Year 12 Lesson Plans
All subjects available for this grade level.
Aligned to National Curriculum Attainment Targets
8 subjects · 50 units · 171 topics
Ages 16-17
Biology
An intensive exploration of biological principles ranging from molecular foundations to global ecosystems. This course emphasizes the integration of structure and function while developing the analytical skills required for advanced scientific inquiry.
Chemistry
This course bridges the gap between GCSE and advanced chemistry by exploring the quantitative and structural nature of matter. Students investigate the fundamental laws governing atomic behavior, energetic transitions, and the mechanisms of organic and inorganic reactions.
Economics
This course introduces students to the fundamental principles of scarcity, choice, and the mechanics of competitive markets. Students analyze how individuals, firms, and governments make decisions and evaluate the impact of these choices on national and global economic outcomes.
English
This course bridges the gap between GCSE and university level English by exploring the intersection of linguistic frameworks and literary criticism. Students develop sophisticated skills in analyzing how language choices shape meaning and power across diverse texts and historical periods.
Geography
An advanced exploration of the complex interconnections between physical landscapes and human societies. Students analyze the drivers of environmental change and the socio-economic forces shaping the modern world.
History
Key Stage 5 A-Level History Year 12: a comprehensive study of the Tudor Dynasty (1485-1603) and the evolution of the British State, focusing on political authority, religious reformation, and social transformation.
Mathematics
This curriculum bridges the gap between GCSE and advanced calculus, focusing on rigorous proof and mathematical modeling. Students develop the ability to construct logical arguments and apply complex algebraic and statistical tools to real world scenarios.
Physics
An intensive exploration of the fundamental laws governing the universe from subatomic particles to galactic motion. This course bridges classical mechanics with modern quantum theory and electromagnetism while developing sophisticated mathematical modeling and experimental skills.