m15ed765d.gif

50%

KOER Fractions html df52f71.gif

25%

KOER Fractions html m6c97abb.gif

75%

KOER Fractions html m6cb13da4.gif

10%

KOER Fractions html 26bc75d0.gif

20%

KOER Fractions html m73e98509.gif

40%

KOER Fractions html m2dd64d0b.gif


KOER Fractions html m60c76c68.gifTo see 40 % visually see the figure :


You can see that if the shape is divided into 5 equal parts, then 2 of those parts are shaded.


If the shape is divided into 100 equal parts, then 40 parts are shaded.


These are equivalent fractions as in both cases the same amount has been shaded.


Ratio and Proportion

It is important to understand that fractions also can be interpreted as ratio's. Stressing that a fraction can be interpreted in many ways is of vital importance. Here briefly I describe the linkages that must be established between Ratio and Proportion and the fraction representation. Connecting multiplication of fractions is key to understanding ratio and proportion.


What is ratio?


Ratio is a way of comparing amounts of something. It shows how much bigger one thing is than another. For example:


  • Use 1 measure detergent (soap) to 10 measures water
  • Use 1 shovel (bucket) of cement to 3 shovels (buckets) of sand
  • Use 3 parts blue paint to 1 part white

Ratio is the number of parts to a mix. The paint mix is 4 parts, with 3 parts blue and 1 part white.


The order in which a ratio is stated is important. For example, the ratio of soap to water is 1:10. This means for every 1 measure of soap there are 10 measures of water.


Mixing paint in the ratio 3:1 (3 parts blue paint to 1 part white paint) means 3 + 1 = 4 parts in all.


3 parts blue paint to 1 part white paint = is ¾ blue paint to ¼ white paint.


Cost of a pen is Rs 10 and cost of a pencil is Rs 2. How many times the cost of a pencil is the cost of a pen? Obviously it is five times. This can be written as


The ratio of the cost of a pen to the cost of a pencil = KOER Fractions html m762fb047.gif


What is Direct Proportion ?


Two quantities are in direct proportion when they increase or decrease in the same ratio. For example you could increase something by doubling it or decrease it by halving. If we look at the example of mixing paint the ratio is 3 pots blue to 1 pot white, or 3:1.


Paint pots in a ratio of 3:1


KOER Fractions html m22cda036.gif


But this amount of paint will only decorate two walls of a room. What if you wanted to decorate the whole room, four walls? You have to double the amount of paint and increase it in the same ratio.


If we double the amount of blue paint we need 6 pots.


If we double the amount of white paint we need 2 pots.


Six paint pots in a ratio of 3:1


The amount of blue and white paint we need increase in direct proportion to each other. Look at the table to see how as you use more blue paint you need more white paint:


Pots of blue paint 3 6 9 12


Pots of white paint 1 2 3 4


Two quantities which are in direct proportion will always produce a graph where all the points can be joined to form a straight line.


What is Inverse Proportion ?


Two quantities may change in such a manner that if one quantity increases the the quantity decreases and vice-versa. For example if we are building a room, the time taken to finish decreases as the number of workers increase. Similarly when the speed increases the time to cover a distance decreases. Zaheeda can go to school in 4 different ways. She can walk, run, cycle or go by bus.


Study the table below, observe that as the speed increases time taken to cover the distance decreases

Walk

Run

Cycle

Bus

Speed Km/Hr

3

6 (walk speed *2)

9 (walk speed *3)

45 (walk speed *15)

Time Taken (minutes)

30

15 (walk Time * ½)

10 (walk Time * 1/3)

2 (walk Time * 1/15)

As Zaheeda doubles her speed by running, time reduces to half. As she increases her speed to three times by cycling, time decreases to one third. Similarly, as she increases her speed to 15 times, time decreases to one fifteenth. (Or, in other words the ratio by which time decreases is inverse of the ratio by which the corresponding speed increases). We can say that speed and time change inversely in proportion.


Moving from Additive Thinking to Multiplicative Thinking


Avinash thinks that if you use 5 spoons of sugar to make 6 cups of tea, then you would need 7 spoons of sugar to make 8 cups of tea just as sweet as the cups before. Avinash would be using an additive transformation'''; he thinks that since we added 2 more cups of tea from 6 to 8. To keep it just as sweet he would need to add to more spoons of sugar. What he does not know is that for it to taste just as sweet he would need to preserve the ratio of sugar to tea cup and use multiplicative thinking. He is unable to detect the ratio.


Proportional Reasoning

Proportional thinking involves the ability to understand and compare ratios, and to predict and produce equivalent ratios. It requires comparisons between quantities and also the relationships between quantities. It involves quantitative thinking as well as qualitative thinking. A feature of proportional thinking is the multiplicative relationship among the quantities and being able to recognize this relationship. The relationship may be direct (divide), i.e. when one quantity increases, the other also increases. The relationship is inverse (multiply), when an increase in one quantity implies a decrease in the other, in both cases the ratio or the rate of change remains a constant.


The process of adding involved situations such as adding, joining, subtracting, removing actions which involves the just the two quantities that are being joined, while proportional thinking is associated with shrinking, enlarging, scaling , fair sharing etc. The process involves multiplication. To be able to recognize, analyse and reason these concepts is multiplicative thinking/reasoning. Here the student must be able to understand the third quantity which is the ratio of the two quantities. The preservation of the ratio is important in the multiplicative transformation.


Rational & Irrational Numbers

After the number line was populated with natural numbers, zero and the negative integers, we discovered that it was full of gaps. We discovered that there were numbers in between the whole numbers - fractions we called them.


But, soon we discovered numbers that could not be expressed as a fraction. These numbers could not be represented as a simple fraction. These were called irrational numbers. The ones that can be represented by a simple fraction are called rational numbers. They h ad a very definite place in the number line but all that could be said was that square root of 2 is between 1.414 and 1.415. These numbers were very common. If you constructed a square, the diagonal was an irrational number. The idea of an irrational number caused a lot of agony to the Greeks. Legend has it that Pythagoras was deeply troubled by this discovery made by a fellow scholar and had him killed because this discovery went against the Greek idea that numbers were perfect.


How can we be sure that an irrational number cannot be expressed as a fraction? This can be proven algebraic manipulation. Once these "irrational numbers" came to be identified, the numbers that can be expressed of the form p/q where defined as rational numbers.


There is another subset called transcendental numbers which have now been discovered. These numbers cannot be expressed as the solution of an algebraic polynomial. "pi" and "e" are such numbers.


Activities

Activity 1 Fractions representation of decimal numbers

Learning Objectives

Fractions representation of decimal numbers

Materials and resources required

[Decimals: Tenths]

[Decimal: Hundredths and Tenths]


Pre-requisites/ Instructions Method

Make copies of the above given resources.

Evaluation

  1. Draw a number line and name the fraction and decimal numbers on the number line. Take a print of the document [[18]] . Ask students to place any fraction and decimal numbers between between 0 and 10 on the number line
  2. Write 0.45, 0.68, 0.05 in fraction form and represent as a fraction 100 square.

Activity 2 Fraction representation and percentages

Learning Objectives

Understand fraction representation and percentages

Materials and resources required

[Converting fractions, decimals and percents]
[Percentage]

Pre-requisites/Instructions Method

Please print copies of the above given activity sheets and discuss the various percentage quantities with various shapes.

Then print a copy each of spider-percentages.pdf and make the children do this activity

Evaluation

  1. What value is the denominator when we represent percentage as fraction ?
  2. What does the numerator represent ?
  3. What does the whole fraction represent ?
  4. What other way can we represent a fraction whose denominator is 100.

Activity 3 Fraction representation and rational and irrational numbers

Learning Objectives

Understand fraction representation and rational and irrational numbers
Materials and resources required

Thread of a certain length.

Pre-requisites/Instructions Method

Construct Koch's snowflakes .

Start with a thread of a certain length (perimeter) and using the same thread construct the following shapes (see Figure).

KOER Fractions html m1a6bd0d0.gif

See how the shapes can continue to emerge but cannot be identified definitely with the same perimeter (length of the thread).

Identify the various places where pi, "e" and the golden ratio occur

Evaluation

  1. How many numbers can I represent on a number line between 1 and 2.
  2. What is the difference between a rational and irrational number, give an example ?
  3. What is Pi ? Why is it a special number ?

Self-Evaluation

Worksheets

  1. fraction addition worksheet Fraction simple addition
  2. fraction addition worksheet Fraction simple addition]
  3. Fraction multiplication worksheet multiplication
  4. Fraction Division worksheet Division
  5. Fraction Subtraction worksheetSubtraction

Further Exploration

  1. Percentage and Fractions, [[19]]
  2. A mathematical curve Koch snowflake, [[20]]
  3. Bringing it Down to Earth: A Fractal Approach, [[21]]

See Also

  1. At Right Angles December 2012 Fractions Pullout [[22]]
  2. Video on teaching fractions using the equal share method made by Eklavya an NGO based in Madhya Pradesh, India [[23]]
  3. Mathematics resources from Homi Baba Centre for Science Education [[24]]
  4. Understand how to use Geogebra a mathematical computer aided tool [[25]]

Teachers Corner

GOVT HIGH SCHOOL, DOMLUR

Our 8th std students are learning about fraction using projector .
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Students are actively participating in the activity.

They are learning about meaning of the fractions, equivalent fractions and addition of fractions using paper cuttings.
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A student is showing 1/4=? 1/6+1/12
5.jpg
6..jpg

Showing 1/3=1/4+1/12

They started to solve the problems easily
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Books

  1. [[26]] A google book Fractions in realistic mathematics education: a paradigm of developmental ...By Lee Streefland

References

  1. Introducing Fractions Using Share and Measure Interpretations: A Report from Classroom Trials . Jayasree Subramanian, Eklavya, Hoshangabad, India and Brijesh Verma,Muskan, Bhopal, India
  2. Streefland, L. (1993). “Fractions: A Realistic Approach.” In Carpenter, T.P., Fennema, E., Romberg, T.A. (Eds.), Rational Numbers: an Integration of Research. (289-325). New Jersey: Lawrence, Erlbaum Associates, Publishers.