Much education today is monumentally ineffective. All too often we are giving young people cut flowers when we should be teaching them to grow their own plants.
Grade 10 - CAPS English
Grade 10 Exams and Memos, CAPS Textbooks and CAPS Documents
Gr. 10 Exams and Memos
Grade 10 Exams and Memos are tests specifically created for the FET phase by the Department of Basic Education. With exams from 2012 - 2015. We continue to update the exams for grade 10. Memorandums are included with each exam at the end of the papers. English Home Language, English First Additional Language, Mathematics, Mathematical Literacy, Economics, Geography, History, Life Sciences, Physical Sciences - Chemistry and Physical Sciences - Physics are included.
Gr. 10 CAPS Textbooks
The Department of Basic Education has committed to improving Mathematics, Mathematical Literacy, Physical Sciences and Life Skills of learners. To achieve this, the Department has produced a series of workbooks to help learners in Grade 10. Other CAPS workbooks also includes Maths Teacher’s Guides, Maths Lit Teacher’s Guides, Physical Sciences Teacher's Guide and Life Sciences Teacher's Guide textbooks with more CAPS material and textbooks to be added as it comes available.
What are the textbooks?
Siyavula Education is a social enterprise launched in 2012 with capital and support from the PSG Group Limited and the Shuttleworth Foundation. The Everything Maths and Science series is one of the titles developed and openly released by Siyavula.
Mathematics is commonly thought of as being about numbers but mathematics is actually a language! Mathematics is the language that nature speaks to us in. As we learn to understand and speak this language, we can discover many of nature’s secrets. Just as understanding someone’s language is necessary to learn more about them, mathematics is required to learn about all aspects of the world – whether it is physical sciences, life sciences or even finance and economics.
The great writers and poets of the world have the ability to draw on words and put them together in ways that can tell beautiful or inspiring stories. In a similar way, one can draw on mathematics to explain and create new things. Many of the modern technologies that have enriched our lives are greatly dependent on mathematics. DVDs, Google searches, bank cards with PIN numbers are just some examples. And just as words were not created specifically to tell a story but their existence enabled stories to be told, so the mathematics used to create these technologies was not developed for its own sake, but was available to be drawn on when the time for its application was right.
There is in fact not an area of life that is not affected by mathematics. Many of the most sought after careers depend on the use of mathematics. Civil engineers use mathematics to determine how to best design new structures; economists use mathematics to describe and predict how the economy will react to certain changes; investors use mathematics to price certain types of shares or calculate how risky particular investments are; software developers use mathematics for many of the algorithms (such as Google searches and data security) that make programmes useful.
But, even in our daily lives mathematics is everywhere – in our use of distance, time and money. Mathematics is even present in art, design and music as it informs proportions and musical tones. The greater our ability to understand mathematics, the greater our ability to appreciate beauty and everything in nature. Far from being just a cold and abstract discipline, mathematics embodies logic, symmetry, harmony and technological progress. More than any other language, mathematics is everywhere and universal in its application.
When we look outside at everything in nature, look around us at everything manufactured or look up at everything in space we cannot but be struck by the incredible diversity and complexity of life; so many things, that look so different, operating in such unique ways. The physical universe really contains incredible complexity.
Yet, what is even more remarkable than this seeming complexity is the fact that things in the physical universe are knowable. We can investigate them, analyse them and understand them. It is this ability to understand the physical universe that allows us to transform elements and make technological progress possible.
If we look back at some of the things that developed over the last century – space travel, advances in medicine, wireless communication (from television to mobile phones) and materials a thousand times stronger than steel – we see they are not the consequence of magic or some inexplicable phenomena. They were all developed through the study and systematic application of the physical sciences. So as we look forward at the 21st century and some of the problems of poverty, disease and pollution that face us, it is partly to the physical sciences we need to turn.
For however great these challenges seem, we know that the physical universe is knowable and that the dedicated study thereof can lead to the most remarkable advances. There can hardly be a more exciting challenge than laying bare the seeming complexity of the physical universe and working with the incredible diversity therein to develop products and services that add real quality to people’s lives.
Workbooks are distributed free of charge from the Best Education website and App.
CAPS Policy Documents
CURRICULUM ASSESSMENT POLICY STATEMENTS (CAPS)
What is a National Curriculum and Assessment Policy Statement?
A National Curriculum and Assessment Policy Statement is a single, comprehensive, and concise policy document, which has replaced the Subject and Learning Area Statements, Learning Programme Guidelines and Subject Assessment Guidelines for all the subjects listed in the National Curriculum Statement for grade 10.