JAMB UTME 2-Week Plan
A complete 14-day plan covering 75 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.
- Days
- 14
- Topics
- 75
- Subjects
- 4
- Cost
- Free
How to actually use your 14 days
One fast, weight-prioritised pass over what actually appears on the paper.
This 2-week plan gives you 14 days to work through 75 weighted JAMB UTME topics across 4 subjects — roughly 5.4 new topics a day at 6–8 hours of focused study. That pace is brisk but survivable if you protect your highest-weight subjects first.
JAMB UTME marks are not spread evenly across subjects. Physics, Mathematics, and Chemistry carry the heaviest weightage in recent papers, so this plan front-loads them — so they get your first and best hours, before fatigue sets in. Cover weight 4–5 topics properly. Touch weight-3 topics only if you finish early; skip weight 1–2 entirely.
14 days is enough for one disciplined pass over the high-weight portion of JAMB UTME, not the full 75-topic syllabus. The trap is starting too slow. Begin with the heaviest subjects on day one — you do not have a buffer week.
What to prioritise & cut
Cover weight 4–5 topics properly. Touch weight-3 topics only if you finish early; skip weight 1–2 entirely.
Mock tests & revision
Sit two or three timed previous-year papers in the second half and review every wrong answer the same day.
Weekly rhythm
Front-load new learning into the first 60% of days; reserve the last 40% for previous-year papers and error review.
Week-by-week schedule
| Week | Days | Topics covered |
|---|---|---|
| 1 | 1–7 | English Language: Comprehension Passages (w5)Physics: Motion in One Dimension (w5)Chemistry: Chemical Bonding and Molecular Structure (w5)Mathematics: Algebraic Processes (w5)English Language: Vocabulary and Word Meanings (w4)Physics: Newton's Laws of Motion (w5)Chemistry: Stoichiometry and Chemical Equations (w5)Mathematics: Geometry: Lines, Angles and Triangles (w5)English Language: Grammar: Parts of Speech (w4)Physics: Work, Energy and Power (w5)Chemistry: Acids, Bases and Salts (w5)Mathematics: Trigonometry: Ratios and Identities (w5)English Language: Tenses and Their Usage (w4)Physics: Light and Geometrical Optics (w5)Chemistry: Organic Chemistry: Hydrocarbons (w5)Mathematics: Calculus: Differentiation (w5)English Language: Sentence Structure and Synthesis (w4)Physics: Electrostatics (w5)Chemistry: Atomic Structure and the Periodic Table (w4)Mathematics: Calculus: Integration (w5)English Language: Lexis and Structure (w4)Physics: Electric Current and Circuits (w5)Chemistry: States of Matter: Gases, Liquids and Solids (w4)Mathematics: Number and Numeration (w4)English Language: Paragraph and Essay Writing (w4)Physics: Motion in Two Dimensions (w4)Chemistry: Thermochemistry and Energetics (w4)Mathematics: Circles and Chords (w4)English Language: Summary and Inference from Passages (w4)Physics: Circular Motion and Gravitation (w4)Chemistry: Chemical Kinetics (w4)Mathematics: Trigonometry: Solutions of Triangles (w4)English Language: Synonyms and Antonyms (w3)Physics: Waves and Wave Motion (w4)Chemistry: Chemical Equilibrium (w4)Mathematics: Coordinate Geometry (w4)English Language: Active and Passive Voice (w3)Physics: Wave Optics (Interference and Diffraction) (w4) |
| 2 | 8–14 | Chemistry: Electrochemistry (w4)Mathematics: Statistics and Data Presentation (w4)English Language: Direct and Indirect Speech (w3)Physics: Capacitors and Capacitance (w4)Chemistry: Alkyl Halides and Alcohols (w4)Mathematics: Probability (w4)English Language: Pronouns and Agreement (w3)Physics: Magnetic Field and Electromagnetism (w4)Chemistry: Aldehydes, Ketones and Carboxylic Acids (w4)Mathematics: Permutations and Combinations (w4)English Language: Prepositions (w3)Physics: Electromagnetic Induction (w4)Chemistry: Redox Reactions (w4)Mathematics: Sequence and Series (AP and GP) (w4)English Language: Question Tags and Short Answers (w3)Physics: Modern Physics: Photoelectric Effect (w4)Chemistry: Equilibrium and Ionic Equilibrium (w4)Mathematics: Quadratic Equations (w4)English Language: Conditional Sentences (w3)Physics: Atomic Structure and Bohr Model (w4)Chemistry: Amines and Amides (w3)Mathematics: Matrices and Determinants (w3)Physics: Nuclear Physics and Radioactivity (w4)Chemistry: Polymers and Biomolecules (w3)Mathematics: Vectors in Two Dimensions (w3)Physics: Heat and Thermodynamics (w4)Chemistry: Separation Techniques (w3)Mathematics: Area and Perimeter of Plane Figures (w3)Physics: Simple Harmonic Motion (w4)Chemistry: Periodic Properties and Group Chemistry (w3)Mathematics: Three-Dimensional Geometry Basics (w3)Physics: Sound Waves (w3)Chemistry: Transition Metals (w3)Mathematics: Logarithms and Exponentials (w3)Physics: Fluid Mechanics (w3)Chemistry: Environmental Chemistry (w2)Mathematics: Sets and Set Theory (w3) |
Subject-wise topic split
Each topic shows its weightage (1–5 dots) and the concepts you'll cover. Higher-weight topics appear first.
English Language
15 topics- Comprehension Passages ●●●●●
Reading passages carefully to answer literal, inferential, and evaluative questions testing understanding and analysis.
- Vocabulary and Word Meanings ●●●●○
Building vocabulary through context clues, word roots, prefixes, suffixes, and understanding meanings in passage-based questions.
- Grammar: Parts of Speech ●●●●○
Identifying and correctly using nouns, pronouns, verbs, adjectives, adverbs, prepositions, conjunctions, and interjections.
- Tenses and Their Usage ●●●●○
Using present, past, and future tenses correctly in simple, continuous, perfect, and perfect continuous forms.
- Sentence Structure and Synthesis ●●●●○
Constructing grammatically correct sentences, joining clauses with conjunctions, and avoiding common sentence errors.
- Lexis and Structure ●●●●○
Understanding word usage patterns, collocations, phrasal verbs, and structural rules specific to JAMB English.
- Paragraph and Essay Writing ●●●●○
Planning, organising, and writing coherent paragraphs and essays on common JAMB topics with clear arguments.
- Summary and Inference from Passages ●●●●○
Identifying main ideas, summarising passages, and drawing logical inferences from textual evidence.
- + 7 more topics on the full roadmap →
Physics
20 topics- Motion in One Dimension ●●●●●
Analysing straight-line motion using displacement, velocity, acceleration, and interpreting motion graphs.
- Newton's Laws of Motion ●●●●●
Applying Newton's three laws to solve equilibrium, friction, and acceleration problems in mechanical systems.
- Work, Energy and Power ●●●●●
Calculating work done, kinetic and potential energy, power, and understanding energy conversion in machines.
- Light and Geometrical Optics ●●●●●
Applying laws of reflection and refraction, total internal reflection, and using lenses and mirrors in optical systems.
- Electrostatics ●●●●●
Understanding Coulomb's law, electric fields, potential, and electric force calculations for point charges.
- Electric Current and Circuits ●●●●●
Applying Ohm's law, Kirchhoff's laws, analysing series-parallel circuits, and calculating circuit parameters.
- Motion in Two Dimensions ●●●●○
Studying projectile motion, relative velocity, and applying vector analysis to two-dimensional problems.
- Circular Motion and Gravitation ●●●●○
Understanding centripetal force, orbital motion, Kepler's laws, and gravitational field concepts.
- + 12 more topics on the full roadmap →
Chemistry
20 topics- Chemical Bonding and Molecular Structure ●●●●●
Understanding ionic, covalent, and metallic bonding, intermolecular forces, VSEPR theory, and hybridisation.
- Stoichiometry and Chemical Equations ●●●●●
Writing balanced equations, performing mole calculations, and solving stoichiometric problems accurately.
- Acids, Bases and Salts ●●●●●
Understanding acid-base theories, pH calculations, buffer solutions, hydrolysis, and titrations.
- Organic Chemistry: Hydrocarbons ●●●●●
Studying alkanes, alkenes, alkynes, their preparation, properties, reactions, and naming conventions.
- Atomic Structure and the Periodic Table ●●●●○
Understanding electron configuration, atomic orbitals, periodic trends, and how they relate to element properties.
- States of Matter: Gases, Liquids and Solids ●●●●○
Applying gas laws (Boyle's, Charles's, Avogadro's, ideal gas equation) and understanding changes of state.
- Thermochemistry and Energetics ●●●●○
Calculating enthalpy changes, understanding exothermic and endothermic reactions, and Hess's law applications.
- Chemical Kinetics ●●●●○
Studying reaction rates, rate laws, factors affecting rates, order of reaction, and activation energy.
- + 12 more topics on the full roadmap →
Mathematics
20 topics- Algebraic Processes ●●●●●
Manipulating algebraic expressions, factorisation, simplification, and solving algebraic problems efficiently.
- Geometry: Lines, Angles and Triangles ●●●●●
Studying properties of lines, angles, polygons, and triangles including similarity and congruence criteria.
- Trigonometry: Ratios and Identities ●●●●●
Using sine, cosine, tangent ratios, solving trigonometric equations, and applying fundamental identities.
- Calculus: Differentiation ●●●●●
Finding derivatives of polynomial, trigonometric, and exponential functions and applying to practical problems.
- Calculus: Integration ●●●●●
Integrating functions, finding areas under curves, and solving problems involving definite and indefinite integrals.
- Number and Numeration ●●●●○
Working with integers, fractions, decimals, surds, and understanding number bases for computational problems.
- Circles and Chords ●●●●○
Understanding circle theorems, arcs, chords, tangents, angle properties, and their applications in problems.
- Trigonometry: Solutions of Triangles ●●●●○
Applying sine rule, cosine rule, and area formulas to solve problems involving non-right-angled triangles.
- + 12 more topics on the full roadmap →
Why a 14-day plan beats a 1,200-page prep book
| Dimension | Typical JAMB UTME book | This 2-Week Plan |
|---|---|---|
| Time to start | Hours of reading before any study starts | Seconds — plan is already here |
| Personalisation | One-size-fits-all | Fits exactly your 14 days |
| Freshness | Printed months ago | Updated for the 2026 cycle · verified 2026-04-02 |
| Weightage signal | Author guess | Derived from last 5 years' papers |
| Cost | ₹500–2,500 | ₹0 |
| Sign-up required | Often (with a trial trap) | None |
Other JAMB UTME plans
JAMB UTME 2-Week Plan — common questions
Is 14 days enough to prepare for JAMB UTME? +
14 days is enough for one disciplined pass over the high-weight portion of JAMB UTME, not the full 75-topic syllabus. The honest answer depends on your starting point, but this 2-week plan is built to get the most from the time you have: one fast, weight-prioritised pass over what actually appears on the paper.
How many hours a day does this JAMB UTME 2-week plan need? +
Plan for 6–8 hours of focused study, covering about 5.4 new topics a day. Front-load new learning into the first 60% of days; reserve the last 40% for previous-year papers and error review.
What should I skip if I am short on time? +
Cover weight 4–5 topics properly. Touch weight-3 topics only if you finish early; skip weight 1–2 entirely.
When should I start mock tests on this plan? +
Sit two or three timed previous-year papers in the second half and review every wrong answer the same day.
Already know the pattern? Generate a topic-by-topic plan.
The full personalised roadmap covers weak topics first, tracks completion, and adapts as you mark topics done.
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