Presentation is loading. Please wait.

Presentation is loading. Please wait.

Mathematical Reasoning: The Solution to Learning the Basic Facts Gail Moriarty San Diego State University CMC-N December 6, 2003.

Published byDandre Frohock Modified over 9 years ago

Similar presentations

Presentation on theme: "Mathematical Reasoning: The Solution to Learning the Basic Facts Gail Moriarty San Diego State University CMC-N December 6, 2003."— Presentation transcript:

1 Mathematical Reasoning: The Solution to Learning the Basic Facts Gail Moriarty San Diego State University CMC-N December 6, 2003

2 What are the Multiplication Basic Facts? All combinations of single digit factors (0 - 9) How many multiplication basic facts are there?

3 Three-Step Approach to Learning Basic Facts Understand the Concept of multiplication Learn and use Thinking Strategies Memorize facts by using a variety of daily Practice Strategies

4 What Does It Mean to Understand the Concept of Multiplication? Equal groups  3 bags of 5 cookies Array/area  3 rows with 5 seats in each row Combinations  Outfits made from 3 shirts and 5 pairs of pants Multiplicative comparison  Mike ate 5 cookies. Steve ate 3 times as many cookies as Mike did.

5 Why Thinking Strategies? To reach ALL students Efficiency Long term vs. short term goals Understanding requires reasoning, not just memorization

6 Thinking Strategies Scaffold to support memorization Include properties  Zero, One, Commutative, Distributive Include patterns and strategies  Fives, Nines  Skip counting

7 Practice Strategies Games Computer software Flash cards And more... Is practice enough?

8 Assess What Facts Students Know Give students a page of basic facts problems  “Just do the ones that are easy for you” Examine the results to get a sense of where the class as a whole is. Focus on what students do know through a lesson that analyzes the multiplication chart. Have students keep a self-assessment chart, shading in the facts they know.

9 Thinking Strategies Using Properties Zero Property Multiplicative Identity (One) Commutative Property Distributive Property

10 Zeros Zero Property: Multiplying any number by zero is equal to zero. “0 groups of __” or “__ groups of 0” CA Standard 3.2.6 NS: “Understand the special properties of zero and one in multiplication.” Facts remaining: 100 - 19 = 81

11 Ones Identity Element: Multiplying any number by one is equal to that number. “1 groups of __” or “__ groups of 1” CA Standard 3.2.6 NS: “Understand the special properties of zero and one in multiplication.” Facts remaining: 81 - 17 = 64

12 Twos The skip counting strategy helps students find the multiples of two. Addition doubles Facts remaining: 64 - 15 = 49

13 Fives The skip counting strategy also helps students find the multiples of five. Help students realize what they already know. Facts remaining: 49 - 13 = 36

14 Nines Patterns in Nines facts  Sum of digits in product  Patterns in ones and tens place of product  One less than second factor, then subtract from 9 Finger strategy Facts remaining: 36 - 11 = 25

15 Squares 9 square numbers (plus 0) Only one factor to remember Can use associations/ connections: Sea Squares Facts remaining: 25-5=20

16 Commutative Property “Turn-around” strategy Definition of Commutative Property: numbers can be multiplied in any order and get the same result. CA Standard 3.1.5 AF: “Recognize and use the commutative and associative properties of multiplication.”

17 The Commutative Property Cuts the Job in Half! Only 20 facts left that can’t be “reasoned to” by using 0’s, 1’s, 2’s, 5’s, 9’s and Squares. After “commuting” or “turning around” the factors, only 10 tough facts remain! 4 x 3 6 x 36 x 4 7 x 37 x 47 x 6 8 x 38 x 48 x 68 x 7

18 Distributive Property “Break-apart” strategy: you can separate a multiplication problem into two parts. Example: Break up the first factor (number of groups or rows) into two parts.  7 x 8 = (5 x 8) + (2 x 8)  7 groups of 8 = 5 groups of 8 plus 2 groups of 8 Use known facts to get to unknown facts. CA Standard 5.2.3AF: “Know and use the distributive property in equations and expressions with variables.”

19 Distributive Property Break up the first factor (number of groups or rows) into two parts. You can think, “6 rows of 7 is the same as 5 rows of 7 and 1 more row of 7.” 6 x 7 = (5 x 7)+(1 x 7)

20 Thinking Strategies Based on the Distributive Property Use the “Facts of Five” to find Sixes: 6 x 3= (5 x 3) + (1 x 3) You can think, “6 x 3 means 5 groups of 3 and 1 more group of 3” Use the “Facts of Five” fo find Fours: 4 x 6 = (5 x 6) - (1 x 6) Use “Facts of Five” to find Sevens: 7 x 3 = (5 x 3) + (2 x 3) CA MR1.2 Determine when and how to break a problem into simpler parts.

21 Halving then Doubling If one factor is even, break it in half, multiply it, then double it: 4 x 3 = (2 x 3) x 2 You can think “To find 4 groups of 3, find 2 groups of 3 and double it.” 8 x 3 = (4 x 3) x 2 4 x 8 = (2 x 8) x 2 6 x 8 = (3 x 8) x 2 This strategy is based on the Associative Property. See Greg Tang’s The Best of Times

22 Practice Strategies Flash cards Computer software Games:  The Array Game

23 The Array Game Materials:Grid paper, Colored pencils, Dice Object:Fill the grid with arrays generated by rolling dice. Score by adding the products. Multi-level:Adjust the rules for generating factors and how the grid is to be filled to increase complexity.

24 The Array Game Level One Object: Be first to fill your own board Materials: 2 “Game Boards” (grid paper), 1 die Factors:  Factor one - number on die  Factor two - limited choice (1-6), (0-9) Label, say, and lightly shade each array with your own color

25 The Array Game Level Two Object: Capture the largest area by making arrays, largest sum of products wins. Materials: One grid paper game board for two students to share Factors:  Factor one: # on one of the dice (choice)  Factor two: sum or difference of # on dice  Ex: 4, 6 - (4 x 2), (4 x 10), (6 x 2) or (6 x 10)

26 The Array Game Level Three Object: Make adjacent arrays, score is sum of products of adjacent arrays.(Several sets of adjacent allowed) Materials: Same as Level Two (One grid, two dice, colored pencils) Factors: Same as Level Two (One choice, one sum or difference)

27 The NCTM Standards “Through skip counting, using area models, and relating unknown combinations to known ones, students will learn and become fluent with unfamiliar combinations. For example, 3 x 4 is the same as 4 x 3; 6 x 5 is 5 more than 5 x 5; 6 x 8 is double 3 x 8.” (NCTM Principles and Standards, p. 152)

28 The CA Reasoning Standards 1.1Analyze problems by identifying relationships, distinguishing relevant from irrelevant information, sequencing and prioritizing information, and observing patterns. 1.2Determine when and how to break a problem into simpler parts. 2.2 Apply strategies and results from simpler problems to more complex problems.

29 Reasoning Put to Use

30 Closing Comments Timed tests don’t teach! Link with division  Fact families as a concept, not just a procedure Linking reasoning with learning basic facts accomplishes many objectives at once!

31 References and Resources M. Burns (1991). Math by All Means: Multiplication Grade 3. New Rochelle, NY: Cuisenaire. L. Childs & L. Choate (1998). Nimble with Numbers (grades 1-2, 2-3, 3-4, 4- 5, 5-6, 6-7). Palo Alto: Dale Seymour. J. Hulme (1991). Sea Squares. New York: Hyperion. L. Leutzinger (1999). Facts that Last. Chicago: Creative Publications. Tang, G. (2002). The Best of Times, New York: Scholastic Publications. Wickett & Burns (2001). Lessons for Extending Multiplication. Sausalito, CA Math Solutions Publications. 24 Game: Suntex International

32 Contact Information moriarty@mail.sdsu.edu Professional Development Collaborative Website at SDSU:  http://pdc.sdsu.edu http://pdc.sdsu.edu Handout available on website

Download ppt "Mathematical Reasoning: The Solution to Learning the Basic Facts Gail Moriarty San Diego State University CMC-N December 6, 2003."

Similar presentations

Envision Math - 3rd Grade - Topic 7- 1

Envision Math - 3rd Grade - Topic 7- 1
Playing games in the K-2 classroom

Playing games in the K-2 classroom
The Efficient Learning of Multiplication Tables

The Efficient Learning of Multiplication Tables
Virginia Birch MFNERC Numeracy Specialist

Virginia Birch MFNERC Numeracy Specialist
“I Can” Statements 4 th Math 1 st Six Weeks. TNCore Focus Standards 2012-13 Extend understanding of fraction equivalence and ordering. Build fractions.

“I Can” Statements 4 th Math 1 st Six Weeks. TNCore Focus Standards Extend understanding of fraction equivalence and ordering. Build fractions.
Winter 2011 Math News Hello Parents and Teachers, One of the foundations of numeracy is being able to solve simple addition, subtraction, multiplication.

Winter 2011 Math News Hello Parents and Teachers, One of the foundations of numeracy is being able to solve simple addition, subtraction, multiplication.
Use Properties of Operations to Generate Equivalent Expression

Use Properties of Operations to Generate Equivalent Expression
Division Grade 5. Outcome Apply mental math strategies and number Properties by:  skip counting from a known fact  using doubling or halving  using.

Division Grade 5. Outcome Apply mental math strategies and number Properties by:  skip counting from a known fact  using doubling or halving  using.
Mathematical Reasoning: The Solution to Learning the Basic Facts Gail Moriarty San Diego State University San Diego City Schools CMC-SS November 8, 2002.

Mathematical Reasoning: The Solution to Learning the Basic Facts Gail Moriarty San Diego State University San Diego City Schools CMC-SS November 8, 2002.
Investigate and use the formulas for area and perimeter of rectangles

Investigate and use the formulas for area and perimeter of rectangles
Fluently Multiply with Products up to 100 Unit of Study: 13 Global Concept Guide: Strategies for multiplying by 7, 8, 9.

Fluently Multiply with Products up to 100 Unit of Study: 13 Global Concept Guide: Strategies for multiplying by 7, 8, 9.
Presentation by: Heather Etzel, Fourth Grade Alicia Fornal, Fifth Grade Adapted from presentation by: Donn Hicks, Supervisor of Elementary Education, CCPS.

Presentation by: Heather Etzel, Fourth Grade Alicia Fornal, Fifth Grade Adapted from presentation by: Donn Hicks, Supervisor of Elementary Education, CCPS.
Basic Facts – one definition

Basic Facts – one definition
Developing Higher Level Thinking and Mathematical Reasoning.

Developing Higher Level Thinking and Mathematical Reasoning.
NCTM Conference April 2014.  Domain: Operations & Algebraic ThinkingOperations & Algebraic Thinking  K.OA.3  Decompose numbers less than or equal to.

NCTM Conference April  Domain: Operations & Algebraic ThinkingOperations & Algebraic Thinking  K.OA.3  Decompose numbers less than or equal to.
Computation STRATEGIES

Computation STRATEGIES
Eight Simple Rules for Memorizing Multiplication Tables Your task: Take a clean multiplication table grid. As we go through each rule, color in problems.

Eight Simple Rules for Memorizing Multiplication Tables Your task: Take a clean multiplication table grid. As we go through each rule, color in problems.
Operations: Meanings and Basic Facts CHAPTER 9 Tina Rye Sloan To accompany Helping Children Learn Math9e, Reys et al. ©2009 John Wiley & Sons.

Operations: Meanings and Basic Facts CHAPTER 9 Tina Rye Sloan To accompany Helping Children Learn Math9e, Reys et al. ©2009 John Wiley & Sons.
PS166 3 rd Grade Math Parent Workshop October 23 rd, 2014 Math Consultant: Nicola Godwin K-5 Math Teaching Resources LLC.

PS166 3 rd Grade Math Parent Workshop October 23 rd, 2014 Math Consultant: Nicola Godwin K-5 Math Teaching Resources LLC.
 The ability to compute efficiently and accurately with single-digit numbers (NCTM)

 The ability to compute efficiently and accurately with single-digit numbers (NCTM)

Similar presentations

Ads by Google