A-LEVEL-PHYSICS · TCAS Exam Preparation (เตรียมสอบ TCAS)
A-LEVEL-PHYSICS/11
A-Level Physics
A-Level Physics · tcas-round 2020 · Variant 1
Relative difficulty
Analysis source: Council of University Presidents of Thailand (CUPT) / NIETS
Analysis aligned to the official syllabus and assessment design.
4.0 / 5
100
90 min
Mechanics and electromagnetism problems requiring diagrams, units, and multi-step formula choice.
Cohort performance
Session statistics from official examination reports
Total marks
100
Duration
90 min
Session difficulty
4.0 / 5
Calculator policy
TGAT papers: no calculator unless stated. TPAT and A-Level papers: basic calculators allowed where specified in the official blueprint.
Key examiner messages
Top priorities from the principal examiner before you revise
A-Level Physics assesses upper-secondary physics for TCAS in a 90-minute paper with blueprint item ranges covering mechanics, waves, electromagnetism, thermal physics, and modern physics.
Official blueprint: mechanics 8-10 items, waves 5-7, electromagnetism 6-8, thermal 3-5, modern physics 3-5.
A-Level score conversion uses Ti = 50 + 5.21299 * (raw - mean) / SD.
Mechanics is the largest single domain and usually anchors the paper difficulty.
CUPT/NIETS blueprints at mytcas.com define item counts, timing, and competency weights. Blueprints are advisory — live papers may vary slightly in difficulty distribution.
Question difficulty map
How candidates performed on each question in this series
No data available in official reports
Assessment objectives
Skill and AO weighting from official examiner commentary
Skill weighting
Cognitive skills emphasised in official test design.
Mechanics problem solving
Weight: 30100%Electromagnetism and circuits
Weight: 2273%Graphical and diagram interpretation
Weight: 1860%Waves and optics
Weight: 1550%Thermal and modern physics
Weight: 1550%
Method marks watchlist
Where working, steps, or method marks were commonly lost
No data available in official reports
Recurring mistakes across years
Themes examiners flag in multiple recent sessions for this subject
Mechanics: Using a scalar equation when direction or vector components matter. — Resolve components and set a sign convention before calc…
Units: Leaving centimetres, milliseconds, or grams unconverted. — Convert all quantities to SI units in the first working line.
Electromagnetism: Confusing magnetic field direction, force direction, and current direction. — Use the correct right-hand rule and label…
Waves: Mixing frequency, period, wavelength, and speed relationships. — Write v = f lambda and T = 1/f before substitution.
Modern physics: Applying classical wave intensity reasoning to photoelectric threshold questions. — Separate photon energy from light int…
Question choice intelligence
Mean scores and popularity for optional questions (HKDSE electives)
No data available in official reports
Level exemplars
What candidate scripts at each grade level looked like
No data available in official reports
Grade & admission context
How marks relate to grade thresholds and entry standards
Official body
Office of the Higher Education Commission (OCSC) / NIETS
Grading system
CUPT A-Level T-score: Ti = 50 + 5.21299 × (raw − mean) / SD; national mean Ti = 50
Scale band
Raw 0–100
Scale band
T-score 40
Scale band
T-score 50
Scale band
T-score 60
Deep insights
What top candidates did
Techniques and approaches examiners rewarded in this series
1. Draw before calculating
For mechanics and electromagnetism, sketch forces, fields, current direction, rays, or motion graphs before selecting equations.
2. Put units on every line
Unit errors create many physics distractors. Convert to SI units before substitution and check final dimensions.
3. Master graph meanings
Know what slope and area mean for displacement-time, velocity-time, force-extension, I-V, and wave graphs.
4. Use sign conventions consistently
Choose positive direction, mark it on the diagram, and keep it through the calculation.
5. Revise electromagnetism visually
Practise right-hand rules, field-line direction, induced current, and circuit simplification with diagrams.
6. Keep modern physics conceptual
For photoelectric and nuclear items, connect formulas to threshold frequency, energy levels, half-life, and conservation rules.
Command word playbook
How to match each command word to the expected response style
No data available in official reports
Time traps
Sections where candidates spent disproportionate time relative to marks
No data available in official reports
Syllabus traceability
Topics linked to questions and mark weighting in this session
Mechanics
Official topic weighting
Waves
Official topic weighting
Electricity and magnetism
Official topic weighting
Thermal physics
Official topic weighting
Modern physics
Official topic weighting
MCQ trap analytics
Commonly chosen wrong options from examiner commentary
No data available in official reports
Topic heatmap across years
Mark concentration by topic and exam year for this subject
Mark intensity
Mechanics
Waves
Electricity and magnetism
Thermal physics
Modern physics
Difficulty trend
How session difficulty has shifted across recent years
Paper comparison
Marks and duration breakdown across papers in this session
A-Level Physics: Mechanics, waves, electromagnetism, thermal, and modern physics
Marks you can still earn
Where valid approaches outside the mark scheme may still gain credit
No data available in official reports
Practise what examiners flagged
Target weak topics from this report inside the Revui app
Mechanics
Official topic weighting
Practise in RevuiWaves
Official topic weighting
Practise in RevuiElectricity and magnetism
Official topic weighting
Practise in RevuiThermal physics
Official topic weighting
Practise in RevuiModern physics
Official topic weighting
Practise in RevuiSelf-diagnostic checklist
Key actions before you sit this paper — copy and tick off as you revise
- 1Message
A-Level Physics assesses upper-secondary physics for TCAS in a 90-minute paper with blueprint item ranges covering mechanics, waves, electromagnetism, thermal physics, and modern physics.
- 2Message
Official blueprint: mechanics 8-10 items, waves 5-7, electromagnetism 6-8, thermal 3-5, modern physics 3-5.
- 3Message
A-Level score conversion uses Ti = 50 + 5.21299 * (raw - mean) / SD.
- 4Message
Mechanics is the largest single domain and usually anchors the paper difficulty.
- 5Message
CUPT/NIETS blueprints at mytcas.com define item counts, timing, and competency weights. Blueprints are advisory — live papers may vary slightly in difficulty distribution.
- 6Pitfall
Mechanics: Using a scalar equation when direction or vector components matter. — Resolve components and set a sign convention before calc…
- 7Pitfall
Units: Leaving centimetres, milliseconds, or grams unconverted. — Convert all quantities to SI units in the first working line.
- 8Pitfall
Electromagnetism: Confusing magnetic field direction, force direction, and current direction. — Use the correct right-hand rule and label…
- 9Pitfall
Waves: Mixing frequency, period, wavelength, and speed relationships. — Write v = f lambda and T = 1/f before substitution.
- 10Pitfall
Modern physics: Applying classical wave intensity reasoning to photoelectric threshold questions. — Separate photon energy from light int…
- 11Strength
1. Draw before calculating: For mechanics and electromagnetism, sketch forces, fields, current direction, rays, or motion graphs
- 12Strength
2. Put units on every line: Unit errors create many physics distractors. Convert to SI units before substitution and check final
- 13Strength
3. Master graph meanings: Know what slope and area mean for displacement-time, velocity-time, force-extension, I-V, and wave g
Teacher briefing pack
One-page session summary for tutors and classroom review
tcas-round 2020 2020
A-Level Physics
A-Level Physics assesses upper-secondary physics for TCAS in a 90-minute paper with blueprint item ranges covering mechanics, waves, electromagnetism, thermal physics, and modern physics. Office of the Higher Education Commission (OCSC) / NIETS emphasises mechanics and electromag
A-Level Physics assesses upper-secondary physics for TCAS in a 90-minute paper with blueprint item ranges covering mechanics, waves, electromagnetism, thermal physics, and modern physics.
Official blueprint: mechanics 8-10 items, waves 5-7, electromagnetism 6-8, thermal 3-5, modern physics 3-5.
A-Level score conversion uses Ti = 50 + 5.21299 * (raw - mean) / SD.
Mechanics: Using a scalar equation when direction or vector components matter. — Resolve components and set a sign convention before calc…
Units: Leaving centimetres, milliseconds, or grams unconverted. — Convert all quantities to SI units in the first working line.
- Total marks
- 100
- Duration
- 90 min
- Session difficulty
- 4.0 / 5
- Calculator policy
- TGAT papers: no calculator unless stated. TPAT and A-Level papers: basic calculators allowed where specified in the official blueprint.
Session analysis
A-Level Physics assesses upper-secondary physics for TCAS in a 90-minute paper with blueprint item ranges covering mechanics, waves, electromagnetism, thermal physics, and modern physics. Office of the Higher Education Commission (OCSC) / NIETS emphasises mechanics and electromagnetism problems requiring diagrams, units, and multi-step formula choice.. Priority revision: Mechanics, Waves, Electricity and magnetism, Thermal physics. For mechanics and electromagnetism, sketch forces, fields, current direction, rays, or motion graphs before selecting equations.
Updated 2026-07-03
Paper breakdown
A-Level Physics: Mechanics, waves, electromagnetism, thermal, and modern physics
Top chapters
Exam structure insights
Marks by syllabus topic
Revision priority from official test-design weighting.
Mark accessibility
Estimated difficulty spread based on official design.
Mechanics and electromagnetism problems requiring diagrams, units, and multi-ste
Paper structure
Official paper breakdown for this subject.
A-Level Physics
100·10·100%
Official syllabus scope
A-Level Physics assesses upper-secondary physics for TCAS in a 90-minute paper with blueprint item ranges covering mechanics, waves, electromagnetism, thermal physics, and modern physics.
Difficulty verdict
Rated 4/5 for March–April sessions. Mechanics and electromagnetism problems requiring diagrams, units, and multi-step formula choice.
What examiners measure
1. Apply physics laws and models to quantitative and conceptual problems. 2. Interpret diagrams, graphs, experiments, circuits, waves, and motion data. 3. Use units, vectors, proportional reasoning, and formula selection accurately. 4. Explain physical phenomena across mechanics, waves, electromagnetism, heat, and modern physics. 5. Evaluate experimental setup, variables, measurement, and uncertainty at school level.
Where the marks are
Highest-weight syllabus areas: Mechanics; Waves; Electricity and magnetism; Thermal physics; Modern physics.
Examiner notes & key calculations
- Official blueprint: mechanics 8-10 items, waves 5-7, electromagnetism 6-8, thermal 3-5, modern physics 3-5.
- A-Level score conversion uses Ti = 50 + 5.21299 * (raw - mean) / SD.
- Mechanics is the largest single domain and usually anchors the paper difficulty.
- Electromagnetism is the next major quantitative block and often separates high scorers through direction and sign conventions.
- The 90-minute format leaves about three minutes per item, so efficient diagrams are essential.
- Physics distractors often come from unit errors, wrong graph interpretation, or using the right formula with the wrong variable.
- No negative marking means candidates should use dimensional checks and estimation to make informed final choices.
- Paper 1: A-Level Physics · 100 marks · 90 min · Mechanics, waves, electromagnetism, thermal, and modern physics.
Exam tips
Paper format
- Duration
- 90 min
- Total marks
- 100
- Weighting
- 100%
- Question types
- Mechanics, waves, electromagnetism, thermal, and modern physics
- For mechanics and electromagnetism, sketch forces, fields, current direction, rays, or motion graphs before selecting equations.
- Unit errors create many physics distractors. Convert to SI units before substitution and check final dimensions.
- Know what slope and area mean for displacement-time, velocity-time, force-extension, I-V, and wave graphs.
Common mistakes
Mechanics
Using a scalar equation when direction or vector components matter.
How to avoid: Resolve components and set a sign convention before calculating.
Units
Leaving centimetres, milliseconds, or grams unconverted.
How to avoid: Convert all quantities to SI units in the first working line.
Electromagnetism
Confusing magnetic field direction, force direction, and current direction.
How to avoid: Use the correct right-hand rule and label each vector.
Analysis is paraphrased for study purposes. Always verify against the official examiner report and mark scheme.