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www.sahistory.org.za/archive/caps-grades-10-12-physical-sciences
CAPS Physical Science grade 10-12 curriculum
www.sahistory.org.za/archive/caps-grades-10-12-life-sciences
CAPS life sciences grade 10-12 curriculum
www.stem.org.uk/14-16-science-resource-packages Age 14-16 Science curriculum and lesson ideas
drive.google.com/open?id=0B_llYI8qojoTa1FmNHpvdk9ORFE
Free life sciences textbooks from www.siyavula.com
drive.google.com/drive/folders/0Bz69EszGvRvaSVpkZHNoRXo5Qk0
Physical science textbooks - free download from www.siyavula.com
Physical Science curriculum:
1.1 Introduction
1.2 Mathematical skills
1.3 Units
1.4 Skills in the laboratory
1.5 Hazard signs
Practice this chapter
Chapter 2: Classification of matter
2.1 Materials
2.2 Mixtures
2.3 Pure substances
2.4 Names and formulae of substances
2.5 Metals, metalloids and non-metals
2.6 Electrical conductors, semi-conductors and insulators
2.7 Thermal conductors and insulators
2.8 Magnetic and non-magnetic materials
2.9 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 3: States of matter and the kinetic molecular theory
3.1 States of matter
3.2 The kinetic molecular theory
3.3 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 4: The atom
4.1 Introduction
4.2 Models of the atom
4.3 Atomic mass and diameter
4.4 Structure of the atom
4.5 Isotopes
4.6 Electronic configuration
Group discussion on atomic models
4.7 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 5: The periodic table
5.1 The arrangement of the elements
5.2 Chemical properties of the groups
5.3 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 6: Chemical bonding
6.1 Introduction
6.2 Lewis structures
6.3 Covalent bonding
6.4 Ionic bonding
6.5 Metallic bonding
6.6 Writing formulae
6.7 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 7: Transverse pulses
7.1 Introduction and key concepts
7.2 Pulses: amplitude and length
7.3 Superposition of pulses
7.4 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 8: Transverse waves
8.1 Introduction
8.2 What is a
8.3 Crests and troughs
8.4 Amplitude
8.5 Points in phase
8.6 Period and frequency
8.7 Speed of a transverse wave
8.8 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 9: Longitudinal waves
9.1 Introduction and key concepts
9.2 Compression and rarefaction
9.3 Wavelength and amplitude
9.4 Period and frequency
9.5 Speed of a longitudinal wave
9.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 10: Sound
10.1 Introduction
10.2 Speed of sound
10.3 Characteristics of a sound wave
10.4 Intensity of sound [NOT IN CAPS]
10.5 Ultrasound
10.6 The physics of hearing [NOT IN CAPS]
10.7 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 11: Electromagnetic radiation
11.1 What is
11.2 Wave-like nature of EM radiation
11.3 Electromagnetic spectrum
11.4 Penetrating ability of EM radiation
11.5 Particle-like nature of EM radiation
11.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 12: The particles that substances are made of
12.1 Atoms and compounds
12.2 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 13: Physical and chemical change
13.1 Introduction
13.2 Conservation of atoms and mass in reactions
13.3 Law of constant composition
13.4 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 14: Representing chemical change
14.1 Introduction
14.2 Balancing chemical equations
14.3 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 15: Magnetism
15.1 Introduction
15.2 Magnetic fields
15.3 Permanent magnets
15.4 The compass
15.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 16: Electrostatics
16.1 Introduction and key concepts
16.2 Two kinds of charge
16.3 Conservation of charge
16.4 Quantisation of charge
16.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 17: Electric circuits
17.1 Potential difference and emf
17.2 Current
17.3 Resistance
17.4 Series resistors
17.5 Parallel resistors
17.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 18: Reactions in aqueous solution
18.1 Introduction
18.2 Ions in aqueous solution
18.3 Electrolytes, ionisation and conductivity
18.4 Precipitation reactions
18.5 Other types of reactions
18.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 19: Quantitative aspects of chemical change
19.1 Atomic mass and the mole
19.2 Composition
19.3 Amount of substance
19.4 Stoichiometric calculations
19.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 20: Vectors and scalars
20.1 Introduction to vectors and scalars
20.2 Graphical representation of vectors
20.3 Properties of vectors
20.4 Techniques of vector addition
20.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 21: Motion in one dimension
21.1 Introduction
21.2 Reference frame
21.3 Speed and velocity
21.4 Acceleration
21.5 Instantaneous velocity and speed
21.6 Description of motion
21.7 Equations of motion
21.8 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 22: Mechanical energy
22.1 Introduction
22.2 Potential energy
22.3 Kinetic energy
22.4 Mechanical energy
22.5 Conservation of mechanical energy
22.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 23: The hydrosphere
23.1 Introduction
23.2 Interactions of the hydrosphere
23.3 Exploring the hydrosphere
23.4 The importance of the hydrosphere
23.5 Threats to the hydrosphere
23.6 How pure is our water?
23.7 Chapter summary
End of chapter exercises
Chapter 24: Units used in the book
24.1 Quantities used in the book
CAPS Physical Science grade 10-12 curriculum
www.sahistory.org.za/archive/caps-grades-10-12-life-sciences
CAPS life sciences grade 10-12 curriculum
www.stem.org.uk/14-16-science-resource-packages Age 14-16 Science curriculum and lesson ideas
drive.google.com/open?id=0B_llYI8qojoTa1FmNHpvdk9ORFE
Free life sciences textbooks from www.siyavula.com
drive.google.com/drive/folders/0Bz69EszGvRvaSVpkZHNoRXo5Qk0
Physical science textbooks - free download from www.siyavula.com
Physical Science curriculum:
1.1 Introduction
1.2 Mathematical skills
1.3 Units
1.4 Skills in the laboratory
1.5 Hazard signs
Practice this chapter
Chapter 2: Classification of matter
2.1 Materials
2.2 Mixtures
2.3 Pure substances
2.4 Names and formulae of substances
2.5 Metals, metalloids and non-metals
2.6 Electrical conductors, semi-conductors and insulators
2.7 Thermal conductors and insulators
2.8 Magnetic and non-magnetic materials
2.9 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 3: States of matter and the kinetic molecular theory
3.1 States of matter
3.2 The kinetic molecular theory
3.3 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 4: The atom
4.1 Introduction
4.2 Models of the atom
4.3 Atomic mass and diameter
4.4 Structure of the atom
4.5 Isotopes
4.6 Electronic configuration
Group discussion on atomic models
4.7 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 5: The periodic table
5.1 The arrangement of the elements
5.2 Chemical properties of the groups
5.3 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 6: Chemical bonding
6.1 Introduction
6.2 Lewis structures
6.3 Covalent bonding
6.4 Ionic bonding
6.5 Metallic bonding
6.6 Writing formulae
6.7 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 7: Transverse pulses
7.1 Introduction and key concepts
7.2 Pulses: amplitude and length
7.3 Superposition of pulses
7.4 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 8: Transverse waves
8.1 Introduction
8.2 What is a
8.3 Crests and troughs
8.4 Amplitude
8.5 Points in phase
8.6 Period and frequency
8.7 Speed of a transverse wave
8.8 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 9: Longitudinal waves
9.1 Introduction and key concepts
9.2 Compression and rarefaction
9.3 Wavelength and amplitude
9.4 Period and frequency
9.5 Speed of a longitudinal wave
9.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 10: Sound
10.1 Introduction
10.2 Speed of sound
10.3 Characteristics of a sound wave
10.4 Intensity of sound [NOT IN CAPS]
10.5 Ultrasound
10.6 The physics of hearing [NOT IN CAPS]
10.7 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 11: Electromagnetic radiation
11.1 What is
11.2 Wave-like nature of EM radiation
11.3 Electromagnetic spectrum
11.4 Penetrating ability of EM radiation
11.5 Particle-like nature of EM radiation
11.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 12: The particles that substances are made of
12.1 Atoms and compounds
12.2 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 13: Physical and chemical change
13.1 Introduction
13.2 Conservation of atoms and mass in reactions
13.3 Law of constant composition
13.4 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 14: Representing chemical change
14.1 Introduction
14.2 Balancing chemical equations
14.3 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 15: Magnetism
15.1 Introduction
15.2 Magnetic fields
15.3 Permanent magnets
15.4 The compass
15.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 16: Electrostatics
16.1 Introduction and key concepts
16.2 Two kinds of charge
16.3 Conservation of charge
16.4 Quantisation of charge
16.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 17: Electric circuits
17.1 Potential difference and emf
17.2 Current
17.3 Resistance
17.4 Series resistors
17.5 Parallel resistors
17.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 18: Reactions in aqueous solution
18.1 Introduction
18.2 Ions in aqueous solution
18.3 Electrolytes, ionisation and conductivity
18.4 Precipitation reactions
18.5 Other types of reactions
18.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 19: Quantitative aspects of chemical change
19.1 Atomic mass and the mole
19.2 Composition
19.3 Amount of substance
19.4 Stoichiometric calculations
19.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 20: Vectors and scalars
20.1 Introduction to vectors and scalars
20.2 Graphical representation of vectors
20.3 Properties of vectors
20.4 Techniques of vector addition
20.5 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 21: Motion in one dimension
21.1 Introduction
21.2 Reference frame
21.3 Speed and velocity
21.4 Acceleration
21.5 Instantaneous velocity and speed
21.6 Description of motion
21.7 Equations of motion
21.8 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 22: Mechanical energy
22.1 Introduction
22.2 Potential energy
22.3 Kinetic energy
22.4 Mechanical energy
22.5 Conservation of mechanical energy
22.6 Chapter summary
End of chapter exercises
Practice this chapter
Chapter 23: The hydrosphere
23.1 Introduction
23.2 Interactions of the hydrosphere
23.3 Exploring the hydrosphere
23.4 The importance of the hydrosphere
23.5 Threats to the hydrosphere
23.6 How pure is our water?
23.7 Chapter summary
End of chapter exercises
Chapter 24: Units used in the book
24.1 Quantities used in the book