University physics and maths, structured from first principles to exam practice.
Fera connects course explanations, topic practice, and exam papers so students can study technical subjects without jumping between disconnected resources.
Academic workspace
Level 1 - Physics
Course explanations, topic questions, and exam papers stay attached to one subject map.
Current topic
Mechanics: force models before exam practice
Build the model first, then move into questions that test whether the method can be used without notes.
A 4.0 kg block on a 30 degree incline with kinetic friction is connected over a pulley to a hanging 3.0 kg mass. Decide which way the system moves, then find the acceleration and tension.
Method: compare the hanging weight with the downslope component plus kinetic friction, then apply Newton's second law to the full two-mass system.
- Courses
- 3
- Physics topics
- 313
- Practice questions
- 9,552
- Exam papers
- 16
Study method
A course-led route from explanation to exam judgement.
Learn from structure
Start with a course sequence so each idea has prerequisites, notation, and context before problem solving begins.
Practise by topic
Move into topic-linked questions to test whether the method works without notes and reveal where fluency is still weak.
Test with papers
Use full papers once the topic foundations are familiar enough to practise timing, judgement, and mixed-topic recall.
Course coverage
Curricula built around topic progression, not isolated resources.
Math I
Level 1 - Math I (Physics)
The core maths toolkit for physics: algebra, functions, graphs, trigonometry, vectors, units, and introductory calculus.
- Algebra
- Functions
- Trigonometry
- Limits
- Differentiation
Math II
Level 1 - Math II (Physics)
Extended mathematical methods for physics modelling, including integration, differential equations, complex numbers, matrices, and vector calculus.
- Integration
- Differential equations
- Complex numbers
- Matrices
- Vector calculus
Physics
Level 1 - Physics
A calculus-based physics course built around derivations, physical modelling, worked questions, and full exam practice.
- Mechanics
- Waves
- Thermal physics
- Electricity and magnetism
- Quantum physics
Evidence
Coverage students can use while they study.
Level 1 - Physics
Topic practice
A 4.0 kg block on a 30 degree incline with kinetic friction is connected over a pulley to a hanging 3.0 kg mass. Decide which way the system moves, then find the acceleration and tension.
Method
Compare the hanging weight with the downslope component plus kinetic friction on the incline block. The hanging mass wins by 4.71 N, so it moves downward. The system acceleration is 0.673 m s^-2, and the string tension is 27.4 N.
Level 1 - Physics
Level 1 - Physics Paper 1
Sections
- Mechanics and modelling
- Waves and optics
- Oscillations, collisions, conservation, and fields
For students
Use Fera when technical study needs a route through the material.
When lecture notes feel fragmented
Use the course order to turn scattered lecture material into a sequence of concepts, notation, and prerequisites.
When problem-solving fluency is weak
Use topic-linked questions to find whether a method is genuinely usable or only familiar from worked examples.
When exam preparation lacks diagnosis
Use papers after topic practice to diagnose timing, mixed-topic judgement, and exam readiness without losing the course context.
Build from the topic, practise the method, then test the paper.
Start with the course structure, move into topic-linked questions, and use papers when the underlying methods are ready for exam conditions.