Symbols, Formulae and Equations: Elements, compounds and mixtures (I)
-State the symbols of the first 20 elements and other common elements;
-Distinguish between elements, compounds and mixtures
-Write chemical formula and chemical equations
Calculate between the empirical and molecular formulae of compounD
-Illustrate that matter is neither created nor destroyed
-State and illustrate the laws of constant composition and multiple proportions
Symbols, Formulae and Equations: Elements, compounds and mixtures (I)
-State the symbols of the first 20 elements and other common elements;
-Distinguish between elements, compounds and mixtures
-Write chemical formula and chemical equations
Calculate between the empirical and molecular formulae of compounD
-Illustrate that matter is neither created nor destroyed
-State and illustrate the laws of constant composition and multiple proportions
Symbols, Formulae and Equations: Elements, compounds and mixtures (I)
-State the symbols of the first 20 elements and other common elements;
-Distinguish between elements, compounds and mixtures
-Write chemical formula and chemical equations
Calculate between the empirical and molecular formulae of compounD
-Illustrate that matter is neither created nor destroyed
-State and illustrate the laws of constant composition and multiple proportions
Symbols, Formulae and Equations: Elements, compounds and mixtures (I)
-State the symbols of the first 20 elements and other common elements;
-Distinguish between elements, compounds and mixtures
-Write chemical formula and chemical equations
Calculate between the empirical and molecular formulae of compounD
-Illustrate that matter is neither created nor destroyed
-State and illustrate the laws of constant composition and multiple proportions
Carbon and its Compounds: Charcoal (II)
Identifying various substances in and around us that contain carbon;
Description of the unique characteristics of carbon as an element;
The relationship between the structure of carbon and the existence of many natural and synthetic carbon-containing compounds;
Define the term allotrope;
Show that carbon forms two types of oxides both of which are important economically.
Identify carbon (IV)oxide.
Carbon and its Compounds: Charcoal (II)
Identifying various substances in and around us that contain carbon;
Description of the unique characteristics of carbon as an element;
The relationship between the structure of carbon and the existence of many natural and synthetic carbon-containing compounds;
Define the term allotrope;
Show that carbon forms two types of oxides both of which are important economically.
Identify carbon (IV)oxide.
Carbon and its Compounds: Charcoal (II)
Identifying various substances in and around us that contain carbon;
Description of the unique characteristics of carbon as an element;
The relationship between the structure of carbon and the existence of many natural and synthetic carbon-containing compounds;
Define the term allotrope;
Show that carbon forms two types of oxides both of which are important economically.
Identify carbon (IV)oxide.
Quadratic Equation: Completing The Square Method
Solve involving problems factorization of quadratic expressions
Solve quadratic equation of the form ab =0 a =0 or b =0
Form quadratic equation with given roots
Draw quadratic equation graphs
Read and obtain roots from a quadratic graph
Solve word problems involving real life situations
The Cell and its Environment: Haemolysis, Turgdity and Flaccidity
Demonstrate diffusion and osmosis experimentally
Recognise that osmosis is a form of diffusion
Recognise that plasmolysis can lead to wilting and haemolysis can lead to loss of blood
The Cell and its Environment: Haemolysis, Turgdity and Flaccidity
Demonstrate diffusion and osmosis experimentally
Recognise that osmosis is a form of diffusion
Recognise that plasmolysis can lead to wilting and haemolysis can lead to loss of blood
The Cell and its Environment: Haemolysis, Turgdity and Flaccidity
Demonstrate diffusion and osmosis experimentally
Recognise that osmosis is a form of diffusion
Recognise that plasmolysis can lead to wilting and haemolysis can lead to loss of blood
Quadratic Equation: Using Formula Method
Solve involving problems factorization of quadratic expressions
Solve quadratic equation of the form ab =0 a =0 or b =0
Form quadratic equation with given roots
Draw quadratic equation graphs
Read and obtain roots from a quadratic graph
Solve word problems involving real life situations
Quadratic Expression
Solve involving problems factorization of quadratic expressions
Solve quadratic equation of the form ab =0 a =0 or b =0
Form quadratic equation with given roots
Draw quadratic equation graphs
Read and obtain roots from a quadratic graph
Solve word problems involving real life situations
Quadratic Equation: Using Factorization Method
Solve involving problems factorization of quadratic expressions
Solve quadratic equation of the form ab =0 a =0 or b =0
Form quadratic equation with given roots
Draw quadratic equation graphs
Read and obtain roots from a quadratic graph
Solve word problems involving real life situations
Quadratic Equation: Using Factorization Method
Solve involving problems factorization of quadratic expressions
Solve quadratic equation of the form ab =0 a =0 or b =0
Form quadratic equation with given roots
Draw quadratic equation graphs
Read and obtain roots from a quadratic graph
Solve word problems involving real life situations
Carbon and its Compounds: Charcoal
Identifying various substances in and around us that contain carbon;
Description of the unique characteristics of carbon as an element;
The relationship between the structure of carbon and the existence of many natural and synthetic carbon-containing compounds;
Define the term allotrope;
Show that carbon forms two types of oxides both of which are important economically.
Identify carbon (IV)oxide.
Transfer of Heat
Transfer of heat and the principles of heat transfer
Oxides of Carbon: Carbon and its Compounds
Identifying various substances in and around us that contain carbon;
Description of the unique characteristics of carbon as an element;
The relationship between the structure of carbon and the existence of many natural and synthetic carbon-containing compounds;
Define the term allotrope;
Show that carbon forms two types of oxides both of which are important economically.
Identify carbon (IV)oxide.
Solubility: Acids, Bases and Salts
Solubility: Acids, Bases, and Salts – Chemistry And Environment
Solubility: Acids, Bases and Salts
Solubility: Acids, Bases, and Salts – Chemistry And Environment