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Winter 2011 Math News
Hello Parents and Teachers,
One of the foundations of numeracy is being able to solve simple addition, subtraction, multiplication and division questions with ease and understanding.
Here are some strategies to improve your child or students fluency and understanding of basic operations.
STRATEGIES TO SUPPORT COMPUTATIONAL FLUENCY WITH UNDERSTANDING
Mental Math and Basic Facts
Computational Fluency?
Computational fluency refers to having efficient and accurate methods for computing.
Students exhibit computational fluency when they demonstrate flexibility in the computational methods they choose, understand and can explain these methods, and produce accurate answers efficiently.
The computational methods that a student uses should be based on mathematical ideas that the student understands well.
The acquisition of basic math facts should occur in the following three phases:
Phase I: Constructing operational meaning Phase II: Reasoning strategiesPhase III: Working toward quick recallThere is much overlap and students often can
work in multiple stages simultaneously and may move through the stages at different rates. Additionally, it is important to point out that these three phases are critical for each of the four basic operations. However, addition and subtraction may develop concurrently and the same can be said about multiplication and division.
Phase 1 - What does that mean?
Students have to have a deep understanding of what numbers and operations are before being asked to use or memorize fact strategies
A student will struggle with memorizing facts if they are asked to do the same questions over and over without understanding the meaning and strategies for completing the operations
Learning with understanding is more powerful than simply
memorizing because the act of organizing improves retention and
promotes fluency.
EDThoughts 2001 p. 81
What does the research say?
Phase 2 – The Strategies
Strategies are taught only after building understanding of the operations through hands on, pictorial and symbolic practice with operations.
Strategies may be discovered by students but other students will need direct instruction with these strategies.
PRACTICE MAKES PERFECT – it takes time to learn strategies. Be patient and think of the long term goals to teaching strategies -> Fluency with Understanding
Strategies like most math concepts should be taught with manipulatives, pictures and then symbolically
Building Number ConceptsConcrete
ManipulativesPictorial
Representation
I I I I
I I I I
Abstract Symbols
4 + 4 = 8
2 x 4 = 8
Significant time must be spentworking with concrete materials
and constructing pictorial representationsin order for abstract symbol and operational understanding to occur.
Addition Strategies
Turn Around FactsIf you know 5 + 4 = 9, then you know 4 + 5 = 9. When adding, the order doesn’t matter. + = + 5 + 4 = 4 + 5
Commutative Property
Facts with ZeroWhen adding zero to any number, the sum is the other addend.
Examples: 7 + 0 = 7 0 + 5 = 5
Identity Property of Addition
Count Up(One-/Two- More Than)
When an addition problem contains a 1 or 2, we can use this strategy. Start by whispering the greater addend and count on the other addend.
Example: 2 + 6 = 8 Start at 6 and count up 7, 8.
DoublesWhen an addition problem contains two numbers that are the same we recognize this as a doubles problem. These are memorized facts. You can use visual clues to help you.
Example: 4 + 4 = 8
Near DoublesWhen an addition problem contains consecutive numbers on a number line, double the smaller addend and add 1.
4 + 5 = 4 + 4 +1 = 8 + 1 = 9
Decompose (Decomposing is what allows make-ten and near doubles to work.)
Break down the addends and add the pieces back together.
Example: 11 + 4 = (10 + 1) + 4 = 10 + (1 + 4) = 10 + 5 = 15
Associative Property
Sums of 10This group includes all facts with a sum of 10. Picture the Ten Frame when solving.
Examples: 7 + 3 = 10 2 + 8 = 10
Make-Ten (Use the Ten Frame) This strategy works well with at least one addend of 8 or 9. When adding 9, picture a Ten Frame. Take one away from the other addend and move it over in your mind. For 9 + 6 think: 9 in the ten frame means that I need one more to make ten. If I move one from the 6 over, I have 5 left. So I can add 10 + 5 and that equals 15. 9 + 6 has the same sum as 10 + 5Do the same for 8, except you have 2 open in the Tens Frame.
Making 10 ExamplesWe can find the answer to this fact
by making ten.5 + 6
Place the larger number in a ten frame.
5 + 6
Use part of the other number to fill the ten frame.
5 + 6
Then you can look at what is left outside the ten-frame and tell
what the answer is.5 + 6 = 10 + 1 =
11
We can find the answer to this fact by making ten.
8 + 4
Place the larger number in the ten-frame.
8 + 4
Fill the ten-frame with part of the other number.
8 + 4
What is left outside tells you the answer. You have 10 and 2
more.8 + 4 = 12
Strategies To Support Fact Learning
L Count BackBack Strategy - This strategy works best when subtracting 0, 1, 2 or 3. Ex. 12 - 3, start from 12 and count back three numbers, 11, 10, 9.
L Count UpUp Strategy - This strategy
works best when subtracting two numbers that are close together. Ex. 11 - 8 = 3 …….(9, 10, 11)
Subtraction
Strategies To Support Fact Learning
L Distance From Ten Strategy - When the number ten lies between the two numbers of the subtraction fact, find the distance from ten for each of the numbers, then add their distances together. This strategy works best when both numbers are close to ten.
Ex. 13 - 8 = 2 + 3 = 5
Subtraction
6 7 8 9 10 11 12 13 142 3
Strategies To Support Fact Learning
L Subtracting 9 from a teenager!
Subtraction
When subtracting nine from a teenager number, simply add the digits of the teenager!
14 17 13
-9 -9 -95 8 4
Strategies To Support Fact Learning
9 - 8 = 18 - 7 = 1 7 - 6 = 16 - 5 = 15 - 4 = 14 - 3 = 1 3 - 2 = 1 2 - 1 = 1
LShow and discuss patterns!
Strategies To Support Fact Learning
L Fact Families Strategy - Can be used with all subtraction facts.
Subtraction
3
1 2
3 - 2 = 1
3 - 1 = 2
2 + 1 = 3
1 + 2 = 3
Strategies To Support Fact Learning
L Write Fact Families!
(3, 8, 11)
3 + 8 = 11 11 - 8 = 3
8 + 3 = 11 11 - 3 = 8
Think of a related addition fact.
12 - 7 = ? ? + 7 =
12
Subtract from TenTo find 15 - 8, start with 15.
15 is 10 & 5
To find 15 - 8, take 8 from the ten. You can see that 7
is left.
15 - 8 = 7
To find 12 - 7, start with 1.
12 is 10 & 2
To find 12 - 7, take 7 from the ten. You can see that 5 is left.
12 - 7 = 5
13
Remember that 13 is 10 and 3.
Take 8 from the 10.
Combine this with the other 3.
10 + 3-8 2 + 3
-8
13
Remember that 13 is 10 and 3.
Take 8 from Take 8 from the 10.the 10.
Combine this with the other 3.
13 - 8 = 5
-8 10 + 3-8 2 + 35
Take 8 from the 10.
Combine this with the other 2.12- 8
Altogether, what is the answer?
Multiplication Factsare easiest to learn when...
You find patterns.You use rhymes.You use stories.You relate them to what you already know.
Zero Pattern0 times any number is 0
0 x 3 = 00 x 7 = 00 x 4 = 00 x 1 = 00 x 0 = 00 x 9 = 0
One’s Pattern1 times any number is the same
number
1 x 3 = 31 x 7 = 71 x 4 = 41 x 1 = 11 x 2 = 21 x 9 = 9
Two’s Pattern2 times any number is that
number doubled
2 x 3 = 62 x 7 = 142 x 4 = 82 x 1 = 22 x 2 = 42 x 9 = 18
Five’s Pattern - Step 1Cut the number you are
multiplying in half
5 x 3 = 1.55 x 7 = 3.55 x 8 = 45 x 1 = .55 x 2 = 15 x 6 = 3
Five’s Pattern - Step 2 If you are multiplying an odd number,
drop the decimal point
5 x 3 =5 x 7 =5 x 5 = 5 x 1 =5 x 9 =
1. 53. 52. 5
. 54. 5
Five’s Pattern - Step 3 If you are multiplying an even number,
just add a zero
5 x 2 =5 x 6 =5 x 4 = 5 x 8 =5 x 10 =
1 03 02 0
05 04
Nine’s Pattern - Step 1Subtract 1 from number you
are multiplying
9 x 3 = 29 x 7 = 69 x 8 = 79 x 1 = 09 x 2 = 19 x 6 = 5
Nine’s Pattern - Step 2Add a 2nd number that totals nine
with the 1st number
9 x 3 = 29 x 7 = 69 x 8 = 79 x 1 = 09 x 2 = 19 x 6 = 5
732984
+
+
+
+
+
+
=
=
=
=
=
=
999
999
Six’s Pattern (even #’s only)Step #1 Cut the number you
are multiplying in half.
6 x 2 = 16 x 4 = 26 x 6 = 36 x 8 = 4
Six’s Pattern (even #’s only)Step #2 The number you aremultiplying by 6 is the 2nd #.
6 x 2 = 16 x 4 = 26 x 6 = 36 x 8 = 4
2468
Strategies To Support Fact Learning
L Stick Drawing! Count the dots!
4 x 3 = 12
Strategies To Support Fact LearningMultiplication
L Zero Rule- any number multiplied by zero is zero5 x 0 = 0
L One Rule- the product is the other number6 x 1 = 6
L Two Rule- add the number to itself 8 x 2 = 8 + 8 = 16
L Three Rule- double the number, then add the number again7 x 3 = 14 + 7 = 21
Strategies To Support Fact LearningMultiplication
L Four Rule- double the number twice.6 x 4 = 12 + 12 = 24
Silly Saying (You’ve got to be 16 to drive a 4 x 4)
L Five Rule- count by fives. Products will end with 0 or 5. 3 x 5 = 15 4 x 5 = 20 5 x 5 = 25
L Six Rule - think five groups of the number plus one more group. 6 x 7 = 5 x 7 + 7 = 42
Strategies To Support Fact Learning
L Seven Rule- memorize two facts: 7 x 7 = 49 and 7 x 8 = 56 Brain hook…..56 is 7 x 8…Think 5..6..7..8
L Eight Rule- Memorize one fact: 8 x 8 = 64Silly Saying (I ate and I ate until I got sick on the floor!)
8 8 6 4
Strategies To Support Fact LearningMultiplication
L Nine Rule- subtract 1 from the number you are multiplying with nine. Then think….What should I add to that number to equal 9?7 x 9 …One less than 7 is 6. 6 + ? = 96 + 3 = 9 so the product is 63
L Ten Rule- put a zero on the number you are multiplying by.9 x 10 = 90
Strategies To Support Fact Learning
L Make Connections Between Multiplication and Division
What facts do you see?
3 x 5 = 15
15 3 = 5
Phase 3 – Working Towards Quick Recall
Students must know all the facts or strategies to find all the facts before emphasis on speed is placed
Quick recall of math facts is usually defined as the ability to solve a basic number computation in a few seconds or less (without resorting to inefficient methods like counting)..
Phase III is simply about increasing a student’s quick recall. Spending more time in Phase III will not lead to quick recall of unknown facts.
Successfully addressing Phases I and II will significantly decrease the need for prolonged work in Phase III. This involves: increasing the speed in which the student selects and applies a strategy for solving the
problem and using highly organized and planned practice for the purpose of devoting facts to
memory. Phase III may include practice (and/or drill) with specific groups of
facts through fact cards, games, paper/pencil practice, and the use of technology. Once students acquire the ability to quickly recall the facts, Phase III focuses on maintenance of the facts.
