MATHEMATICS
FORM 2
Objectives
of Teaching Basic Mathematics
The main objectives of teaching Basic Mathematics in Tanzania secondary schools are: - To promote the development and application of Mathematical skills in intepreting the world and solving practical problems in daily life. - To provide pupils with mathematical tools and logical thinking which they can apply in understanding better other subjects;
- To develop a foundation of mathematical knowledge, techniques and skills for studying mathematics and related subjects at higher levels of education.
The main objectives of teaching Basic Mathematics in Tanzania secondary schools are: - To promote the development and application of Mathematical skills in intepreting the world and solving practical problems in daily life. - To provide pupils with mathematical tools and logical thinking which they can apply in understanding better other subjects;
- To develop a foundation of mathematical knowledge, techniques and skills for studying mathematics and related subjects at higher levels of education.
Content
Selection and Organization
The mathematics content included in the syllabus is a continuation of that covered at primary school level. The topic, sub-topics objectives, teaching/learning activities and teaching aids have been carefully selected and organized so as to promote the achievement of the objectives of education and those of mathematics. The arrangement of content is spiral to meet the level of understanding of the pupils.
The mathematics content included in the syllabus is a continuation of that covered at primary school level. The topic, sub-topics objectives, teaching/learning activities and teaching aids have been carefully selected and organized so as to promote the achievement of the objectives of education and those of mathematics. The arrangement of content is spiral to meet the level of understanding of the pupils.
Choice
and Use of Instructional and Study Materials
The teacher should do the selection of mathematics instructional and study materials by applying his/her academic and professional knowledge and skills to judge the suitability of the books. The teacher will be expected to guide and advise students on how best to use textbooks and other textual materials available at school or in libraries.
The teacher should do the selection of mathematics instructional and study materials by applying his/her academic and professional knowledge and skills to judge the suitability of the books. The teacher will be expected to guide and advise students on how best to use textbooks and other textual materials available at school or in libraries.
For
successful teaching and learning of mathematics, the teacher and pupils will
need teaching aids. The teacher should ensure that relevant teaching aids are
available and are used effectively. Together with the pupils, he/she should
improvise and make possible teaching aids by using locally available resource
materials The aids sh6uld be kept in a specific place or room for easy location
and sustainable use. It is important that every pupil should posses a set of
geometrical instruments to make the learning of geometry-oriented topics easy.
Methods of Teaching and Learning Mathematics
The teacher is advised to use various methods of teaching according to the nature of the topic with the aim of achieving the laid down Objectives. The methods chosen should be geared to student centredness, enquiry and discovery. The teaching and learning activities contained in the syllabus serve as a guide and are not binding. Students should be encouraged to participate actively in discussions, questioning and answering questions, making case studies and visiting areas relevant to mathematics topics. The students can also achieve more from lessons which allow them to make observations and to make analysis of mathematically oriented problems.
Assessment of Student Progress and Performance
It is expected that every mathematics teacher will periodically assess his or her 'students performance in order to identify their strengths and weakness. In this way it will be possible to help the weak and encourage the strong students. Such assignments should be marked regularly and feedback given back to students.
Methods of Teaching and Learning Mathematics
The teacher is advised to use various methods of teaching according to the nature of the topic with the aim of achieving the laid down Objectives. The methods chosen should be geared to student centredness, enquiry and discovery. The teaching and learning activities contained in the syllabus serve as a guide and are not binding. Students should be encouraged to participate actively in discussions, questioning and answering questions, making case studies and visiting areas relevant to mathematics topics. The students can also achieve more from lessons which allow them to make observations and to make analysis of mathematically oriented problems.
Assessment of Student Progress and Performance
It is expected that every mathematics teacher will periodically assess his or her 'students performance in order to identify their strengths and weakness. In this way it will be possible to help the weak and encourage the strong students. Such assignments should be marked regularly and feedback given back to students.
The
students should be given homework and tests regularly. These assignments help to
indicate and check attainment levels of the students. Also the students exercise
books should always be marked and necessary corrections made before the teacher
and students can proceed to other topics or subtopics. At the end of Form IV,
the students will be expected to do the national examination in mathematics.
The continuous assessment, class tests as well as final terminal examinations
will help to determine the effectiveness of content, materials, teacher's
methods of teaching as well as the extent to which the objectives of teaching
mathematics have been achieved.
Instructional
time
The number of periods enough for teaching this syllabus per week is as specified by the Ministry of Education and Culture. The teacher is advised to make maximum use of the allocated time. Lost instructional time should always be compensated without fail.
The number of periods enough for teaching this syllabus per week is as specified by the Ministry of Education and Culture. The teacher is advised to make maximum use of the allocated time. Lost instructional time should always be compensated without fail.
FORM TWO OBJECTIVES
After
completing for Two,
the pupils should be able to:
1. Perform operations involving algebraic terms, do transposition of formulas and solve quadratic equations.
2. Derive and apply the laws of exponents, radicals and algorithms in mathematical manipulations.
3. Prove and apply congruence and similarity of figures.
4. Represent reflections, rotation, translations and enlargement by drawing;
5. Prove and apply the Pythagoras theorem.
6. Determine sine, cosine and tangent of angles and hence apply them in solving problems;
7. Perform operations on sets and apply them to solve problems.
8. Represent and interpret data in frequency distributions, frequency polygons, cumulative frequency curves and histograms.
1. Perform operations involving algebraic terms, do transposition of formulas and solve quadratic equations.
2. Derive and apply the laws of exponents, radicals and algorithms in mathematical manipulations.
3. Prove and apply congruence and similarity of figures.
4. Represent reflections, rotation, translations and enlargement by drawing;
5. Prove and apply the Pythagoras theorem.
6. Determine sine, cosine and tangent of angles and hence apply them in solving problems;
7. Perform operations on sets and apply them to solve problems.
8. Represent and interpret data in frequency distributions, frequency polygons, cumulative frequency curves and histograms.
TOPICS
1.ALGEBRAIC
EXPRESSIONS AND EQUATIONS
1.1. Algebraic expressions
1.2. Algebraic Equations
1.1. Algebraic expressions
1.2. Algebraic Equations
2.
EXPONENTS AND RADICALS
2.1. Exponents
2.2. radicals
2.3. Transportation of formula
2.1. Exponents
2.2. radicals
2.3. Transportation of formula
3.
QUADRATIC EQUATIONS
3.1. Quadratic expressions
3.2. Quadratic Equations
3.3. Simultaneous equations
3.4. Graphical solution of a quadratic equation
3.1. Quadratic expressions
3.2. Quadratic Equations
3.3. Simultaneous equations
3.4. Graphical solution of a quadratic equation
4.
LOGARITHMS
4.1. Standard Form
4.2. Laws of logarithms
4.3. Tables of Logarithms
4.1. Standard Form
4.2. Laws of logarithms
4.3. Tables of Logarithms
5.CONGRUENCE
AND SIMILARITY
5.1. Postulates and Theorems
5.2. Congruence
5.3. Similarity
5.1. Postulates and Theorems
5.2. Congruence
5.3. Similarity
6.
TRANFORMATIONS
6.1. Reflection
6.2. Rotations
6.3. Translation
6.4. Enlargement
6.1. Reflection
6.2. Rotations
6.3. Translation
6.4. Enlargement
8.
TRIGONOMETRICAL RATIOS
8.1. Sine, Cosine and tangent
8.2. Depression and Elevation
8.1. Sine, Cosine and tangent
8.2. Depression and Elevation
9.
SETS
9.1.Description of a set
9.2. Types of sets
9.3. Subsets
9.4. Operations with sets
9.5. Venn diagrams
9.1.Description of a set
9.2. Types of sets
9.3. Subsets
9.4. Operations with sets
9.5. Venn diagrams
10.
STATISTICS
10.1. Frequency distributions
10.2. Frequency Folygon
10.3. Cumulative frequency curve
10.4. Histogram
10.1. Frequency distributions
10.2. Frequency Folygon
10.3. Cumulative frequency curve
10.4. Histogram
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