A-Level Courses

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A-Level Exam Course Materials: A-Level examinations take place in June each year. A-Level Course material on our website will facilitate the understanding of the school’s lessons. A-Level Course subjects are prepared as a unit-by-unit. Here is the key to success of the A-Level exam. A-Level Course material is designed from easiest to hardest (like A to C). You can view our A-Level Course below; we offer flexible monthly payments if required and discounts if you purchase more than 1 course. You can start your course at any time of the year.
Maths: Statistics, Mechanics, and Pure Maths	Physics: Measurements, Particles, Radiation, Waves, Mechanics and Materials, Electricity, Thermal Physics, Fields, Nuclear Physics, and Astrophysics	Chemistry: Physical Chemistry, Inorganic Chemistry, and Organic Chemistry	Biology: Molecules, Cells, Organisms and Environment, Genetic Information, Energy Transfer, Genetics, Populations, Evolution and Ecosystems, and Gene Expression

 

Maths Course Content:

Mathematical argument

Mathematical problem solving

Algebra and functions

Coordinate geometry in the 2D plane

Sequences and series

Trigonometry

Exponentials and logarithms

Differentiation

Integration

Numerical methods

Vectors

Statistical sampling

Data presentation and interpretation

Probability

Statistical distributions

Statistical hypothesis testing

Quantities and units in mechanics

Kinematics

Forces and Newton’s laws

Moments

 

Physics Course Content:

Use of SI units and their prefixes

Limitation of physical measurements

Estimation of physical quantities

Particles

Electromagnetic radiation and quantum phenomena

Progressive and stationary waves

Refraction, diffraction and interference

Force, energy and moment

Materials

Current electricity

Periodic motion

Thermal physics

Fields

Gravitational fields

Electric fields

Capacitance

Magnetic fields

Radioactivity

Telescopes

Classification of stars

Cosmology

 

Chemistry Course Content:

Amount of substance

Bonding

Energetics

Kinetics

Chemical equilibria, Le Chatelier’s principle and Kc

Oxidation, reduction and redox equations

Thermodynamics

Rate equations

Equilibrium constant for homogeneous systems

Electrode potentials and electromechanical cells

Acids and base

Periodicity

The alkaline earth metals

The halogens

Properties of period 3 elements and their oxides

Transition metals

Reactions of the ions in aqueous solution

Introduction to organic chemistry

Alkanes

Halogenoalkanes

Alkenes

Alcohols

Organic analysis

Optical isomerism

Aldehydes & ketones

Carboxylic acids and derivatives

Aromatic chemistry

Amines

Polymers

Amino acids, proteins and DNA

Organic synthesis

Nuclear magnetic resonance spectroscopy

Chromatography

 

Biology Course Content:

Monomers and polymers

Carbohydrates

Lipids

Proteins

Nucleic acids

ATP

Water

Inorganic ions

Cell structure

All cells arise from other cells

Transport across cell membranes

Cell recognition and the immune system

Surface area to volume ratio

Gas exchange

Digestion and absorption

Mass transport

Photosynthesis

Respiration

Energy and ecosystems

Nutrient cycles

DNA, genes and chromosomes

DNA and protein synthesis

Genetic diversity can arise as a result of mutation or during meiosis

Genetic diversity and adaptation

Species and taxonomy

Biodiversity within a community

Investigating diversity

Stimuli, both internal and external, are detected and lead to a response

Nervous coordination

Skeletal muscles are stimulated to contract by nerves and act as effectors

Homeostasis is the maintenance of a stable internal environment nutrient cycles

Inheritance

Populations

Evolution may lead to speciation

Populations in ecosystems

DNA alteration

Gene expression is controlled by a number of features

Using genome projects

Gene technologies