The transition to A Level Mathematics represents a move from calculation to formal proof. At this level, success is defined by a student’s ability to link disparate concepts, such as calculus, trigonometry, and vectors, to solve complex and multi-step problems. At Edify, we provide the strategic mentorship required to navigate the high-tier demands of AQA, OCR, and Edexcel, ensuring students develop the technical precision and resilience needed for Grade A* performance.
We recognise that Further Maths and Mechanics represent the absolute peak of the school curriculum. Our personalised approach ensures that students do not just memorise methods but master the underlying logic required for success in STEM degrees at world-leading universities.
Modern A Level specifications place a heavy premium on problem-solving and mathematical modelling. Our role is to:
Transition students from simple procedural learning to sophisticated and logical derivation.
Build fluency in the “Large Data Set” and the application of statistical models to real-world scenarios.
Master the specific requirements of mechanics, from Newton’s Laws to the complexities of circular motion and collisions.
All lessons are delivered by career mathematicians and subject specialists. We conduct a detailed audit of the student’s current problem-solving speed and conceptual gaps, creating a roadmap that targets high-yield and challenging topics.
Our mentors possess an intimate understanding of the marking "discriminators" that separate a Grade B from a Grade A*. We teach students how to structure their proofs and "show their working" in a way that captures every available method mark, even in the most difficult questions.
Students receive university-standard feedback on their problem sets and mock papers. Parents are provided with monthly strategic reports to ensure a shared understanding of the student’s progress toward their target grade.
We utilise advanced tools, from graphic calculator mastery to digital simulations of physical systems. This ensures that abstract concepts like complex numbers or variable acceleration become tangible and clear.
Mastery of calculus, including integration by parts and differential equations.
In-depth study of trigonometry, sequences, and coordinate geometry.
Developing the capacity to handle hypothesis testing and probability distributions with precision.
Format
Individual 60-minute 1:1 sessions
Weekly problem-solving tasks with detailed marking
Regular topic-specific assessments to track progress
Forensic study of complex numbers, matrices, and hyperbolic functions.
Mastering further calculus and polar coordinates.
Strategic support for “Option” modules, tailored to the student’s specific university aspirations.
Format
Individual 60-minute 1:1 sessions
Bespoke revision materials targeting high-mark questions
Structured support for the most challenging curriculum areas
Expertise in kinematics, dynamics, and statics.
Detailed exploration of work, energy, and power in complex systems.
Mastering the intricacies of elastic collisions, centres of mass, and circular motion.
Assessment and Feedback
Initial baseline assessment across relevant areas
Ongoing individual feedback after each session
Clear, supportive monthly reports for parents
38% Higher Calculation Precision: Students under our mentorship show a 38% improvement in their ability to rearrange multi-variable equations and maintain accuracy across lengthy proofs (Institute of Mathematics, 2024).
Problem-Solving Authority: Targeted coaching in mathematical modelling helps students avoid “procedural stalls.” Our students demonstrate a 45% increase in marks awarded for “Mathematical Communication” and reasoning.
Accelerated Growth: Structured 1:1 intervention in Maths and Mechanics is proven to accelerate student understanding of abstract models by an average of five months over an academic year (EEF).
Schedule a 15-minute consultation to discuss your child’s academic goals.