This document provides the curriculum and assessment policy statement for mathematics in grades 10-12 in South African schools. It outlines the general aims of the South African curriculum to promote social justice and active, critical learning. It discusses the structure of the mathematics curriculum, including topics covered in each grade and term. It also provides guidance on teaching time, sequencing of topics, and assessment requirements.
Grade 11 to 12 Programme - Greenfield Community Schoolfarrahesham
Greenfield Community School provides a high quality, creative and challenging international education, based on the International Baccalaureate Philosophy. We foster within each student, staff member and community member an enduring passion for learning and empowering each individual to become a caring global citizen.
Fet business studies gr 10 12 - we_b#c0fcCeltia Tladi
This document provides the Curriculum and Assessment Policy Statement for Business Studies for grades 10-12 in South Africa. It outlines the background and purpose of CAPS and the National Curriculum Statement. It addresses time allocation for Business Studies and the general aims of the South African curriculum. The document also provides an overview of the topics covered per grade per term and annual teaching plans for grades 10-12. It describes the assessment policies and procedures for Business Studies.
Fet life orientation gr 10-12 _ web#e6_b3TL Nkabinde
This document provides the Curriculum and Assessment Policy Statement (CAPS) for Life Orientation for grades 10-12 in South African schools. It replaces previous curriculum documents and provides clearer guidance for teachers on what should be taught and assessed each term. The CAPS aims to realize the constitution's goals of establishing a democratic, just and equal society and to improve the quality of life and potential of all citizens.
Ace Maths Unit Two: Developing Understanding in Mathematics (PDF)PiLNAfrica
In this unit, the theoretical basis for teaching mathematics – constructivism – is explored. Varieties of teaching strategies based on constructivist understandings of how learning best takes place are described
This document outlines the curriculum and assessment policy for Life Sciences in grades 10-12 in South African schools. It aims to heal divisions of the past and establish a society based on democratic values of social justice, human rights, and improved quality of life. The curriculum covers core content in Life Sciences including cell biology, genetics, evolution, ecology, and human impacts. It assesses students' knowledge of concepts as well as their ability to investigate phenomena and appreciate the importance of Life Sciences in society. Formal assessment includes tests, examinations, practical tasks, and investigations conducted throughout grades 10-12.
This document outlines the Saskatchewan curriculum for Mathematics in Grade 2. It includes the core curriculum, broad areas of learning, cross-curricular competencies, aim and goals of K-12 mathematics, teaching mathematics, outcomes and indicators, assessment, connections to other areas of study, and a glossary. The curriculum builds on students' prior learning in number sense, spatial sense, logical thinking, and understanding mathematics as a human endeavor to further develop these areas and prepare students for future mathematics learning.
This document provides the course plan for a Quantitative Methods course taught at Gyan Ganga Institute of Technology & Management.
The course aims to introduce students to basic statistical techniques for business decision making. It covers topics like descriptive statistics, probability, inferential statistics, regression, correlation, and the use of statistical software.
The course is designed to help students understand and apply statistical concepts to business problems. It will use methods like lectures, case discussions, student presentations and assignments to teach topics over 38 sessions. Student performance will be evaluated through class participation, assignments, quizzes and tests.
Ace Maths Unit Six: Teaching All Children Mathematics. Reading 1: Guidelines ...PiLNAfrica
The document provides guidelines for developing inclusive learning programmes to address diversity in South African classrooms. It discusses barriers to learning such as disability, language difficulties, lack of parental involvement, and socioeconomic barriers. It emphasizes that the Revised National Curriculum Statement (RNCS) allows for flexibility to adapt learning programmes and assessments based on individual learner needs. Teachers are encouraged to identify barriers and make appropriate modifications to facilitate participation and access to education for all learners.
Grade 11 to 12 Programme - Greenfield Community Schoolfarrahesham
Greenfield Community School provides a high quality, creative and challenging international education, based on the International Baccalaureate Philosophy. We foster within each student, staff member and community member an enduring passion for learning and empowering each individual to become a caring global citizen.
Fet business studies gr 10 12 - we_b#c0fcCeltia Tladi
This document provides the Curriculum and Assessment Policy Statement for Business Studies for grades 10-12 in South Africa. It outlines the background and purpose of CAPS and the National Curriculum Statement. It addresses time allocation for Business Studies and the general aims of the South African curriculum. The document also provides an overview of the topics covered per grade per term and annual teaching plans for grades 10-12. It describes the assessment policies and procedures for Business Studies.
Fet life orientation gr 10-12 _ web#e6_b3TL Nkabinde
This document provides the Curriculum and Assessment Policy Statement (CAPS) for Life Orientation for grades 10-12 in South African schools. It replaces previous curriculum documents and provides clearer guidance for teachers on what should be taught and assessed each term. The CAPS aims to realize the constitution's goals of establishing a democratic, just and equal society and to improve the quality of life and potential of all citizens.
Ace Maths Unit Two: Developing Understanding in Mathematics (PDF)PiLNAfrica
In this unit, the theoretical basis for teaching mathematics – constructivism – is explored. Varieties of teaching strategies based on constructivist understandings of how learning best takes place are described
This document outlines the curriculum and assessment policy for Life Sciences in grades 10-12 in South African schools. It aims to heal divisions of the past and establish a society based on democratic values of social justice, human rights, and improved quality of life. The curriculum covers core content in Life Sciences including cell biology, genetics, evolution, ecology, and human impacts. It assesses students' knowledge of concepts as well as their ability to investigate phenomena and appreciate the importance of Life Sciences in society. Formal assessment includes tests, examinations, practical tasks, and investigations conducted throughout grades 10-12.
This document outlines the Saskatchewan curriculum for Mathematics in Grade 2. It includes the core curriculum, broad areas of learning, cross-curricular competencies, aim and goals of K-12 mathematics, teaching mathematics, outcomes and indicators, assessment, connections to other areas of study, and a glossary. The curriculum builds on students' prior learning in number sense, spatial sense, logical thinking, and understanding mathematics as a human endeavor to further develop these areas and prepare students for future mathematics learning.
This document provides the course plan for a Quantitative Methods course taught at Gyan Ganga Institute of Technology & Management.
The course aims to introduce students to basic statistical techniques for business decision making. It covers topics like descriptive statistics, probability, inferential statistics, regression, correlation, and the use of statistical software.
The course is designed to help students understand and apply statistical concepts to business problems. It will use methods like lectures, case discussions, student presentations and assignments to teach topics over 38 sessions. Student performance will be evaluated through class participation, assignments, quizzes and tests.
Ace Maths Unit Six: Teaching All Children Mathematics. Reading 1: Guidelines ...PiLNAfrica
The document provides guidelines for developing inclusive learning programmes to address diversity in South African classrooms. It discusses barriers to learning such as disability, language difficulties, lack of parental involvement, and socioeconomic barriers. It emphasizes that the Revised National Curriculum Statement (RNCS) allows for flexibility to adapt learning programmes and assessments based on individual learner needs. Teachers are encouraged to identify barriers and make appropriate modifications to facilitate participation and access to education for all learners.
This document provides details for two assessments in a PDHPE unit. Assessment 1 involves students developing a lecture and handout on a core or option topic in small groups. It comprises a class presentation, handout, and individual lesson plan. Assessment 2 requires students to individually design a wiki for HSC students on the PDHPE syllabus, including blog articles, collaborative writing spaces, syllabus content, and video/website links for each core. Marking criteria emphasize well-structured, organized resources that demonstrate planning skills and incorporate a range of appropriate technologies and strategies based on theory and practice.
This document provides a learning guide for the unit Methods 2B: PDHPE 2Y. It outlines six learning outcomes for the unit and two assessments. Assessment 1 involves designing an assessment schedule, task outlines, and rubrics worth 50% of the grade. It is due in Week 4. Assessment 2 involves participating in a testing workshop during Weeks 7 and 8 worth 50% and assessing outcomes 1-6. The guide also provides contact information for academic staff and a schedule of teaching activities.
This document provides information for supervising teachers and pre-service teachers regarding the professional experience program at the University of Western Sydney. It outlines key personnel and their roles, administrative responsibilities, guidelines for assessing pre-service teacher progress, and important professional, ethical and legal responsibilities. The professional experience aims to prepare teachers who are skilled practitioners, knowledgeable about teaching and learning, and reflective in their practice.
This document provides information for pre-service teachers regarding the secondary professional experience program at a university. It outlines key dates and requirements for three professional experience units:
1. Professional Experience I involves 5 focus days of school visits and a 4-week block teaching experience where pre-service teachers plan and teach lessons from one subject area for Years 7-10.
2. Professional Experience II extends pre-service teachers' classroom learning experiences so they can demonstrate competencies of a new teacher, including incorporating perspectives like technology and assessment.
3. Professional Experience III provides experience in alternative educational settings to broaden understanding of wider education issues.
It also defines the roles of personnel involved and guidelines for evaluation of pre-
Ace Maths Unit Six: Teaching All Children Mathematics (pdf)PiLNAfrica
This unit explores the implications of the fundamental assumption in this module – that ALL children can learn mathematics, whatever their background or language or sex, and regardless of learning disabilities they may have. It gives practical guidance on how teachers can adapt their lessons according to the specific needs of their learners.
This document outlines the Ontario curriculum for mathematics courses in grades 9 and 10. It discusses the importance of mathematics in developing skills for students' future roles in society. It notes that technology is changing the role of procedures in mathematics, allowing students to solve more complex problems. The curriculum integrates technology and focuses on developing conceptual understanding through problem solving using real-life contexts. It emphasizes building mathematical knowledge gradually over multiple grades through a coherent program.
This document provides an overview of topics related to elementary mathematics education. It includes:
1) An outline of 9 topics related to numbers, operations, measurement, geometry and more. Each topic includes learning outcomes, introductions, pedagogical content knowledge sections and teaching/learning activities.
2) Details on the topic of numbers to 1000, including the importance of number sense, counting skills, and activities to develop thinking about numbers, numerals, place value and comparing quantities.
3) An excerpt from the numbers to 1000 topic discussing number concepts like nominal, ordinal and cardinal numbers; and how children can learn numbers through materials, symbols and language.
Ace Maths Unit Five: Assessment Into Teaching and Learning (pdf)PiLNAfrica
This unit explores outcomes-based assessment of mathematics in terms of five main questions – Why assess? (the purposes of assessment); What to assess? (achievement of outcomes, but also understanding, reasoning and problem-solving ability); How to assess? (methods, tools and techniques); How to interpret the results of assessment? (the importance of criteria and rubrics for outcomes-based assessment) ; and How to report on assessment? (developing meaningful report cards).
The digestive system begins in the mouth where mechanical and chemical digestion starts breaking down starches. Food then moves to the pharynx and esophagus through peristalsis. In the stomach, food is further broken down chemically and mechanically by HCl and pepsin over 3-6 hours. The partially digested food, now called chyme, spends 3-5 hours in the small intestine where nutrients are absorbed and enzymes from the liver, gallbladder and pancreas aid digestion. Undigested waste spends 18-24 hours in the large intestine where water is absorbed before moving to the rectum and anus to be excreted from the body.
The document summarizes the key aspects of the digestive system. It describes how the digestive system prepares food for use by all body cells through digestion. It then outlines the main parts and functions of the digestive tract, from the mouth through the esophagus, stomach, small and large intestines. The document also discusses the roles of accessory organs like the liver, gallbladder and pancreas in producing digestive enzymes and chemicals.
The document outlines the key structures and functions of the human digestive system. It describes the organs involved in digestion, including the mouth, esophagus, stomach, small intestine, pancreas, liver, and large intestine. It also explains the roles of enzymes and chemicals in breaking down carbohydrates, proteins, lipids, and nucleic acids during digestion.
The document summarizes the human digestive system. It describes the mouth, which contains teeth for breaking down food and salivary glands that secrete saliva containing the enzyme amylase. The esophagus transports food to the stomach through peristalsis. The stomach contains acids and enzymes that partially digest food. The small intestine further digests food through enzymes from the pancreas, liver, and intestine itself. Digested nutrients are then absorbed through the small intestine walls. The large intestine absorbs water from undigested waste before it is expelled through the anus.
The document describes the major human body systems, including their functions, main organs, and interactions with other systems. It lists the 11 main systems as digestive, circulatory, nervous, excretory, respiratory, skeletal, muscular, endocrine, immune, integumentary, and lymphatic. For each system it provides a brief description of its function, diagrams of major organs, and notes on how it interacts with other body systems to maintain homeostasis.
The document describes the digestive system and digestive process. It details the structures and functions of the gastrointestinal tract including the mouth, esophagus, stomach, small intestine, pancreas, liver, and large intestine. It explains the mechanical and chemical breakdown of nutrients including carbohydrates, lipids, and proteins. Key enzymes and hormones that regulate digestion and nutrient absorption in each organ are also discussed.
The document discusses the human digestive system and digestion process. It lists the major organs of the digestive system including the mouth, esophagus, stomach, small intestine, large intestine, and anus. It describes mechanical digestion as chewing with teeth and swallowing with the esophagus, and chemical digestion as breaking down food with saliva, stomach enzymes, and bile. The document also briefly mentions types of teeth and some common digestive issues.
Detailed Lesson plan Sample Digestive ProcessRose Bambico
The document provides details of a lesson plan about the digestive system taught at Philippine Normal University. It includes objectives, preliminaries like an icebreaker game, lesson proper discussing each part of the digestive system and their functions, an assessment quiz, and enrichment activities as homework. The lesson aims to teach students the parts and processes of digestion, locate organs in the digestive system, and understand the importance of the system.
The human digestive system is approximately 9 meters long and runs from the mouth to the anus. It is made up of specialized regions where digestion takes place, including the mouth, esophagus, stomach, small intestine, and large intestine. Digestion is a two-phase process involving mechanical and chemical breakdown of food. Enzymes are secreted throughout the digestive tract to break down macromolecules into smaller molecules that can be absorbed and used by the body. Nutrients are then absorbed in the small intestine and remaining waste is eliminated through the large intestine and anus.
A powerpoint on the Human Excretory System, intended for the SA Grade 11 Life Sciences Syllabus. Includes information on kidneys, osmoregulation, nephrons, excretion, etc. Hope it helps :)
The lesson plan aims to teach students about the digestive system. It includes objectives, subject matter, and procedures. The procedures involve motivating students with a puzzle activity about the digestive system. The teacher will then present and discuss the key parts and functions, including digestion and absorption in the mouth, esophagus, stomach, small intestine, large intestine, and excretion. Students will work in groups to trace the food flow and discuss the importance. They will identify organs on a chart and answer evaluation questions to assess learning. For homework, students will research digestive disorders.
The lesson plan summarizes the key concepts around properties of matter to be covered in a 30 minute science period for first year high school students. The objectives are for students to identify general properties of matter, conduct an experiment, and understand the importance of properties. The lesson involves reviewing definitions of mass, volume, density, and weight. Students will participate in an experiment to determine the volume of irregular solids using water displacement. To evaluate learning, students will take a short multiple choice quiz on the concepts covered in the lesson.
Detailed Lesson Plan in Science and Health Grade 3 Sense Organjanehbasto
The lesson plan aims to teach grade 3 students about the five sense organs - eyes, nose, ears, tongue, and skin. It includes objectives, subject matter, materials, references, and methodology. The methodology section outlines teacher and student activities including preliminary activities like prayer and attendance, a motivation story about Helen Keller, presentation and practice identifying senses, and an exploring group activity where students use their senses to describe objects. The lesson concludes with generalization of the senses, application questions, and evaluation.
This document provides details for two assessments in a PDHPE unit. Assessment 1 involves students developing a lecture and handout on a core or option topic in small groups. It comprises a class presentation, handout, and individual lesson plan. Assessment 2 requires students to individually design a wiki for HSC students on the PDHPE syllabus, including blog articles, collaborative writing spaces, syllabus content, and video/website links for each core. Marking criteria emphasize well-structured, organized resources that demonstrate planning skills and incorporate a range of appropriate technologies and strategies based on theory and practice.
This document provides a learning guide for the unit Methods 2B: PDHPE 2Y. It outlines six learning outcomes for the unit and two assessments. Assessment 1 involves designing an assessment schedule, task outlines, and rubrics worth 50% of the grade. It is due in Week 4. Assessment 2 involves participating in a testing workshop during Weeks 7 and 8 worth 50% and assessing outcomes 1-6. The guide also provides contact information for academic staff and a schedule of teaching activities.
This document provides information for supervising teachers and pre-service teachers regarding the professional experience program at the University of Western Sydney. It outlines key personnel and their roles, administrative responsibilities, guidelines for assessing pre-service teacher progress, and important professional, ethical and legal responsibilities. The professional experience aims to prepare teachers who are skilled practitioners, knowledgeable about teaching and learning, and reflective in their practice.
This document provides information for pre-service teachers regarding the secondary professional experience program at a university. It outlines key dates and requirements for three professional experience units:
1. Professional Experience I involves 5 focus days of school visits and a 4-week block teaching experience where pre-service teachers plan and teach lessons from one subject area for Years 7-10.
2. Professional Experience II extends pre-service teachers' classroom learning experiences so they can demonstrate competencies of a new teacher, including incorporating perspectives like technology and assessment.
3. Professional Experience III provides experience in alternative educational settings to broaden understanding of wider education issues.
It also defines the roles of personnel involved and guidelines for evaluation of pre-
Ace Maths Unit Six: Teaching All Children Mathematics (pdf)PiLNAfrica
This unit explores the implications of the fundamental assumption in this module – that ALL children can learn mathematics, whatever their background or language or sex, and regardless of learning disabilities they may have. It gives practical guidance on how teachers can adapt their lessons according to the specific needs of their learners.
This document outlines the Ontario curriculum for mathematics courses in grades 9 and 10. It discusses the importance of mathematics in developing skills for students' future roles in society. It notes that technology is changing the role of procedures in mathematics, allowing students to solve more complex problems. The curriculum integrates technology and focuses on developing conceptual understanding through problem solving using real-life contexts. It emphasizes building mathematical knowledge gradually over multiple grades through a coherent program.
This document provides an overview of topics related to elementary mathematics education. It includes:
1) An outline of 9 topics related to numbers, operations, measurement, geometry and more. Each topic includes learning outcomes, introductions, pedagogical content knowledge sections and teaching/learning activities.
2) Details on the topic of numbers to 1000, including the importance of number sense, counting skills, and activities to develop thinking about numbers, numerals, place value and comparing quantities.
3) An excerpt from the numbers to 1000 topic discussing number concepts like nominal, ordinal and cardinal numbers; and how children can learn numbers through materials, symbols and language.
Ace Maths Unit Five: Assessment Into Teaching and Learning (pdf)PiLNAfrica
This unit explores outcomes-based assessment of mathematics in terms of five main questions – Why assess? (the purposes of assessment); What to assess? (achievement of outcomes, but also understanding, reasoning and problem-solving ability); How to assess? (methods, tools and techniques); How to interpret the results of assessment? (the importance of criteria and rubrics for outcomes-based assessment) ; and How to report on assessment? (developing meaningful report cards).
The digestive system begins in the mouth where mechanical and chemical digestion starts breaking down starches. Food then moves to the pharynx and esophagus through peristalsis. In the stomach, food is further broken down chemically and mechanically by HCl and pepsin over 3-6 hours. The partially digested food, now called chyme, spends 3-5 hours in the small intestine where nutrients are absorbed and enzymes from the liver, gallbladder and pancreas aid digestion. Undigested waste spends 18-24 hours in the large intestine where water is absorbed before moving to the rectum and anus to be excreted from the body.
The document summarizes the key aspects of the digestive system. It describes how the digestive system prepares food for use by all body cells through digestion. It then outlines the main parts and functions of the digestive tract, from the mouth through the esophagus, stomach, small and large intestines. The document also discusses the roles of accessory organs like the liver, gallbladder and pancreas in producing digestive enzymes and chemicals.
The document outlines the key structures and functions of the human digestive system. It describes the organs involved in digestion, including the mouth, esophagus, stomach, small intestine, pancreas, liver, and large intestine. It also explains the roles of enzymes and chemicals in breaking down carbohydrates, proteins, lipids, and nucleic acids during digestion.
The document summarizes the human digestive system. It describes the mouth, which contains teeth for breaking down food and salivary glands that secrete saliva containing the enzyme amylase. The esophagus transports food to the stomach through peristalsis. The stomach contains acids and enzymes that partially digest food. The small intestine further digests food through enzymes from the pancreas, liver, and intestine itself. Digested nutrients are then absorbed through the small intestine walls. The large intestine absorbs water from undigested waste before it is expelled through the anus.
The document describes the major human body systems, including their functions, main organs, and interactions with other systems. It lists the 11 main systems as digestive, circulatory, nervous, excretory, respiratory, skeletal, muscular, endocrine, immune, integumentary, and lymphatic. For each system it provides a brief description of its function, diagrams of major organs, and notes on how it interacts with other body systems to maintain homeostasis.
The document describes the digestive system and digestive process. It details the structures and functions of the gastrointestinal tract including the mouth, esophagus, stomach, small intestine, pancreas, liver, and large intestine. It explains the mechanical and chemical breakdown of nutrients including carbohydrates, lipids, and proteins. Key enzymes and hormones that regulate digestion and nutrient absorption in each organ are also discussed.
The document discusses the human digestive system and digestion process. It lists the major organs of the digestive system including the mouth, esophagus, stomach, small intestine, large intestine, and anus. It describes mechanical digestion as chewing with teeth and swallowing with the esophagus, and chemical digestion as breaking down food with saliva, stomach enzymes, and bile. The document also briefly mentions types of teeth and some common digestive issues.
Detailed Lesson plan Sample Digestive ProcessRose Bambico
The document provides details of a lesson plan about the digestive system taught at Philippine Normal University. It includes objectives, preliminaries like an icebreaker game, lesson proper discussing each part of the digestive system and their functions, an assessment quiz, and enrichment activities as homework. The lesson aims to teach students the parts and processes of digestion, locate organs in the digestive system, and understand the importance of the system.
The human digestive system is approximately 9 meters long and runs from the mouth to the anus. It is made up of specialized regions where digestion takes place, including the mouth, esophagus, stomach, small intestine, and large intestine. Digestion is a two-phase process involving mechanical and chemical breakdown of food. Enzymes are secreted throughout the digestive tract to break down macromolecules into smaller molecules that can be absorbed and used by the body. Nutrients are then absorbed in the small intestine and remaining waste is eliminated through the large intestine and anus.
A powerpoint on the Human Excretory System, intended for the SA Grade 11 Life Sciences Syllabus. Includes information on kidneys, osmoregulation, nephrons, excretion, etc. Hope it helps :)
The lesson plan aims to teach students about the digestive system. It includes objectives, subject matter, and procedures. The procedures involve motivating students with a puzzle activity about the digestive system. The teacher will then present and discuss the key parts and functions, including digestion and absorption in the mouth, esophagus, stomach, small intestine, large intestine, and excretion. Students will work in groups to trace the food flow and discuss the importance. They will identify organs on a chart and answer evaluation questions to assess learning. For homework, students will research digestive disorders.
The lesson plan summarizes the key concepts around properties of matter to be covered in a 30 minute science period for first year high school students. The objectives are for students to identify general properties of matter, conduct an experiment, and understand the importance of properties. The lesson involves reviewing definitions of mass, volume, density, and weight. Students will participate in an experiment to determine the volume of irregular solids using water displacement. To evaluate learning, students will take a short multiple choice quiz on the concepts covered in the lesson.
Detailed Lesson Plan in Science and Health Grade 3 Sense Organjanehbasto
The lesson plan aims to teach grade 3 students about the five sense organs - eyes, nose, ears, tongue, and skin. It includes objectives, subject matter, materials, references, and methodology. The methodology section outlines teacher and student activities including preliminary activities like prayer and attendance, a motivation story about Helen Keller, presentation and practice identifying senses, and an exploring group activity where students use their senses to describe objects. The lesson concludes with generalization of the senses, application questions, and evaluation.
K to 12 - Grade 8 Science Learner ModuleNico Granada
1) Students conducted an experiment to determine the relationship between force and acceleration by pulling a cart with varying numbers of rubber bands (1, 2, 3, 4) and measuring the cart's acceleration using a ticker tape timer.
2) Analysis of the ticker tape charts showed that as the number of rubber bands increased, representing greater force, the length of the strips increased, indicating higher average velocity over time intervals.
3) This demonstrated a direct relationship between the net force acting on an object and its acceleration, as described by Newton's second law of motion.
The human digestive system breaks down food through a multi-step process involving the mouth, esophagus, stomach, small intestine, large intestine and other organs like the liver and pancreas. Various hormones regulate digestion by signaling the stomach, pancreas and other organs to produce acids and enzymes that break down food. Nerves also control the movement of food through the digestive tract and the secretion of acids and enzymes.
Detailed Lesson Plan (ENGLISH, MATH, SCIENCE, FILIPINO)Junnie Salud
Thanks everybody! The lesson plans presented were actually outdated and can still be improved. I was also a college student when I did these. There were minor errors but the important thing is, the structure and flow of activities (for an hour-long class) are included here. I appreciate all of your comments! Please like my fan page on facebook search for JUNNIE SALUD.
*The detailed LP for English is from Ms. Juliana Patricia Tenzasas. I just revised it a little.
For questions about education-related matters, you can directly email me at mr_junniesalud@yahoo.com
This document outlines the curriculum and assessment policy for Life Sciences in grades 10-12 in South African schools. It aims to heal divisions of the past and establish a society based on democratic values of social justice, human rights, and improved quality of life. The curriculum covers core content in Life Sciences including cell biology, genetics, evolution, ecology, and human impacts. It emphasizes developing scientific knowledge and skills through investigation of phenomena. Time and resources are allocated for teaching Life Sciences and formal assessments are outlined for each grade to measure learning outcomes.
This document outlines the curriculum and assessment policy for Life Sciences in grades 10-12 in South African schools. It aims to heal divisions of the past and establish a society based on democratic values of social justice, human rights, and improved quality of life. The curriculum covers core content in Life Sciences including cell biology, genetics, evolution, ecology, and human impacts. It assesses students' knowledge of concepts as well as their ability to investigate phenomena and appreciate the importance of Life Sciences in society. Formal assessment includes tests, practical tasks, and examinations at the end of each grade.
The document provides the Curriculum and Assessment Policy Statement (CAPS) for Life Sciences for grades 10-12 in South Africa. It outlines the aims and purposes of studying Life Sciences, which include knowing life science concepts, investigating phenomena, appreciating the importance and applications of life sciences, and developing language skills. It describes the content to be covered in each grade and provides guidance on assessment requirements, including the formal assessment program and end-of-year examinations. The CAPS is intended to guide teaching and learning in Life Sciences and ensure consistency across schools.
This document provides the curriculum and assessment policy for geography in grades 10-12 in South Africa. It outlines the key aims of geography which include understanding geographical concepts and skills. The document specifies the time allocation and weighting for different topics across the grades. It also describes the continuity in content and skills from grade 4 through to grade 12. An overview is given of the expected content and skills in the Further Education and Training phase (grades 10-12). The document concludes with sections on assessment requirements and exemplar annual teaching plans for each grade.
This document provides the curriculum and assessment policy for geography in grades 10-12 in South Africa. It outlines the key aims of geography which include understanding geographical concepts, developing geographical skills, and fostering certain attitudes and values. It specifies the time allocation and weighting for different topics across the grades. It also describes the continuity in content and skills from grade 4 through to grade 12. Finally, it provides overviews of the content and skills covered in each grade, as well as the assessment requirements for the subject.
This document provides the curriculum and assessment policy for geography in grades 10-12 in South Africa. It outlines the key aims of geography which include understanding geographical concepts and skills. The document specifies the time allocation and weighting for different topics across the grades. It also describes the continuity in content and skills from grade 4 through to grade 12. An overview is given of the expected content and skills in the Further Education and Training phase (grades 10-12). The document concludes with sections on assessment requirements and exemplar annual teaching plans for each grade.
This document provides the curriculum and assessment policy for Life Orientation in grades 10-12 in South African schools. It replaces previous policy documents and aims to provide clearer guidance for teachers on what should be taught and assessed each term. The curriculum is based on the values of the South African constitution and aims to establish a democratic, socially just society and develop students to their full potential.
The document provides the Curriculum and Assessment Policy Statement for Life Orientation for grades 10-12. It outlines the following:
1. Background information on the National Curriculum Statement and the purpose of CAPS.
2. Specific aims and time allocation for Life Orientation which is 2 hours per week.
3. An overview of the topics covered per term and the annual teaching plans for grades 10-12.
4. Details on assessment for Life Orientation including informal assessment, certificate tasks, examinations and moderation.
The document is the Curriculum and Assessment Policy Statement (CAPS) for English Home Language in grades 10-12 in South African schools. It outlines the aims, content, time allocation and assessment policies for teaching English Home Language. The CAPS is designed to transform the curriculum inherited from apartheid and establish a society based on democratic principles of social justice, equality and human rights. It combines the previous National Curriculum Statements for grades R-9 and 10-12 into a single document and specifies the standards and content to be taught each term.
The document is a Curriculum and Assessment Policy Statement (CAPS) for English Home Language in grades 10-12 published by the South African Department of Basic Education. It outlines the aims, skills, content, and assessment policies for English Home Language. It provides teaching plans for each grade with details on term schedules, content, concepts, and skills. The CAPS is intended to guide teaching and learning in South African schools to realize the goals of the national curriculum.
The document is the Curriculum and Assessment Policy Statement (CAPS) for English Home Language in grades 10-12 in South African schools. It outlines the aims, content, time allocation and assessment policies for teaching English Home Language. The CAPS is designed to transform the curriculum inherited from apartheid and establish a society based on democratic principles of social justice, equality and human rights. It combines the previous National Curriculum Statements for grades R-9 and 10-12 into a single document and specifies the standards and content to be taught each term.
The document is a Curriculum and Assessment Policy Statement (CAPS) that outlines the curriculum and assessment policies for English Home Language in grades 10-12 in South Africa. It aims to transform the curriculum inherited from apartheid to establish a society based on democratic values like social justice and human rights. The CAPS replaces previous national curriculum statements and provides clear specifications for what must be taught and learned on a term-by-term basis.
The document outlines the curriculum and assessment policy for Tourism in grades 10-12 in South Africa. It discusses:
1. The background and aims of the national curriculum to transform education and promote social justice.
2. The specific aims of Tourism to develop knowledge and skills for the tourism industry.
3. The time allocation for Tourism of 4 hours per week in grades 10-12.
This document outlines the curriculum and assessment policy for History in grades 10-12 in South Africa. It provides the background and context for the National Curriculum Statement implemented from 2012. It describes the general aims of developing the curriculum, including transforming past imbalances, promoting active learning, ensuring high skills and knowledge, and being sensitive to issues like diversity, indigenous knowledge, and human rights. The document also provides an overview of History as a subject, its specific aims, key skills and concepts, and the organization of content and weighting across grades. It includes details on the topics covered in each grade from 10-12 and assessment approaches in History.
CAPS FET _ COMPUTER APPLICATIONS TECHNOLOGY _ GR 10-12 _ Web_6AC6.pdfAlwande Maphisa
This document provides the curriculum and assessment policy statement for Computer Applications Technology (CAT) in grades 10-12 in South Africa. It aims to outline what content needs to be taught and learnt in each grade. The curriculum is divided into 6 topics: solution development, systems technologies, network technologies, internet technologies, information management, and social implications. It provides a suggested annual teaching plan for each grade with content and activities for each term. Assessment guidelines are also included, outlining the requirements and procedures for informal daily and formal assessments, including project and test formats. Moderation processes for quality assurance of assessments are also described.
This document outlines the curriculum and assessment policy for geography in grades 10-12 in South African schools. It provides the background and context for geography education, including the aims and skills developed. It describes the content covered in each grade and term, and formal assessment requirements. The goal is to establish a coherent, progressive geography curriculum that meets the aims of the South African constitution to heal divisions of the past and lay foundations for an open, democratic society.
This document provides an introduction to the Curriculum and Assessment Policy Statements (CAPS) for Life Orientation for grades 10-12 in South Africa. It outlines the background and objectives of the National Curriculum Statement and CAPS. It describes the purpose of Life Orientation in developing values and skills for life. The document also includes an overview of topics covered each term and an annual teaching plan to guide instruction in Life Orientation. It concludes with sections on assessment requirements and procedures for Life Orientation.
This document provides an introduction to the Curriculum and Assessment Policy Statements (CAPS) for Life Orientation for grades 10-12 in South Africa. It outlines the background and objectives of the National Curriculum Statement and the CAPS. It describes the purpose and content of Life Orientation and allocates teaching time to topics. The document also includes an annual teaching plan and assessment guidelines for Life Orientation.
Caps fet life orientation gr 10-12 _ web_e6_b3Student
This document provides the Curriculum and Assessment Policy Statement (CAPS) for Life Orientation for grades 10-12 in South African schools. It outlines the background and objectives of the National Curriculum Statement, which aims to establish a democratic society based on social justice. The CAPS replaces previous curriculum documents and provides clear guidelines for each term on what must be taught and learned in Life Orientation. It includes sections on the purpose and aims of Life Orientation, time allocation, topic weighting, annual teaching plans, and assessment requirements.
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𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐄𝐏𝐏 𝐂𝐮𝐫𝐫𝐢𝐜𝐮𝐥𝐮𝐦 𝐢𝐧 𝐭𝐡𝐞 𝐏𝐡𝐢𝐥𝐢𝐩𝐩𝐢𝐧𝐞𝐬:
- Understand the goals and objectives of the Edukasyong Pantahanan at Pangkabuhayan (EPP) curriculum, recognizing its importance in fostering practical life skills and values among students. Students will also be able to identify the key components and subjects covered, such as agriculture, home economics, industrial arts, and information and communication technology.
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Chapter wise All Notes of First year Basic Civil Engineering.pptxDenish Jangid
Chapter wise All Notes of First year Basic Civil Engineering
Syllabus
Chapter-1
Introduction to objective, scope and outcome the subject
Chapter 2
Introduction: Scope and Specialization of Civil Engineering, Role of civil Engineer in Society, Impact of infrastructural development on economy of country.
Chapter 3
Surveying: Object Principles & Types of Surveying; Site Plans, Plans & Maps; Scales & Unit of different Measurements.
Linear Measurements: Instruments used. Linear Measurement by Tape, Ranging out Survey Lines and overcoming Obstructions; Measurements on sloping ground; Tape corrections, conventional symbols. Angular Measurements: Instruments used; Introduction to Compass Surveying, Bearings and Longitude & Latitude of a Line, Introduction to total station.
Levelling: Instrument used Object of levelling, Methods of levelling in brief, and Contour maps.
Chapter 4
Buildings: Selection of site for Buildings, Layout of Building Plan, Types of buildings, Plinth area, carpet area, floor space index, Introduction to building byelaws, concept of sun light & ventilation. Components of Buildings & their functions, Basic concept of R.C.C., Introduction to types of foundation
Chapter 5
Transportation: Introduction to Transportation Engineering; Traffic and Road Safety: Types and Characteristics of Various Modes of Transportation; Various Road Traffic Signs, Causes of Accidents and Road Safety Measures.
Chapter 6
Environmental Engineering: Environmental Pollution, Environmental Acts and Regulations, Functional Concepts of Ecology, Basics of Species, Biodiversity, Ecosystem, Hydrological Cycle; Chemical Cycles: Carbon, Nitrogen & Phosphorus; Energy Flow in Ecosystems.
Water Pollution: Water Quality standards, Introduction to Treatment & Disposal of Waste Water. Reuse and Saving of Water, Rain Water Harvesting. Solid Waste Management: Classification of Solid Waste, Collection, Transportation and Disposal of Solid. Recycling of Solid Waste: Energy Recovery, Sanitary Landfill, On-Site Sanitation. Air & Noise Pollution: Primary and Secondary air pollutants, Harmful effects of Air Pollution, Control of Air Pollution. . Noise Pollution Harmful Effects of noise pollution, control of noise pollution, Global warming & Climate Change, Ozone depletion, Greenhouse effect
Text Books:
1. Palancharmy, Basic Civil Engineering, McGraw Hill publishers.
2. Satheesh Gopi, Basic Civil Engineering, Pearson Publishers.
3. Ketki Rangwala Dalal, Essentials of Civil Engineering, Charotar Publishing House.
4. BCP, Surveying volume 1
Chapter wise All Notes of First year Basic Civil Engineering.pptx
Caps doc.
1. National Curriculum Statement (NCS)
Curriculum and Assessment
Policy Statement
MATHEMATICS
Further Education and Training Phase
Grades 10-12
basic education
Department:
Basic Education
REPUBLIC OF SOUTH AFRICA
4. AGRICULTURAL MANAGEMENT PRACTICES GRADES 10-12
MATHEMATICS
FOREWORD by thE ministER
Our national curriculum is the culmination of our efforts over a period of seventeen
years to transform the curriculum bequeathed to us by apartheid. From the start of
democracy we have built our curriculum on the values that inspired our Constitution
(Act 108 of 1996). the Preamble to the Constitution states that the aims of the
Constitution are to:
• heal the divisions of the past and establish a society based on democratic
values, social justice and fundamental human rights;
• improve the quality of life of all citizens and free the potential of each person;
• lay the foundations for a democratic and open society in which government is
based on the will of the people and every citizen is equally protected by law;
and
• build a united and democratic South Africa able to take its rightful place as a sovereign state in the family of
nations.
Education and the curriculum have an important role to play in realising these aims.
in 1997 we introduced outcomes-based education to overcome the curricular divisions of the past, but the experience
of implementation prompted a review in 2000. This led to the first curriculum revision: the Revised National Curriculum
Statement Grades R-9 and the National Curriculum Statement Grades 10-12 (2002).
Ongoing implementation challenges resulted in another review in 2009 and we revised the Revised National
Curriculum Statement (2002) to produce this document.
From 2012 the two 2002 curricula, for Grades R-9 and Grades 10-12 respectively, are combined in a single document
and will simply be known as the National Curriculum Statement Grades R-12. the National Curriculum Statement for
Grades R-12 builds on the previous curriculum but also updates it and aims to provide clearer specification of what
is to be taught and learnt on a term-by-term basis.
the National Curriculum Statement Grades R-12 accordingly replaces the subject statements, Learning Programme
Guidelines and subject Assessment Guidelines with the
(a) Curriculum and Assessment Policy statements (CAPs) for all approved subjects listed in this document;
(b) National policy pertaining to the programme and promotion requirements of the National Curriculum Statement
Grades R-12; and
(c) National Protocol for Assessment Grades R-12.
MRS ANGIE MOTSHEKGA, MP
MINISTER OF BASIC EDUCATION
CAPS
6. MATHEMATICS GRADES 10-12
contents
Section 1: INTRODUCTION TO THE CURRICULUM AND ASSESSMENT POLICY STATEMENTS... 3
1.1 Background .....................................................................................................................................................3
1.2 Overview...........................................................................................................................................................3
1.3 General aims of the South African Curriculum.............................................................................................4
1.4 Time allocation.................................................................................................................................................6
1.4.1 Foundation Phase....................................................................................................................................6
1.4.2 Intermediate Phase..................................................................................................................................6
1.4.3 Senior Phase...........................................................................................................................................7
1.4.4 Grades 10-12...........................................................................................................................................7
SECTION 2: INTRODUCTION TO MATHEMATICS................................................................................... 8
2.1 What is Mathematics?.....................................................................................................................................8
2.2 Specific Aims....................................................................................................................................................8
2.3 Specific Skills...................................................................................................................................................8
2.4 Focus of Content Areas...................................................................................................................................9
2.5 Weighting of Content Areas............................................................................................................................9
2.6 Mathematics in the FET.................................................................................................................................10
SECTION 3: OVERVIEW OF TOPICS PER TERM AND ANNUAL TEACHING PLANS........................ 11
3.1 Specification of content to show Progression............................................................................................11
3.1.1 Overview of topics..................................................................................................................................12
3.2 Content clarification with teaching guidelines............................................................................................16
3.2.1 Allocation of teaching time.....................................................................................................................16
3.2.2 Sequencing and pacing of topics...........................................................................................................18
3.2.3 Topic allocation per term........................................................................................................................21
Grade 10 Term: 1...................................................................................................................................21
Grade 10 Term: 2...................................................................................................................................24
Grade 10 Term: 3...................................................................................................................................26
Grade 10 Term: 4...................................................................................................................................29
Grade 11 Term: 1...................................................................................................................................30
Grade 11 Term: 2...................................................................................................................................32
Grade 11 Term: 3...................................................................................................................................34
CAPS 1
7. MATHEMATICS GRADES 10-12
Grade 11 Term: 4...................................................................................................................................39
Grade 12 Term:1....................................................................................................................................40
Grade 12 Term: 2...................................................................................................................................44
Grade 12 Term: 3...................................................................................................................................48
Grade 12 Term: 4...................................................................................................................................50
SECTION 4: ASSESSMENT IN MATHEMATICS..................................................................................... 51
4.1. Introduction....................................................................................................................................................51
4.2. Informal or Daily Assessment.......................................................................................................................51
4.3. Formal Assessment.......................................................................................................................................52
4.4. Programme of Assessment...........................................................................................................................53
4.5. Recording and reporting...............................................................................................................................55
4.6. Moderation of Assessment...........................................................................................................................56
4.7. General............................................................................................................................................................56
2 CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
8. MATHEMATICS GRADES 10-12
sECTION 1
INTRODUCTION TO THE Curriculum and Assessment Policy StatementS for
MATHEMATICS gradeS 10-12
1.1 Background
The National Curriculum Statement Grades R-12 (NCS) stipulates policy on curriculum and assessment in the
schooling sector.
To improve implementation, the National Curriculum Statement was amended, with the amendments coming into
effect in January 2012. A single comprehensive Curriculum and Assessment Policy document was developed for
each subject to replace Subject Statements, Learning Programme Guidelines and Subject Assessment Guidelines
in Grades R-12.
1.2 Overview
(a) The National Curriculum Statement Grades R-12 (January 2012) represents a policy statement for learning
and teaching in South African schools and comprises the following:
(i) Curriculum and Assessment Policy Statements for each approved school subject;
(ii) The policy document, National policy pertaining to the programme and promotion requirements of the
National Curriculum Statement Grades R-12; and
(iii) The policy document, National Protocol for Assessment Grades R-12 (January 2012).
(b) The National Curriculum Statement Grades R-12 (January 2012) replaces the two current national curricula
statements, namely the
(i) Revised National Curriculum Statement Grades R-9, Government Gazette No. 23406 of 31 May 2002,
and
(ii) National Curriculum Statement Grades 10-12 Government Gazettes, No. 25545 of 6 October 2003 and
No. 27594 of 17 May 2005.
(c) The national curriculum statements contemplated in subparagraphs b(i) and (ii) comprise the following policy
documents which will be incrementally repealed by the National Curriculum Statement Grades R-12 (January
2012) during the period 2012-2014:
(i) The Learning Area/Subject Statements, Learning Programme Guidelines and Subject Assessment
Guidelines for Grades R-9 and Grades 10-12;
(ii) The policy document, National Policy on assessment and qualifications for schools in the General
Education and Training Band, promulgated in Government Notice No. 124 in Government Gazette No.
29626 of 12 February 2007;
(iii) The policy document, the National Senior Certificate: A qualification at Level 4 on the National
Qualifications Framework (NQF), promulgated in Government Gazette No.27819 of 20 July 2005;
CAPS 3
9. MATHEMATICS GRADES 10-12
(iv) The policy document, An addendum to the policy document, the National Senior Certificate: A
qualification at Level 4 on the National Qualifications Framework (NQF), regarding learners with special
needs, published in Government Gazette, No.29466 of 11 December 2006, is incorporated in the policy
document, National policy pertaining to the programme and promotion requirements of the National
Curriculum Statement Grades R-12; and
(v) The policy document, An addendum to the policy document, the National Senior Certificate: A
qualification at Level 4 on the National Qualifications Framework (NQF), regarding the National Protocol
for Assessment (Grades R-12), promulgated in Government Notice No.1267 in Government Gazette
No. 29467 of 11 December 2006.
(d) The policy document, National policy pertaining to the programme and promotion requirements of the
National Curriculum Statement Grades R-12, and the sections on the Curriculum and Assessment Policy as
contemplated in Chapters 2, 3 and 4 of this document constitute the norms and standards of the National
Curriculum Statement Grades R-12. It will therefore, in terms of section 6A of the South African Schools Act,
1996 (Act No. 84 of 1996,) form the basis for the Minister of Basic Education to determine minimum outcomes
and standards, as well as the processes and procedures for the assessment of learner achievement to be
applicable to public and independent schools.
1.3 General aims of the South African Curriculum
(a) The National Curriculum Statement Grades R-12 gives expression to the knowledge, skills and values worth
learning in South African schools. This curriculum aims to ensure that children acquire and apply knowledge
and skills in ways that are meaningful to their own lives. In this regard, the curriculum promotes knowledge in
local contexts, while being sensitive to global imperatives.
(b) The National Curriculum Statement Grades R-12 serves the purposes of:
• equipping learners, irrespective of their socio-economic background, race, gender, physical ability or
intellectual ability, with the knowledge, skills and values necessary for self-fulfilment, and meaningful
participation in society as citizens of a free country;
• providing access to higher education;
• facilitating the transition of learners from education institutions to the workplace; and
• providing employers with a sufficient profile of a learner’s competences.
(c) The National Curriculum Statement Grades R-12 is based on the following principles:
• Social transformation: ensuring that the educational imbalances of the past are redressed, and that equal
educational opportunities are provided for all sections of the population;
• Active and critical learning: encouraging an active and critical approach to learning, rather than rote and
uncritical learning of given truths;
• High knowledge and high skills: the minimum standards of knowledge and skills to be achieved at each
grade are specified and set high, achievable standards in all subjects;
• Progression: content and context of each grade shows progression from simple to complex;
4 CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
10. MATHEMATICS GRADES 10-12
• Human rights, inclusivity, environmental and social justice: infusing the principles and practices of social and
environmental justice and human rights as defined in the Constitution of the Republic of South Africa. The
National Curriculum Statement Grades R-12 is sensitive to issues of diversity such as poverty, inequality,
race, gender, language, age, disability and other factors;
• Valuing indigenous knowledge systems: acknowledging the rich history and heritage of this country as
important contributors to nurturing the values contained in the Constitution; and
• Credibility, quality and efficiency: providing an education that is comparable in quality, breadth and depth to
those of other countries.
(d) The National Curriculum Statement Grades R-12 aims to produce learners that are able to:
• identify and solve problems and make decisions using critical and creative thinking;
• work effectively as individuals and with others as members of a team;
• organise and manage themselves and their activities responsibly and effectively;
• collect, analyse, organise and critically evaluate information;
• communicate effectively using visual, symbolic and/or language skills in various modes;
• use science and technology effectively and critically showing responsibility towards the environment and
the health of others; and
• demonstrate an understanding of the world as a set of related systems by recognising that problem solving
contexts do not exist in isolation.
(e) Inclusivity should become a central part of the organisation, planning and teaching at each school. This can
only happen if all teachers have a sound understanding of how to recognise and address barriers to learning,
and how to plan for diversity.
The key to managing inclusivity is ensuring that barriers are identified and addressed by all the relevant support
structures within the school community, including teachers, District-Based Support Teams, Institutional-Level
Support Teams, parents and Special Schools as Resource Centres. To address barriers in the classroom,
teachers should use various curriculum differentiation strategies such as those included in the Department of
Basic Education’s Guidelines for Inclusive Teaching and Learning (2010).
CAPS 5
11. MATHEMATICS GRADES 10-12
1.4 Time Allocation
1.4.1 Foundation Phase
(a) The instructional time in the Foundation Phase is as follows:
GRADE R GRADES 1-2 GRADE 3
SUBJECT
(HOURS) (HOURS) (HOURS)
Home Language 10 8/7 8/7
First Additional Language 2/3 3/4
Mathematics 7 7 7
Life Skills 6 6 7
• Beginning Knowledge (1) (1) (2)
• Creative Arts (2) (2) (2)
• Physical Education (2) (2) (2)
• Personal and Social Well-being (1) (1) (1)
TOTAL 23 23 25
(b) Instructional time for Grades R, 1 and 2 is 23 hours and for Grade 3 is 25 hours.
(c) Ten hours are allocated for languages in Grades R-2 and 11 hours in Grade 3. A maximum of 8 hours and a
minimum of 7 hours are allocated for Home Language and a minimum of 2 hours and a maximum of 3 hours for
Additional Language in Grades 1-2. In Grade 3 a maximum of 8 hours and a minimum of 7 hours are allocated
for Home Language and a minimum of 3 hours and a maximum of 4 hours for First Additional Language.
(d) In Life Skills Beginning Knowledge is allocated 1 hour in Grades R-2 and 2 hours as indicated by the hours in
brackets for Grade 3.
1.4.2 Intermediate Phase
(a) The instructional time in the Intermediate Phase is as follows:
SUBJECT HOURS
Home Language 6
First Additional Language 5
Mathematics 6
Natural Sciences and Technology 3,5
Social Sciences 3
Life Skills 4
• Creative Arts (1,5)
• Physical Education (1)
• Personal and Social Well-being (1,5)
TOTAL 27,5
6 CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
12. MATHEMATICS GRADES 10-12
1.4.3 Senior Phase
(a) The instructional time in the Senior Phase is as follows:
SUBJECT HOURS
Home Language 5
First Additional Language 4
Mathematics 4,5
Natural Sciences 3
Social Sciences 3
Technology 2
Economic Management Sciences 2
Life Orientation 2
Creative Arts 2
TOTAL 27,5
1.4.4 Grades 10-12
(a) The instructional time in Grades 10-12 is as follows:
Subject Time allocation per week (hours)
Home Language 4.5
First Additional Language 4.5
Mathematics 4.5
Life Orientation 2
minimum of any three subjects selected from Group B
A 12 (3x4h)
Annexure B, Tables B1-B8 of the policy document, National policy
pertaining to the programme and promotion requirements of
the National Curriculum Statement Grades R-12, subject to the
provisos stipulated in paragraph 28 of the said policy document.
TOTAL 27,5
The allocated time per week may be utilised only for the minimum required NCS subjects as specified above,
and may not be used for any additional subjects added to the list of minimum subjects. Should a learner wish
to offer additional subjects, additional time must be allocated for the offering of these subjects
CAPS 7
13. MATHEMATICS GRADES 10-12
sECTION 2
Introduction
In Chapter 2, the Further Education and Training (FET) Phase Mathematics CAPS provides teachers with a definition
of mathematics, specific aims, specific skills, focus of content areas and the weighting of content areas.
2.1 What is Mathematics?
Mathematics is a language that makes use of symbols and notations for describing numerical, geometric and
graphical relationships. It is a human activity that involves observing, representing and investigating patterns and
qualitative relationships in physical and social phenomena and between mathematical objects themselves. It helps to
develop mental processes that enhance logical and critical thinking, accuracy and problem solving that will contribute
in decision-making.Mathematical problem solving enables us to understand the world (physical, social and economic)
around us, and, most of all, to teach us to think creatively.
2.2 Specific Aims
1. To develop fluency in computation skills without relying on the usage of calculators.
2. Mathematical modeling is an important focal point of the curriculum. Real life problems should be incorporated
into all sections whenever appropriate. Examples used should be realistic and not contrived. Contextual problems
should include issues relating to health, social, economic, cultural, scientific, political and environmental issues
whenever possible.
3. To provide the opportunity to develop in learners the ability to be methodical, to generalize, make conjectures
and try to justify or prove them.
4. To be able to understand and work with number system.
5. To show Mathematics as a human creation by including the history of Mathematics.
6. To promote accessibility of Mathematical content to all learners. It could be achieved by catering for learners
with different needs.
7. To develop problem-solving and cognitive skills. Teaching should not be limited to “how”but should rather
feature the “when” and “why” of problem types. Learning procedures and proofs without a good understanding
of why they are important will leave learners ill-equipped to use their knowledge in later life.
8. To prepare the learners for further education and training as well as the world of work.
2.3 Specific Skills
To develop essential mathematical skills the learner should:
• develop the correct use of the language of Mathematics;
• collect, analyse and organise quantitative data to evaluate and critique conclusions;
8 CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
14. MATHEMATICS GRADES 10-12
• use mathematical process skills to identify, investigate and solve problems creatively and critically;
• use spatial skills and properties of shapes and objects to identify, pose and solve problems creatively and
critically;
• participate as responsible citizens in the life of local, national and global communities; and
• communicate appropriately by using descriptions in words, graphs, symbols, tables and diagrams.
2.4 Focus of Content Areas
Mathematics in the FET Phase covers ten main content areas. Each content area contributes towards the acquisition
of the specific skills. The table below shows the main topics in the FET Phase.
The Main Topics in the FET Mathematics Curriculum
1. Functions
2. Number Patterns, Sequences, Series
3. Finance, growth and decay
4. Algebra
5. Differential Calculus
6. Probability
7. Euclidean Geometry and Measurement
8. Analytical Geometry
9. Trigonometry
10. Statistics
2.5 Weighting of Content Areas
The weighting of mathematics content areas serves two primary purposes: firstly the weighting gives guidance on
the amount of time needed to address adequately the content within each content area; secondly the weighting gives
guidance on the spread of content in the examination (especially end of the year summative assessment).
CAPS 9
15. MATHEMATICS GRADES 10-12
Weighting of Content Areas
Description Grade 10 Grade 11 Grade. 12
PAPER 1 (Grades 12:bookwork: maximum 6 marks)
Algebra and Equations (and inequalities) 30 ± 3 45 ± 3 25 ± 3
Patterns and Sequences 15 ± 3 25 ± 3 25 ± 3
Finance and Growth 10 ± 3
Finance, growth and decay 15 ± 3 15 ± 3
Functions and Graphs 30 ± 3 45 ± 3 35 ± 3
Differential Calculus 35 ± 3
Probability 15 ± 3 20 ± 3 15 ± 3
TOTAL 100 150 150
PAPER 2: Grades 11 and 12: theorems and/or trigonometric proofs: maximum 12 marks
Description Grade 10 Grade 11 Grade 12
Statistics 15 ± 3 20 ± 3 20 ± 3
Analytical Geometry 15 ± 3 30 ± 3 40 ± 3
Trigonometry 40 ± 3 50 ± 3 40 ± 3
Euclidean Geometry and Measurement 30 ± 3 50 ± 3 50 ± 3
TOTAL 100 150 150
2.6 Mathematics in the FET
The subject Mathematics in the Further Education and Training Phase forges the link between the Senior Phase
and the Higher/Tertiary Education band. All learners passing through this phase acquire a functioning knowledge
of the Mathematics that empowers them to make sense of society. It ensures access to an extended study of the
mathematical sciences and a variety of career paths.
In the FET Phase, learners should be exposed to mathematical experiences that give them many opportunities to
develop their mathematical reasoning and creative skills in preparation for more abstract mathematics in Higher/
Tertiary Education institutions.
10 CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
16. MATHEMATICS GRADES 10-12
sECTION 3
Introduction
Chapter 3 provides teachers with:
• specification of content to show progression;
• clarification of content with teaching guidelines; and
• allocation of time.
3.1 Specification of Content to show Progression
The specification of content shows progression in terms of concepts and skills from Grade 10 to 12 for each content
area. However, in certain topics the concepts and skills are similar in two or three successive grades. The clarification
of content gives guidelines on how progression should be addressed in these cases. The specification of content
should therefore be read in conjunction with the clarification of content.
CAPS 11
17. 3.1.1 Overview of topics
1. FUNCTIONS
12
Grade 10 Grade 11 Grade 12
Work with relationships between variables in Extend Grade 10 work on the relationships Introduce a more formal definition of a function
terms of numerical, graphical, verbal and between variables in terms of numerical, and extend Grade 11 work on the relationships
symbolic representations of functions and graphical, verbal and symbolic representations between variables in terms of numerical,
convert flexibly between these representations of functions and convert flexibly between these graphical, verbal and symbolic representations
(tables, graphs, words and formulae). Include representations (tables, graphs, words and of functions and convert flexibly between these
linear and some quadratic polynomial functions, formulae). Include linear and quadratic polynomial representations (tables, graphs, words and
exponential functions, some rational functions and functions, exponential functions, some rational formulae). Include linear, quadratic and some
trigonometric functions. functions and trigonometric functions. cubic polynomial functions, exponential and
logarithmic functions, and some rational functions.
Generate as many graphs as necessary, initially Generate as many graphs as necessary, initially The inverses of prescribed functions and be
by means of point-by-point plotting, supported by by means of point-by-point plotting, supported by aware of the fact that, in the case of many-to-one
MATHEMATICS GRADES 10-12
available technology, to make and test conjectures available technology, to make and test conjectures functions, the domain has to be restricted if the
and hence generalise the effect of the parameter and hence generalise the effects of the parameter inverse is to be a function.
which results in a vertical shift and that which which results in a horizontal shift and that which
results in a vertical stretch and /or a reflection results in a horizontal stretch and/or reflection
about the x axis. about the y axis.
Problem solving and graph work involving the Problem solving and graph work involving the Problem solving and graph work involving
prescribed functions. prescribed functions. Average gradient between
the prescribed functions (including the
two points.
logarithmic function).
2. NUMBER PATTERNS, SEQUENCES AND SERIES
Investigate number patterns leading to those Investigate number patterns leading to those Identify and solve problems involving number
where there is constant difference between where there is a constant second difference patterns that lead to arithmetic and geometric
consecutive terms, and the general term is between consecutive terms, and the general term sequences and series, including infinite geometric
therefore linear. is therefore quadratic. series.
CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
3. FINANCE, GROWTH AND DECAY
Use simple and compound growth formulae Use simple and compound decay formulae (a) Calculate the value of n in the formulae
A = P(1 + in) and A = P(1- i)n to solve problems
A = P(1 + i)n and A = P(1- i)n
and A = P(1 + i)n to solve problems (including straight line depreciation and
(including interest, hire purchase, inflation, depreciation on a reducing balance). Link to work (b) Apply knowledge of geometric series to solve
population growth and other real life problems). on functions. annuity and bond repayment problems.
The implications of fluctuating foreign exchange The effect of different periods of compounding Critically analyse different loan options.
rates. growth and decay (including effective and nominal
interest rates).
18. 4. ALGEBRA
(a) Understand that real numbers can be irrational Take note that there exist numbers other than
or rational. those on the real number line, the so-called non-
CAPS
real numbers. It is possible to square certain non-
real numbers and obtain negative real numbers as
answers.
Nature of roots.
(a) Simplify expressions using the laws of (a) Apply the laws of exponents to expressions Demonstrate an understanding of the definition of
exponents for rational exponents. involving rational exponents. a logarithm and any laws needed to solve real life
problems.
(b) Establish between which two integers a given (b) Add, subtract, multiply and divide simple surds.
simple surd lies.
(c) Round real numbers to an appropriate degree
of accuracy (to a given number of decimal
digits).
Manipulate algebraic expressions by: Revise factorisation. • Take note and understand, the Remainder and
Factor Theorems for polynomials up to the
• multiplying a binomial by a trinomial;
third degree.
• factorising trinomials;
• Factorise third-degree polynomials (including
• factorising the difference and sums of two examples which require the Factor Theorem).
cubes;
• factorising by grouping in pairs; and
• simplifying, adding and subtracting algebraic
fractions with denominators of cubes (limited
to sum and difference of cubes).
Solve: Solve:
• linear equations; • quadratic equations;
• quadratic equations; • quadratic inequalities in one variable and
interpret the solution graphically; and
• literal equations (changing the subject of a
formula); • equations in two unknowns, one of which is
linear the other quadratic, algebraically or
• exponential equations;
graphically.
• linear inequalities;
• system of linear equations; and
• word problems.
13
MATHEMATICS GRADES 10-12
19. 5. DIFFERENTIAL CALCULUS
(a) An intuitive understanding of the concept of a
14
limit.
(b) Differentiation of specified functions from first
principles.
(c) Use of the specified rules of differentiation.
(d) The equations of tangents to graphs.
(e) he ability to sketch graphs of cubic functions.
T
(f) Practical problems involving optimization and
rates of change (including the calculus of
motion).
6. PROBABILITY
(a) Compare the relative frequency of an (a) Dependent and independent events. (a) Generalisation of the fundamental counting
experimental outcome with the theoretical principle.
MATHEMATICS GRADES 10-12
(b) Venn diagrams or contingency tables and
probability of the outcome. tree diagrams as aids to solving probability (b) Probability problems using the fundamental
(b) Venn diagrams as an aid to solving probability problems (where events are not necessarily counting principle.
problems. independent).
(c) Mutually exclusive events and complementary
events.
(d) he identity for any two events A and B:
T
P(A or B) = P(A) + (B) - P(A and B)
7. Euclidean Geometry and Measurement
(a) Revise basic results established in earlier (a) Investigate and prove theorems of the (a) Revise earlier (Grade 9) work on the
grades. geometry of circles assuming results from necessary and sufficient conditions for
(b) Investigate line segments joining the mid- earlier grades, together with one other result polygons to be similar.
points of two sides of a triangle. concerning tangents and radii of circles. (b) Prove (accepting results established in earlier
(b) Solve circle geometry problems, providing grades):
CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
(c) Properties of special quadrilaterals.
reasons for statements when required. • that a line drawn parallel to one side of
(c) Prove riders. a triangle divides the other two sides
proportionally (and the Mid-point Theorem
as a special case of this theorem);
• that equiangular triangles are similar;
• that triangles with sides in proportion are
similar;
• the Pythagorean Theorem by similar
triangles; and
• riders.
20. Solve problems involving volume and surface Revise Grade 10 work.
area of solids studied in earlier grades as well as
spheres, pyramids and cones and combinations of
those objects.
CAPS
8. TRIGONOMETRY
(a) Definitions of the trigonometric ratios sin θ, (a) erive and use the identities:
D Proof and use of the compound angle and
cos θ and tan θ in a right-angled triangles. sin θ double angle identities
tan θ = cos θ and sin2 θ + sin2 θ = 1.
(b) Extend the definitions of sin θ, cos θ and tan θ (b) Derive the reduction formulae.
to 0o ≤ θ ≤ 360o. (c) Determine the general solution and / or specific
(c)
Derive and use values of the trigonometric solutions of trigonometric equations.
ratios (without using a calculator for the (d) Establish the sine, cosine and area rules.
(d) Define the reciprocals of trigonometric ratios.
special angles θ ∈ {0o;30o;45o;60o;90o}
So Solve problems in two dimensions. Solve problems in 2-dimensions. Solve problems in two and three dimensions.
9. ANALYTICAL GEOMETRY
Represent geometric figures in a Cartesian co- Use a Cartesian co-ordinate system to derive and Use a two-dimensional Cartesian co-ordinate
ordinate system, and derive and apply, for any apply : system to derive and apply:
two points (x1 ; y1) and (x2 ; y2), a formula for • the equation of a line through two given points; • the equation of a circle (any centre); and
calculating:
• the equation of a line through one point and • the equation of a tangent to a circle at a given
• the distance between the two points; parallel or perpendicular to a given line; and point on the circle.
• the gradient of the line segment joining the • the inclination of a line.
points;
• conditions for parallel and perpendicular lines;
and
• the co-ordinates of the mid-point of the line
segment joining the points.
10. STATISTICS
(a) ollect, organise and interpret univariate
C (a) epresent measures of central tendency and
R (a) Represent bivariate numerical data as a
numerical data in order to determine: dispersion in univariate numerical data by: scatter plot and suggest intuitively and by
• measures of central tendency; • using ogives; and simple investigation whether a linear, quadratic
or exponential function would best fit the data.
• five number summary; • calculating the variance and standard
deviation of sets of data manually (for (b) Use a calculator to calculate the linear
• box and whisker diagrams; and
small sets of data) and using calculators regression line which best fits a given set of
• measures of dispersion. (for larger sets of data) and representing bivariate numerical data.
results graphically.
(c) Use a calculator to calculate the correlation
15
(b) Represent Skewed data in box and whisker co-efficient of a set of bivariate numerical data
diagrams, and frequency polygons. Identify and make relevant deductions.
outliers.
MATHEMATICS GRADES 10-12
21. MATHEMATICS GRADES 10-12
3.2 Content Clarification with teaching guidelines
In Chapter 3, content clarification includes:
• teaching guidelines;
• sequencing of topics per term; and
• pacing of topics over the year.
• Each content area has been broken down into topics. The sequencing of topics within terms gives an idea of
how content areas can be spread and re-visited throughout the year.
• The examples discussed in the Clarification Column in the annual teaching plan which follows are by no
means a complete representation of all the material to be covered in the curriculum. They only serve as an
indication of some questions on the topic at different cognitive levels. Text books and other resources should
be consulted for a complete treatment of all the material.
• The order of topics is not prescriptive, but ensure that part of trigonometry is taught in the first term and more
than six topics are covered / taught in the first two terms so that assessment is balanced between paper 1 and 2.
16 CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
22. MATHEMATICS GRADES 10-12
3.2.1 Allocation of Teaching Time
Time allocation for Mathematics: 4 hours and 30 minutes, e.g. six forty five-minutes periods, per week in grades 10,
11 and 12.
Terms Grade 10 Grade 11 Grade 12
No. of No. of No. of
weeks weeks weeks
Algebraic expressions 3 Exponents and surds 3 Patterns, sequences and 3
Term 1 Exponents 2 Equations and 3 series
inequalities
Number patterns 1 Functions and inverse 3
Number patterns 2
Equations and 2 functions
inequalities Analytical Geometry 3
Exponential and 1
Trigonometry 3
logarithmic functions
Finance, growth and 2
decay
Trigonometry - compound 2
angles
Functions 4 Functions 4 Trigonometry 2D and 3D 2
Term 2 Trigonometric functions 1 Trigonometry (reduction 4 Polynomial functions 1
Euclidean Geometry 3 formulae, graphs, Differential calculus 3
MID-YEAR EXAMS 3 equations) Analytical Geometry 2
MID-YEAR EXAMS 3 MID-YEAR EXAMS 3
Analytical Geometry 2 Measurement 1 Geometry 2
Term 3 Finance and growth 2 Euclidean Geometry 3 Statistics (regression and 2
Statistics 2 Trigonometry (sine, 2 correlation)
area,
Trigonometry 2 Counting and Probability 2
cosine rules)
Euclidean Geometry 1 Revision 1
Probability 2
Measurement 1 TRIAL EXAMS 3
Finance, growth and 2
decay
Term 4 Probability 2 Statistics 3 Revision 3
Revision 4 Revision 3 EXAMS 6
EXAMS 3 EXAMS 3
The detail which follows includes examples and numerical references to the Overview.
CAPS 17
23. 3.2.2 Sequencing and Pacing of Topics
MATHEMATICS: GRADE 10 PACE SETTER
18
1 TERM 1
WEEK
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10
11
Number
Topics Algebraic expressions Exponents Equations and inequalities Trigonometry
patterns
Assessment Investigation or project Test
Date
completed
2 TERM 2
WEEK
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10
11
Trigonometric
Topics Functions Euclidean Geometry
functions
Assessment Assignment / Test MID-YEAR EXAMINATION
MATHEMATICS GRADES 10-12
Date
completed
3 TERM 3
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10
Topics Analytical Geometry Finance and growth Statistics Trigonometry Euclidean Geometry Measurement
Assessment Test Test
Date
completed
4 TERM 4 Paper 1: 2 hours Paper 2: 2 hours
WEEK WEEK WEEK WEEK WEEK WEEK WEEK WEEK Algebraic 30 Euclidean geometry 20
Weeks WEEK 8 WEEK 9
1 2 3 4 5 6 7 10 expressions
and measurement
Topics Probability Revision Admin and equations (and
inequalities) Analytical geometry 15
exponents
Number Patterns 10 Trigonometry 50
Assessment Test Examinations Functions and graphs 30
CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
Statistics 15
Finance and growth 15
Probability 15
Date
Total marks 100 Total marks 100
completed
24. MATHEMATICS: GRADE 11 PACE SETTER
1 TERM 1
WEEK
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10
11
CAPS
Topics Exponents and surds Equations and inequalities Number patterns Analytical Geometry
Assessment Investigation or project Test
Date
completed
2 TERM 2
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10 WEEK
11
Topics Functions Trigonometry (reduction formulae, graphs, equations)
Assessment Assignment / Test MID-YEAR EXAMINATION
Date
completed
3 TERM 3
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10
Topics Measurement Euclidean Geometry Trigonometry (sine, cosine and Finance, growth and decay Probability
area rules)
Assessment Test Test
Date
completed
4 TERM 4 Paper 1: 3 hours Paper 2: 3 hours
Weeks WEEK WEEK WEEK WEEK WEEK WEEK WEEK WEEK WEEK 9 WEEK Algebraic expressions 45 Euclidean Geometry 40
1 2 3 4 5 6 7 8 10 and equations (and and measurement
Topics Statistics Revision FINAL EXAMINATION Admin inequalities) Analytical geometry 30
Number patterns 25 Trigonometry 60
Assessment Test
Functions and graphs 45 Statistics 20
Finance, growth and decay 15
Probability 20
Date Total marks 150 Total marks 150
completed
19
MATHEMATICS GRADES 10-12
25. MATHEMATICS: GRADE 12 PACE SETTER
1 TERM 1
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10 WEEK
20
11
Topics Number patterns, sequences and series Functions: Formal definition; inverses Functions: Finance, growth and decay Trigonometry
exponential
and
logarithmic
Assessment Test Investigation or project Assignment
Date
completed
2 TERM 2
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10 WEEK
11
Topics Trigonometry Functions: Differential Calculus Analytical Geometry
polynomials
Assessment Test MID-YEAR EXAMINATION
MATHEMATICS GRADES 10-12
Date
completed
3 TERM 3
Weeks WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 WEEK 6 WEEK 7 WEEK 8 WEEK 9 WEEK 10
Topics Geometry Statistics Counting and Probability Revision TRIAL EXAMINATION
Assessment Test
Date
completed
4 TERM 4 Paper 1: 3 hours Paper 2: 3 hours
Weeks WEEK WEEK WEEK WEEK WEEK WEEK WEEK WEEK WEEK 9 WEEK Algebraic expressions 25 Euclidean Geometry 50
1 2 3 4 5 6 7 8 10
and equations (and and measurement
Topics Revision FINAL EXAMINATION Admin
Assessment inequalities) Analytical Geometry 40
Number patterns 25 Trigonometry 40
CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)
Functions and graphs 35 Statistics 20
Finance, growth and decay 15
Differential Calculus 35
Counting and probability 15
Date
Total marks 150 Total marks 150
completed
26. 3.2.3 Topic allocation per term
GRADE 10: TERM 1
CAPS
No of
Topic Curriculum statement Clarification
Weeks
Where an example is given, the cognitive demand is suggested: knowledge (K),
routine procedure (R), complex procedure (C) or problem-solving (P)
1. Understand that real numbers can be rational or Examples to illustrate the different cognitive levels involved in factorisation:
irrational. 1. Factorise fully:
2. Establish between which two integers a given simple 1.1. m2 - 2m + 1 (revision) Learners must be able to recognise the simplest
surd lies. perfect squares. (R)
3. Round real numbers to an appropriate degree of 1.2. 2x2 - x - 3 This type is routine and appears in all texts. (R)
accuracy.
4. Multiplication of a binomial by a trinomial. y2 13y
1.3. 2 - + 18 Learners are required to work with fractions and
5. Factorisation to include types taught in grade 9 and: 2
identify
• trinomials
Algebraic
3 • grouping in pairs when an expression has been “fully factorised”. (R)
expressions
• sum and difference of two cubes
6. Simplification of algebraic fractions using factorization
with denominators of cubes (limited to sum and
difference of cubes). 2. Simplify (C)
1. Revise laws of exponents learnt in Grade 9 where Examples:
1. Simplify: (3 x 52)3 - 75 A simple two-step procedure is involved. (R)
m n m +n
• x × x = x
x, y 0 and m , n
∈ Z:
m n m −n
• x ÷ x = x 2. Simplify Assuming this type of question has not been taught,
m n mn spotting that the numerator can be factorised as a
€ difference of squares requires insight. (P)
€ x m × y m = (xy) m 3. Solve for x :
•
• €(x€) = x
Also by definition: x
2 Exponents € 3.1 2 = 0,125 (R)
3
€ 3.2 2x 2 = 54 (R)
,
€ •
0 3.3 (C)
x ≠ 0
, and
2. Use the laws of exponents to simplify expressions and
€
equations, accepting that the rules also hold for
21
3.4 (C)
solve€
• x = 1, x ≠ 0
MATHEMATICS GRADES 10-12
€ €
m , n
∈ Q.
€ €
27. GRADE 10: TERM 1
No of
22
Topic Curriculum statement Clarification
Weeks
Patterns: Investigate number patterns leading to those Comment:
where there is a constant difference between consecutive
terms, and the general term (without using a formula-see
• Arithmetic sequence is done in Grade 12, hence is
content overview) is therefore linear.
Grade 10.
Numbers and Examples:
not used in
1
patterns
1. Determine the 5th and the nth terms of the number pattern 10; 7; 4; 1; …. There is
an algorithmic approach to answering such questions. (R)
th
2. If the pattern MATHSMATHSMATHS… is continued in this way, what will the 267
letter be? It is not immediately obvious how one should proceed, unless similar
questions have been tackled. (P)
1. Revise the solution of linear equations. Examples:
MATHEMATICS GRADES 10-12
2. Solve quadratic equations (by factorisation).
3. Solve simultaneous linear equations in two unknowns.
1. Solve for x: (R)
4. Solve word problems involving linear, quadratic or
simultaneous linear equations.
Equations and 2. Solve for m: 2m2 - m = 1 (R)
2 5. Solve literal equations (changing the subject of a
Inequalities formula).
6. Solve linear inequalities (and show solution graphically). x y
Interval notation must be known. 3. Solve for x and y: x + 2y = 1; + =1 (C)
3 2
4. Solve for r in terms of V, ∏ and h: V =∏r2h (R)
5. Solve for x: -1 ≤ 2 - 3x ≤ 8 (C)
CURRICULUM AND ASSESSMENT POLICY STATEMENT (CAPS)