This document provides curriculum specifications for mathematics for Year 2 primary students in Malaysia. It includes learning objectives, suggested teaching activities, learning outcomes, key points to note, and relevant vocabulary for topics in whole numbers, money, time, length, mass, volume, and shape and space. The document aims to help students build understanding of mathematical concepts and skills that can be applied to everyday life.
Executive Directors Chat Leveraging AI for Diversity, Equity, and InclusionTechSoup
Let’s explore the intersection of technology and equity in the final session of our DEI series. Discover how AI tools, like ChatGPT, can be used to support and enhance your nonprofit's DEI initiatives. Participants will gain insights into practical AI applications and get tips for leveraging technology to advance their DEI goals.
How to Build a Module in Odoo 17 Using the Scaffold MethodCeline George
Odoo provides an option for creating a module by using a single line command. By using this command the user can make a whole structure of a module. It is very easy for a beginner to make a module. There is no need to make each file manually. This slide will show how to create a module using the scaffold method.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
The simplified electron and muon model, Oscillating Spacetime: The Foundation...RitikBhardwaj56
Discover the Simplified Electron and Muon Model: A New Wave-Based Approach to Understanding Particles delves into a groundbreaking theory that presents electrons and muons as rotating soliton waves within oscillating spacetime. Geared towards students, researchers, and science buffs, this book breaks down complex ideas into simple explanations. It covers topics such as electron waves, temporal dynamics, and the implications of this model on particle physics. With clear illustrations and easy-to-follow explanations, readers will gain a new outlook on the universe's fundamental nature.
A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
International FDP on Fundamentals of Research in Social Sciences
at Integral University, Lucknow, 06.06.2024
By Dr. Vinod Kumar Kanvaria
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
MATATAG CURRICULUM: ASSESSING THE READINESS OF ELEM. PUBLIC SCHOOL TEACHERS I...NelTorrente
In this research, it concludes that while the readiness of teachers in Caloocan City to implement the MATATAG Curriculum is generally positive, targeted efforts in professional development, resource distribution, support networks, and comprehensive preparation can address the existing gaps and ensure successful curriculum implementation.
Safalta Digital marketing institute in Noida, provide complete applications that encompass a huge range of virtual advertising and marketing additives, which includes search engine optimization, virtual communication advertising, pay-per-click on marketing, content material advertising, internet analytics, and greater. These university courses are designed for students who possess a comprehensive understanding of virtual marketing strategies and attributes.Safalta Digital Marketing Institute in Noida is a first choice for young individuals or students who are looking to start their careers in the field of digital advertising. The institute gives specialized courses designed and certification.
for beginners, providing thorough training in areas such as SEO, digital communication marketing, and PPC training in Noida. After finishing the program, students receive the certifications recognised by top different universitie, setting a strong foundation for a successful career in digital marketing.
A review of the growth of the Israel Genealogy Research Association Database Collection for the last 12 months. Our collection is now passed the 3 million mark and still growing. See which archives have contributed the most. See the different types of records we have, and which years have had records added. You can also see what we have for the future.
1. MINISTRY OF EDUCATION MALAYSIA
Integrated Curriculum for Primary Schools
Curriculum Specifications
MATHEMATICS
YEAR 2
Curriculum Development Centre
Ministry of Education Malaysia
2003
2. MINISTRY OF EDUCATION MALAYSIA
Integrated Curriculum for Primary Schools
Curriculum Specifications
MATHEMATICS
YEAR 2
Curriculum Development Centre
Ministry of Education Malaysia
2003
3. Copyright (C) 2003 Curriculum Development Centre
Ministry of Education Malaysia
Pesiaran Duta Off Jalan Duta
50604 Kuala Lumpur
First published 2003
Copyright reserved. Except for use in a review, the
reproduction or utilisation of this work in any form or by any
electronic, mechanical, or other means, now known or hereafter
invented, including photocopying, and recording is forbidden
without the prior written permission from the Director of the
Curriculum Development Centre, Ministry of Education Malaysia.
4. CONTENTS
RUKUNEGARA v
NATIONAL PHILOSOPHY OF EDUCATION vii
PREFACE ix
INTRODUCTION xi
WHOLE NUMBERS Numbers to 1000 1
Addition with the Highest Total of 1000 8
Subtraction within the Range of 1000 13
Multiplication within 2, 3, 4 and 5 Times-tables 19
Division within 2, 3, 4 and 5 Times-tables 24
MONEY Money to RM50 28
TIME Reading and Writing Time 32
Relationship between Units of Time 34
Solving Problems involving Time 35
LENGTH Introduction to Length 36
Measuring and Comparing Lengths 37
MASS Introduction to Mass 39
Measuring and Comparing Masses 40
VOLUME OF LIQUID Introduction to Volume of Liquid 42
Measuring and Comparing Volumes of Liquids 43
SHAPE AND SPACE Three-Dimensional Shapes 45
Two-Dimensional Shapes 48
CONTRIBUTORS 51
PANEL OF WRITERS 52
iii
5. RUKUNEGARA
DECLARATION
OUR NATION, MALAYSIA, being dedicated
to achieving a greater unity of all her peoples;
to maintaining a democratic way of life;
to creating a just society in which the wealth of the nation shall be equitably shared;
to ensuring a liberal approach to her rich and diverse cultural traditions;
to building a progressive society which shall be orientated to modern science and technology;
WE, her peoples, pledge our united efforts to attain these ends guided by these principles:
Belief in God
Loyalty to King and Country
Upholding the Constitution
Rule of Law
Good Behaviour and Morality
v
6. NATIONAL PHILOSOPHY OF EDUCATION
Education in Malaysia is an on-going effort towards developing the potential of
individuals in a holistic and integrated manner, so as to produce individuals who
are intellectually, spiritually, emotionally and physically balanced and harmonious
based on a firm belief in and devotion to God. Such an effort is designed to produce
Malaysian citizens who are knowledgeable and competent, who possess high
moral standards and who are responsible and capable of achieving a high level of
personal well being as well as being able to contribute to the harmony and
betterment of the family, society and the nation at large.
vii
7. PREFACE
Science and technology plays a crucial role in greater opportunities for pupils to enhance
meeting Malaysia’s aspiration to achieve developed their knowledge and skills because they are able to
nation status. Since mathematics is instrumental in source the various repositories of knowledge written in
developing scientific and technological knowledge, the mathematical English whether in electronic or print
provision of quality mathematics education from an forms. Pupils will be able to communicate
early age in the education process is critical. mathematically in English not only in the immediate
enviroment but also with pupils from other countries
The primary school Mathematics curriculum as thus increasing their overall English proficiency and
outlined in the syllabus has been designed to provide mathematical competence in the process.
opportunities for pupils to acquire mathematical
knowledge and skills and develop the higher order The development of a set of Curriculum Specifications
problem solving and decision making skills that they as a supporting document to the syllabus is the work
can apply in their everyday lives. But, more of many individuals and experts in the field. To those
importantly, together with the other subjects in the who have contributed in one way or another to this
primary school curriculum, the mathematics effort, on behalf of the Ministry of Education, I would
curriculum seeks to inculcate noble values and love like to thank them and express my deepest
for the nation towards the final aim of developing the appreciation.
holistic person who is capable of contributing to the
harmony and prosperity of the nation and its people.
Beginning in 2003, science and mathematics will be
taught in English following a phased implementation
schedule, which will be completed by 2008. (Dr. SHARIFAH MAIMUNAH SYED ZIN)
Mathematics education in English makes use of Director
ICT in its delivery. Studying mathematics in the Curriculum Development Centre
medium of English assisted by ICT will provide Ministry of Education Malaysia
ix
8. INTRODUCTION
Our nation’s vision can be achieved through a society later in life and in the process, benefit the society and
that is educated and competent in the application of the nation.
mathematical knowledge. To achieve this vision,
society must be inclined towards mathematics. Several factors have been taken into account when
Therefore, problem solving and communicational skills designing the curriculum and these are: mathematical
in mathematics have to be nurtured so that decisions concepts and skills, terminology and vocabulary used,
can be made effectively. and the level of proficiency of English among teachers
and pupils.
Mathematics is integral in the development of science
The Mathematics Curriculum at the primary level
and technology. As such, the acquisition of
(KBSR) emphasises the acquisition of basic concepts
mathematical knowledge must be upgraded
and skills. The content is categorised into four
periodically to create a skilled workforce in preparing
interrelated areas, namely, Numbers, Measurement,
the country to become a developed nation. In order to
Shape and Space and Statistics.
create a K-based economy, research and development
skills in Mathematics must be taught and instilled at The learning of mathematics at all levels involves more
school level. than just the basic acquisition of concepts and skills. It
involves, more importantly, an understanding of the
Achieving this requires a sound mathematics
underlying mathematical thinking, general strategies of
curriculum, competent and knowledgeable teachers
problem solving, communicating mathematically and
who can integrate instruction with assessment,
inculcating positive attitudes towards an appreciation
classrooms with ready access to technology, and a
of mathematics as an important and powerful tool in
commitment to both equity and excellence.
everyday life.
The Mathematics Curriculum has been designed to
It is hoped that with the knowledge and skills acquired
provide knowledge and mathematical skills to pupils
in Mathematics, pupils will discover, adapt, modify and
from various backgrounds and levels of ability.
be innovative in facing changes and future challenges.
Acquisition of these skills will help them in their careers
xi
9. AIM
The Primary School Mathematics Curriculum aims 4. master basic mathematical skills, namely:
to build pupils’ understanding of number concepts • making estimates and approximates,
and their basic skills in computation that they can • measuring,
apply in their daily routines effectively and responsibly • handling data
in keeping with the aspirations of a developed society • representing information in the form
and nation, and at the same time to use this of graphs and charts;
knowledge to further their studies.
5. use mathematical skills and knowledge to
OBJECTIVES solve problems in everyday life effectively
and responsibly;
The Primary School Mathematics Curriculum will
enable pupils to: 6. use the language of mathematics correctly;
1. know and understand the concepts,
7. use suitable technology in concept building,
definition, rules sand principles related to
acquiring mathematical skills and solving
numbers, operations, space, measures and
problems;
data representation;
8. apply the knowledge of mathematics
2. master the basic operations of mathematics:
systematically, heuristically, accurately and
• addition, carefully;
• subtraction,
• multiplication, 9. participate in activities related to mathematics;
• division; and
3. master the skills of combined operations; 10. appreciate the importance and beauty of
mathematics.
xii
10. CONTENT ORGANISATION
The Mathematics Curriculum at the primary level 4. Statistics
encompasses four main areas, namely, Numbers, • Average;
Measures, Shape and Space and Statistics. The • Data Representation.
topics for each area have been arranged from the
basic to the abstract. Teachers need to teach the The Learning Areas outline the breadth and depth of
basics before abstract topics are introduced to pupils. the scope of knowledge and skills that have to be
Each main area is divided into topics as follows: mastered during the allocated time for learning. These
learning areas are, in turn, broken down into more
1. Numbers
manageable objectives. Details as to teaching-learning
• Whole Numbers; strategies, vocabulary to be used and points to note
• Fractions; are set out in five columns as follows:
• Decimals;
• Money; Column 1: Learning Objectives.
• Percentage. Column 2: Suggested Teaching and
2. Measures Learning Activities.
• Time; Column 3: Learning Outcomes.
• Length; Column 4: Points To Note.
• Mass; Column 5: Vocabulary.
• Volume of Liquid.
The purpose of these columns is to illustrate, for a
3. Shape and Space particular teaching objective, a list of what pupils
• Two-dimensional Shapes; should know, understand and be able to do by the
• Three-dimensional Shapes. end of each respective topic.
xiii
11. The Learning Objectives define clearly what should The Vocabulary column consists of standard
be taught. They cover all aspects of the Mathematics mathematical terms, instructional words and phrases
curriculum and are presented in a developmental that are relevant when structuring activities, asking
sequence to enable pupils to grasp concepts and questions and in setting tasks. It is important to pay
master skills essential to a basic understanding of careful attention to the use of correct terminology.
mathematics. These terms need to be introduced systematically to
pupils and in various contexts so that pupils get to know
The Suggested Teaching and Learning Activities of their meaning and learn how to use
list some examples of teaching and learning activities. them appropriately.
These include methods, techniques, strategies and
resources useful in the teaching of a specific
concepts and skills. These are however not the only
approaches to be used in classrooms.
The Learning Outcomes define specifically what
pupils should be able to do. They prescribe the
knowledge, skills or mathematical processes and
values that should be inculcated and developed at
the appropriate levels. These behavioural objectives
are measurable in all aspects.
In Points To Note, attention is drawn to the more
significant aspects of mathematical concepts and
skills. These aspects must be taken into accounts
so as to ensure that the concepts and skills are taught
and learnt effectively as intended.
xiv
12. EMPHASIS IN TEACHING AND LEARNING 1. Problem Solving in Mathematics
The Mathematics Curriculum is ordered in such a way Problem solving is the main focus in the teaching and
so as to give flexibility to the teachers to create an learning of mathematics. Understanding mathematical
environment that is enjoyable, meaningful, useful and procedures and solving problems
challenging for teaching and learning. At the same time are two skills that emerge naturally when relational
it is important to ensure that pupils show progression understanding is focussed upon. As a result, problem
in acquiring the mathematical concepts and skills. solving approaches should be used to investigate and
understand mathematical content. The teaching-
On completion of a certain topic and in deciding to
learning process must include exercises on problem
progress to another learning area or topic, the following
solving skills which are comprehensive and cover the
need to be taken into accounts:
whole curriculum. The development of these skills
• The skills or concepts acquired in the new must to be emphasised so that pupils are able to solve
learning area or topics; various problems effectively. The skills
• Ensuring that the hierarchy or relationship involved are:
between learning areas or topics have been
followed through accordingly; and • Interpreting problems;
• Ensuring the basic learning areas have or • Planning the strategy;
skills have been acquired or mastered before • Carrying out the strategy; and
progressing to the more abstract areas. • Looking back at the solutions.
The teaching and learning processes emphasise Various strategies and steps are used to solve
concept building, skill acquisition as well as the problems and these can be applied to other learning
inculcation of positive values. Besides these, there areas. In solving these problems, pupils learn to apply
are other elements that need to be taken into account mathematics and gradually become confident in facing
and learnt through the teaching and learning new challenging situations. Among the problem solving
processes in the classroom. The main emphasis are strategies to consider are:
as follows:
xv
13. • Trying a simple case; and concise mathematical terms during oral
• Trial and improvement; presentation and written work. This is also expanded
• Draw a diagram; to the listening skills involved.
• Identifying patterns and sequences;
Communication in mathematics through the listening
• Make a table, chart or a systematic list;
process occurs when individuals respond to what
• Simulation;
they hear and this encourages them to think using
• Make analogy; and
their mathematical knowledge in making decisions.
• Working backwards.
Communication in mathematics through the reading
2. Communication in Mathematics process takes place when an individual collects
information or data and rearranges the relationship
Communication is one way to share ideas and clarify between ideas and concepts.
the understanding of Mathematics. Through talking
and questioning, mathematical ideas can be reflected Communication in mathematics through the
upon, discussed and modified. The process of visualization process takes place when an individual
reasoning analytically and systematically can help makes observation, analyses it, interprets and
reinforce and strengthen pupils’ knowledge and synthesises the data into graphic forms, such as
understanding of mathematics to a deeper level. pictures, diagrams, tables and graphs.
Through effective communications pupils will become
efficient in problem solving and be able to explain The following methods can create an effective
concepts and mathematical skills to their peers and communication environment:
teachers.
• Identifying relevant contexts associated
Pupils who have developed the above skills will with environment and everyday life
become more inquisitive gaining confidence in the experiences of pupils;
process. Communicational skills in mathematics • Identifying interests of pupils;
include reading and understanding problems, • Identifying teaching materials;
interpreting diagrams and graphs, and using correct • Ensuring active learning;
xvi
14. • Stimulating meta-cognitive skills; Written communication is the process whereby
• Inculcating positive attitudes; and mathematical ideas and information are
• Creating a conducive learning environment. shared with others through writing. The written work
is usually the result of discussions, contributions and
Oral communication is an interactive process that
brain-storming activities when working on
involves activities like listening, speaking, reading and
assignments. Through writing, the pupils will be
observing. It is a two-way interaction that takes place
encouraged to think more deeply about the
between teacher-pupil, pupil-pupil, and pupil-object.
mathematics content and observe the relationships
When pupils are challenged to think and reason about
between concepts.
mathematics and to tell others the results of their
thinking, they learn to be clear and convincing. Listening
Examples of written communication activities are:
to others’ explanations gives pupils the opportunities
• Doing exercises;
to develop their own understanding. Conversations in
• Keeping scrap books;
which mathematical ideas are explored from multiple
• Keeping folios;
perspectives help sharpen pupils thinking and help
• Undertaking projects; and
make connections between ideas. Such activity helps
• Doing written tests.
pupils develop a language for expressing mathematical
ideas and appreciation of the need for precision in the
language. Some effective and meaningful oral Representation is a process of analysing a
communication techniques in mathematics are as mathematical problem and interpreting it from one
follows: mode to another. Mathematical representation enables
pupils to find relationship between mathematical ideas
• Story-telling, question and answer sessions that are informal, intuitive and abstract using their
using own words; everyday language. Pupils will realise that some
• Asking and answering questions; methods of representation are more effective and
• Structured and unstructure interviews; useful if they know how to use the elements of
• Discussions during forums, seminars mathematical representation.
debates and brain-storming sessions; and
• Presentation of findings of assignments.
xvii
15. 3. Mathematical Reasoning The mathematics curriculum consists of several
areas such as arithmetic, geometry, measures and
Logical reasoning or thinking is the basis for
problem solving. Without connections between these
understanding and solving mathematical problems.
areas, pupils will have to learn and memorise too many
The development of mathematical reasoning is closely
concepts and skills separately. By making connections
related to the intellectual and communicative
pupils are able to see mathematics as an integrated
development of the pupils. Emphasis on logical
whole rather than a jumble of unconnected ideas.
thinking during mathematical activities opens up pupils’
Teachers can foster connections in a problem-oriented
minds to accept mathematics as a powerful tool in
classrooms by having pupils to communicate, reason
the world today.
and present their thinking. When these mathematical
ideas are connected with real life situations and the
Pupils are encouraged to predict and do guess work
curriculum, pupils will become more conscious in the
in the process of seeking solutions. Pupils at all
application of mathematics. They will also be able to
levels have to be trained to investigate their
use mathematics contextually in different learning
predictions or guesses by using concrete
areas in real life.
materials, calculators, computers, mathematical
representation and others. Logical reasoning has to
be infused in the teaching of mathematics so that 5. Application of Technology
pupils can recognise, construct and evaluate
predictions and mathematical arguments. The application of technology helps pupils to
understand mathematical concepts in depth,
4. Mathematical Connections meaningfully and precisely enabling them to explore
mathematical concepts. The use of calculators,
In the mathematics curriculum, opportunities for computers, educational software, websites in the
making connections must be created so that pupils internet and available learning packages can help to
can link conceptual to procedural knowledge and upgrade the pedagogical skills in the teaching and
relate topics in mathematics with other learning learning of mathematics.
areas in general.
xviii
16. The use of teaching resources is very important in attitudes and personalities, the intrinsic mathematical
mathematics. This will ensure that pupils absorb values of exactness, confidence and thinking
abstract ideas, be creative, feel confident and be able systematically have to be absorbed through the
to work independently or in groups. Most of these learning areas.
resources are designed for self-access learning.
Through self-access learning, pupils will be able to Good moral values can be cultivated through suitable
access knowledge or skills and informations context. For example, learning in groups can help
independently according to their pace. This will serve pupils develop social skills and encourage cooperation
to stimulate pupils’ interests and responsibility in and self-confidence in the subject. The element of
learning mathematics. patriotism can also be inculcated through the teaching-
learning process in the classroom using planned
topics. These values should be imbibed throughout
APPROACHES IN TEACHING AND LEARNING
the process of teaching and learning mathematics.
Various changes occur that influence the content and Among the approaches that can be given consideration
pedagogy in the teaching of mathematics in primary are:
schools. These changes require variety in the way of
teaching mathematics in schools. The use of teaching • Pupil centered learning that is interesting;
resources is vital in forming mathematical concepts. • The learning ability and styles of learning;
Teachers can use real or concrete objects in teaching • The use of relevant, suitable and effective
and learning to help pupils gain experience, construct teaching materials; and
abstract ideas, make inventions, build self confidence, • Formative evaluation to determine the
encourage independence and inculcate cooperation. effectiveness of teaching and learning.
The teaching and learning materials that are used
should contain self-diagnostic elements so that pupils
can know how far they have understood the concepts
and skills. To assist the pupils in having positive
xix
17. The choice of an approach that is suitable will stimulate
the teaching and learning environment in the classroom
or outside it. The approaches that are suitable include
the following:
• Cooperative learning;
• Contextual learning;
• Mastery learning;
• Constructivism;
• Enquiry-discovery; and
• Futures Study.
ASSESSMENT
Assessment is an integral part of the teaching and learning
process. It has to be well-structured and carried out
continuously as part of the classroom activities. By
focusing on a broad range of mathematical tasks, the
strengths and weaknesses of pupils can be assessed.
Different methods of assessment can be conducted using
multiple assessment techniques, including written and
oral work as well as demonstration. These may be in
the form of interviews, open-ended questions,
observations and assignments. Based on the results,
the teachers can rectify the pupils’ misconceptions and
weaknesses and at the same time improve their teaching
skills. As such, teachers can take subsequent effective
measures in conducting remedial and enrichment
activities to upgrade pupils’ performance.
xx
18. CONTRIBUTORS
Advisors Dr. Sharifah Maimunah bt Syed Zin Director
Curriculum Development Centre
Dr. Rohani Abdul Hamid Deputy Director
Curriculum Development Centre
Editorial Rusnani Mohd Sirin Assistant Director
Advisors (Head of Mathematics Unit)
Curriculum Development Centre
S. Sivagnanachelvi Assistant Director
(Head of English Language Unit)
Curriculum Development Centre
Editors Sugara Abd Latif Curriculum Officer
(Mathematics Unit)
Curriculum Development Centre
B. Jagdeesh Kaur Gill Curriculum Officer
(English LanguageUnit)
Curriculum Development Centre
Helen Henry Sarjit SK Bukit Damansara, Kuala Lumpur
Lee Tan Yen Peng SK St. Anthony, Penampang, Sabah
51
19. PANEL OF WRITERS
Rusnani Mohd Sirin Sugara Abd Latif
Assistant Director Curriculum Officer
(Head of Mathematics Unit) (Mathematics Unit)
Curriculum Development Centre Curriculum Development Centre
Dr. Lim Chap Sum Shanti Periasamy
Universiti Sains Malaysia, Pulau Pinang Maktab Perguruan Ilmu Khas, Kuala Lumpur
Wan Yusof Wan Ngah Maimunah Tahir
Maktab Perguruan Perempuan Melayu, Melaka Maktab Perguruan Kota Bahru, Kelantan
Jeya Velu Abdul Razak Salleh
Institut Bahasa Melayu Malaysia, Kuala Lumpur Maktab Perguruan Batu Rakit, Terengganu
Repiah Singah Lee Gik Lean
Maktab Perguruan Temenggong Ibrahim, Johor SK (P) Treacher Methodist, Perak
Tan Swee Hong Katherine Tan
SK Convent St. Jesus (2), Melaka SK Convent St. Jesus (1), Melaka
Ragu Ramasamy Latiff Darus
SK Bukit Bandaraya, Kuala Lumpur Pejabat Pendidikan Daerah, Pulau Pinang
Balkis Ahmad
SMK Sultan Sallahuddin Abdul Aziz Shah, Selangor
LAYOUT & ILLUSTRATIONS
Sugara Abd Latif
Mohd Razif Hashim
Mathematics Unit
Curriculum Development Centre
52
20. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: NUMBERS TO 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
1. Say and use the • Teacher show s picture cards or i. Say the number names to Encourage pupils to number
num ber names in number cards. Pupils listen and 1000. pronounce the number numerals
fam iliar contexts. repeat each number after teacher. names correctly.
ii. Recognise numerals to 1000. one hundred,
• Pupils recite the number sequence Pupils should count one hundred
to 1000. systematically to keep track and one, one
iii. Count up to 1000 objects by
of the count. hundred and
grouping them in hundreds,
• Pupils count to 1000 using objects tw o, …, nine-
tens, fives, twos and ones.
such as ice-cream sticks, straws, Count a larger collection of hundred and
chips, multi-based blocks and objects by grouping them in ninety-nine,
Cuisenaire rods. hundreds, tens, fives, twos one thousand
and ones. count
Overcome difficulties and tens
recognise recitation errors. fives
tw os
Check on pronunciation of
number names. ones
Check for accuracy.
1
21. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: NUMBERS TO 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
2. Read and w rite • Teacher says a number, pupils i. Write numerals to 1000. Overcome difficulties in number names
num bers to 1000. write the numeral. spelling. number w ords
ii. Read number w ords to one
• Teacher flashes a number w ord thousand. Check on pronunciation of one hundred,
card, pupils read the number number names. one hundred
word: iii. Write number w ords to one and one, one
thousand. Check for accuracy in hundred and
e.g. . spelling. tw o, …, nine
hundred and
Six hundred and forty-two. ninety-nine,
one thousand
• Pupils read and spell the number
words to one thousand.
• Pupils match numerals w ith
number w ords up to one
thousand.
• Pupils w rite the number w ords.
2
22. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: NUMBERS TO 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
3. Know w hat each • Represent 568 w ith objects such i. Recognise the place value of Emphasise the place value of number
digit in a number as Cuisenaire rods or multi-based numbers. each digit in tw o-digit and digit
represents. blocks. three-digit numbers.
e.g. hundreds
e.g. tens
1. 83
ones
2. 190 place holder
tw o-digit
Hundreds T ens On es
5 hundreds H T O three-digit
partition
8 3
8 ones 1 9 0
6 tens
The digit 5 in 568 represents 500, Emphasise the use of zero as
6 represents 60 and 8 represents a place holder.
8.
e.g. In 406, 0 represents
• Pupils partition tw o-digit or three-
tens.
digit numbers into hundreds, tens
and ones.
e.g. 702
702 is 7 hundreds,
0 tens and 2 ones.
3
23. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: NUMBERS TO 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
4. Understand and use • Pupils count on and count back i. Arrange numbers to 1000: Arrange in order a complete number names
the vocabulary of in ones: a. count on and count back set of numbers. number w ords
comparing and e.g. 300, 301, 302 … in ones.
arranging num bers e.g. 241, 240, 239 … Include counting on and back one hundred,
or quantities to b. count on and count back in multiples of 10 and 100. one hundred
1000. • Pupils count on and count back in tw os. e.g: 10, 20, 30 … and one, one
in tw os: 100, 200, 300 … hundred and
c. count on and count back tw o, …, nine
e.g. 0, 2, 4, … in fives. hundred and
Emphasise that a number
e.g. 122, 120, 118 … ninety-nine,
follow ing another number in
d. count on and count back the counting on sequence is one thousand
• Pupils count on and count back
in fives: in tens. larger. arrange
e.g. 30, 35, 40, … count on
e. count on and count back
e.g 570, 565, 555 … Emphasise that a number
in hundreds. count back
follow ing another number in
• Pupils count on and count back next
in tens: the counting back sequence
is smaller. before
e.g. 283, 293, 303 …
e.g. 600, 590, 580 … after
Check for accuracy in
• Pupils count on and count back counting on and counting betw een
in hundreds: back.
e.g. 418, 518, 618 …
e.g. 1000, 900, 800 …
4
24. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: NUMBERS TO 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils locate the correct position Use hundred grids for
of a number on a hundred grid counting on and back in tens
by counting on or back in tens and hundreds.
or hundreds.
e.g. Write 670 on the grid.
10
1000
5
25. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: NUMBERS TO 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils compare tw o numbers ii. Compare tw o numbers and Arrange numbers in more
using concrete or manipulative say w hich is more or less. sequence of ones, twos, less
mater ials such as Cuisenaire fives and tens.
rods or multi-based blocks. iii. Arrange numbers in order: arrange
a. compare the numbers;
order
e.g. Which is more, 217 or and
271? number line
b. position the numbers on a smaller
• Pupils arrange a group of number line.
numbers in order. smallest
e.g. larger
37
31 largest
39
41 35
33 ascending
descending
Ascending order:
31, 33, 35, 37, 39, 41
Descending order:
41, 39, 37, 35, 33, 31
• Pupils use number line to arrange
numbers in order.
e.g. 65, 40, 80, 25
0 25 40 65 80 100
6
26. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: NUMBERS TO 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
5. Understand and use • Teacher introduces ordinal i. Say ordinal numbers from Pupils recall ordinal numbers arrange
ordinal num bers in numbers eleventh to tw entieth eleventh to tw entieth. from first to tenth to denote order
different contexts. through activities. position.
first, second,
e.g. 20 pupils line up in a third, fourth
ii. Use ordinal numbers in Emphasise the relationship
straight line. Each pupil fifth, sixth,
different contexts. betw een cardinal and ordinal
says his/her number: seventh, eighth
numbers up to tw entieth.
One, tw o, … tw enty. The ninth, tenth,
pupil w ho says ‘eleven’ is eleventh,
Check pupils’ pronunciation
the ‘eleventh’ in the line. tw elfth,
and spelling of ordinal
thirteenth,
numbers.
• Pupils respond to questions in fourteenth,
different contexts such as: fifteenth,
a. Who is the eleventh, tw elf th, sixteenth,
… in this queue? seventeenth,
eighteenth,
b. What is the tw elfth month of nineteenth,
the year? tw entieth.
c. Point to the thirteenth bead last
from the right. next
before
d. What position is the eleventh after
boy in the row ?
7
27. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: ADDITION WITH THE HIGHEST TOTAL OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
1. Understand • Model concept of addition i. Add tw o numbers w ithout Emphasise that adding zero numbers
addition as using concrete and manipulative regrouping: to a number leaves the add
combining tw o mater ials such as chips, multi- number unchanged.
groups of objects. based blocks and Cuisenaire rods. a. tw o 1-digit numbers; plus
e.g: 768 + 0 = 768
total
• Pupils carry out addition mentally b. a 2-digit number and a
involving: 1-digit number; and Emphasise mental sum
a. 1-digit numbers and multiples calculation. groups
of 10. c. tw o 2-digit numbers.
e.g. 3 + 50 = Include addition using regrouping
standard written method. zero
b. 1-digit numbers and multiples
of 100. e.g. digit
e.g. 400 + 7 = 1. 5 multiples
+ 8
c. pairs of multiples of 10 to standard
make 100. written method
e.g. 20 + = 100 one-digit
2. 62
• Pupils add tw o numbers up to tw o tw o-digit
+ 7
digits w ithout regrouping.
e.g.
Tens Ones
T O
5 1
+ 4 3
8
28. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: ADDITION WITH THE HIGHEST TOTAL OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils add tw o numbers up to tw o ii. Add tw o numbers w ith Emphasise that adding zero numbers
digits w ith regrouping. regrouping: to a number leaves the add
number unchanged.
e.g. a. a 2-digit number and a plus
1. 15 + 7 = 1-digit number; and Emphasise mental total
calculation.
2. 76 + 29 = b. tw o 2-digit numbers. sum
Include addition using groups
T ens On es standard written method.
T O regrouping
iii. Add tw o numbers w ithout
e.g. zero
regrouping:
7 6 1. 49
+ 38 digit
+ 2 9 a. a 3-digit number and a
1-digit number; multiples
standard
• Pupils add tw o numbers up to b. a 3-digit number and a
written method
three digits w ithout regrouping. 2-digit number; and 2. 502
+ 61 one-digit
e.g. c. tw o 3-digit numbers.
tw o-digit
1. 521 + 6 =
three-digit
2. 350 + 48 =
3. 647 + 102 =
9
29. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: ADDITION WITH THE HIGHEST TOTAL OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils add three 1-digit numbers; iv. Add three 1-digit numbers. Emphasise that adding zero numbers
a. w ithout regrouping: to a number leaves the add
e.g. 4 + 3 + 2 = number unchanged.
plus
b. w ith regrouping: Emphasise mental total
e.g. 5 + 7 + 6 = calculation.
sum
Include addition using groups
standard written method.
regrouping
e.g. zero
1. 5
1 digit
+ 2 multiples
standard
written method
2. 6 one-digit
3
+ 8
10
30. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: ADDITION WITH THE HIGHEST TOTAL OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
2. Use and apply • Pupils find unknow n numbers in i. Find unknow n numbers in Use and apply know ledge of add
knowledge of number sentences. number sentences. addition in a variety of
contexts including real life plus
addition in real life.
situations. sum
Emphasise finding unknow n total
numbers in number unknow n
sentences as follows:
number
a. 16 + 5 = sentence
regrouping
b. 34 + = 60
zero
c. + 27 = 138 digit
multiples
d. + = 85
one-digit
e. = 74 + 9 tw o-digit
three-digit
f. 519 = 300 +
g. 600 = + 200
h. 463 = +
Emphasise mental
calculation.
11
31. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: ADDITION WITH THE HIGHEST TOTAL OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils solve problems by ii. Solve problems involving Use and apply know ledge of add
simulating or modelling the addition in real life situations. addition in a variety of plus
situation. contexts including real life
situations. sum
e.g. total
Mat has 23 chickens. Select problems according to
He buys 6 more chickens. pupils’ ability and proficiency number
How many chickens has he now ? in language. sentence
regrouping
• Pupils make up a number story to zero
a given number sentence.
digit
46 + 12 = 58 multiples
one-digit
e.g.
I have 46 stickers and Kumar has tw o-digit
12 stickers. Altogether w e have three-digit
58 stickers.
12
32. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: SUBTRACTION WITHIN THE RANGE OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
1. Understand • Model concept of subtraction i. Subtract tw o numbers w ithout Emphasise that subtracting subtract
subtraction as using concrete and manipulative regrouping: zero leaves a number
unchanged. take aw ay
“take aw ay” or mater ials such as, chips, multi-
“difference” based blocks and Cuisenaire rods. a. a 1-digit number from a minus
e.g. 415 – 0 = 415
between two 1-digit number; How many
groups of objects. • Pupils carry out subtraction
Emphasise mental left?
mentally involving: b. a 1-digit number from a
calculation. What is left?
2-digit number; and
a. multiples of 10
regrouping
e.g. 70 – 40 = Include subtraction using
c. a 2-digit number from a zero
standard written method.
b. multiples of 100 2-digit number.
e.g. 600 – 200 = e.g. digit
c. a 2-digit number and a multiples
1. 6
1-digit number. – 2 standard
e.g. 15 – 3 = written method
• Pupils subtract tw o numbers one-digit
2. 47
w ithout regrouping: tw o-digit
– 3
e.g. 54 – 31 =
T ens On es
T O 3. 98
–50
5 4
– 3 1
13
33. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: SUBTRACTION WITHIN THE RANGE OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils subtract tw o numbers ii. Subtract tw o numbers w ith Emphasise that subtracting subtract
w ith regrouping. regrouping: zero leaves a number take aw ay
e.g. unchanged.
1. 24 – 8 = a. a 1-digit number from a minus
2-digit number; and Emphasise mental How many
2. 71 – 53 = calculation. left?
b. a 2-digit number from a
2-digit number. Include subtraction using What is left?
T ens On es
T O standard written method. regrouping
7 1 zero
iii. Subtract tw o numbers w ithout e.g.
– 5 3 regrouping: 1. 82 digit
– 5 multiples
a. a 1-digit number from a
3-digit number; standard
written method
• Pupils subtract tw o numbers
w ithout regrouping. b. a 2-digit number from a 2. 639 one-digit
e.g. 3-digit number; and –107 tw o-digit
1. 748 – 6 =
c. a 3-digit number from a three-digit
2. 365 – 20 = 3-digit number.
3. 914 – 503 =
14
34. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: SUBTRACTION WITHIN THE RANGE OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils subtract three 1-digit iv. Subtract three 1-digit numbers. Emphasise that subtracting subtract
numbers. zero leaves a number take aw ay
e.g. 9 – 1 – 3 = unchanged.
minus
Emphasise mental How many
calculation. left?
Include subtraction using What is left?
standard written method. standard
written method
e.g. 8–2–5 = regrouping
8 6 zero
– 2 – 5 digit
6 1
multiples
Use manipulatives to help standard
pupils see the relationship written method
betw een addition and one-digit
subtraction.
e.g.
4+5=9
9–4=5
9–5=4
15
35. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: SUBTRACTION WITHIN THE RANGE OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
2. Use and apply • Pupils find unknow n numbers in i. Find unknow n numbers in Use and apply know ledge of subtract
knowledge of number sentences. number sentences. subtraction in a variety of take aw ay
subtraction in contexts including real life
real life. situations. minus
difference
Emphasise finding unknow n
numbers in number How many
sentences as follows: left?
What is left?
a. 8 – 6 =
regrouping
b. 45 – = 20 zero
c. – 13 = 76 digit
d. – = 58 multiples
standard
e. = 149 – 25 written method
f. 300 = 867 – one-digit
tw o-digit
g. 275 = – 43
three-digit
h. 180 = –
Emphasise mental
calculation.
16
36. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: SUBTRACTION WITHIN THE RANGE OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils respond to questions ii. Solve problems involving Continue to develop the subtract
phrased in a variety of ways subtraction in real life understanding of subtraction take aw ay
such as: situations. as taking aw ay and finding
the difference between two minus
1. What is the difference numbers. difference
betw een 20 and 32?
Use and apply know ledge betw een
2. What number must you take of subtraction in a variety How many
from 40 to leave 26? of contexts including real life. left?
What is left?
3. Find pairs of numbers w ith a Select problems according
difference of 10. to pupils’ ability and regrouping
proficiency in language. zero
• Pupils solve problems by
digit
simulating or modelling the
situation. multiples
standard
e.g. written method
1. Hema buys 20 cards.
If she gives 6 cards to her one-digit
sister, how many cards has tw o-digit
she left?
three-digit
17
37. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: SUBTRACTION WITHIN THE RANGE OF 1000
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
2. Class Bestari has 45 pupils
and Class Maju has 38 pupils.
How many more pupils are
there in Class Bestari?
• Pupils make up a number story to
a given number sentence.
e.g.
50 - 12 = 38
There are 50 children in the bus.
12 are standing and 38 are
sitting.
18
38. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: MULTIPLICATION WITHIN 2, 3, 4 AND 5 TIMES-TABLES
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
1. Understand • Pupils model concept of i. Recognise multiplication as Introduce multiplication as add 2 and 2 …
m ultiplication as multiplication as repeated repeated addition. repeated addition. add 3 and 3 …
repeated addition. addition using concrete and
(2, 3, 4 and 5 times- manipulative materials. add 4 and 4 …
tables) add 5 and 5 …
e.g.
Pupils form 3 groups of 2 equals
cookies. times
Pupils count the number of
groups and the number of multiply
cookies in each group. multiplied by
Pupils w rite the number double
sentences to find the total skip counting
number of cookies in 3 groups.
times-tables
multiplication
tables
2+2+2 =6
3x 2=6
Relate multiplication to repeated
addition.
19
39. Year 2
TOPIC: WHOLE NUMBERS
LEARNING AREA: MULTIPLICATION WITHIN 2, 3, 4 AND 5 TIMES-TABLES
LEARNING OBJECTIVES SUGGESTED TEACHING AND LEARNING OUTCOMES POINTS TO NO TE VOCABULARY
LEARNING ACTIVITIES
Pupils will be taught to: Pupils will be able to:
• Pupils w rite number sentences ii. Wr ite number sentences for Use ‘x’ and ‘=’ signs in a times
for multiplication. multiplication. number sentence. multiply
e.g. Relate ‘x’ to times and multiplied by
multiply. double
Read number sentence, skip counting
4 x 5 = 20 as “four times five times-tables
equals tw enty” or “four number
1. 3 + 3 + 3 + 3 +3 + 3 + 3 = 21 multiplied by five is equal to
7 x 3 = 21 sentence
tw enty”.
multiplication
2. 3 x 4 = 12
2 2 2
0 1 2 3 4 5 6 7 8 9 10
3. 3 x 2 = 6
20