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Updated 2026-04-06 · 2026 Edition

KUET Admission Test 6-Month Plan

A complete 180-day plan covering 45 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.

Days
180
Topics
45
Subjects
3
Phases
3
Generate My Personalised Plan ← KUET Admission Test Overview
Full foundation a concept-first pass, a depth pass, a revision pass, and a structured mock series

How to actually use your 180 days

Build real understanding, then layer depth, two revision passes, and a structured mock series.

Daily study
2.5–3.5 hours
New topics / day
≈ 0.25
Approach
a concept-first pass, a depth pass, a revision pass, and a structured mock series

This 6-month plan gives you 180 days to work through 45 weighted KUET Admission Test topics across 3 subjects — roughly 0.25 new topics a day at 2.5–3.5 hours of focused study. That moderate daily load is the point of starting this early — you trade intensity for retention.

KUET Admission Test marks are not spread evenly across subjects. Mathematics, Physics, and Chemistry carry the heaviest weightage in recent papers, so this plan front-loads them — so they become the conceptual backbone the rest of the syllabus hangs off. Cover everything, and give weight 3–5 topics a second problem-solving pass. Low-weight topics get one solid pass — at this length they are worth keeping, not cutting.

Around 6 months lets you do far more than cover KUET Admission Test — you can understand it: a concept pass, a problem-solving pass, then spaced revision across all 45 topics. A multi-month plan fails by drifting in the early, low-pressure weeks. Anchor each month to a concrete checkpoint so the slack does not become a late scramble.

What to prioritise & cut

Cover everything, and give weight 3–5 topics a second problem-solving pass. Low-weight topics get one solid pass — at this length they are worth keeping, not cutting.

Mock tests & revision

Topic and sectional tests through the build phase; full-length mocks every other week from the midpoint, weekly in the final two months. Maintain an error log from the start.

Weekly rhythm

Three arcs: a concept-building phase, a depth-and-problems phase, and a revision-plus-mocks phase. Each subject gets at least two spaced passes.

Phase-by-phase plan

24 weeks total

A 180-day plan only works when you sequence it. Here is how the 6-Month Plan breaks down — foundation, depth, then mocks.

  1. 1

    Foundation

    8 weeks

    Build concept depth across full syllabus

    Topic-wise notes
    Concept tests
    Recap docs
  2. 2

    Advanced + PYQs

    10 weeks

    PYQs of last 7-10 years; advanced problems

    Year-wise PYQ solving
    Topic-wise problem mastery
    Concept gap-fix list
  3. 3

    Mocks + final revision

    6 weeks

    Weekly full-length mocks; targeted revision

    10+ full mocks
    Weak-topic eradication
    Last-mile drill

Week-by-week schedule

Week Days Topics covered
1 1–7 Mathematics: Algebra (w3)Physics: Mechanics (w3)
2 8–14 Chemistry: Atomic Structure (w3)Mathematics: Calculus (w3)
3 15–21 Physics: Heat and Thermodynamics (w3)Chemistry: Chemical Bonding (w3)
4 22–28 Mathematics: Coordinate Geometry (w3)Physics: Waves and Optics (w3)
5 29–35 Chemistry: Organic Chemistry (w3)Mathematics: Trigonometry (w3)
6 36–42 Physics: Electricity and Magnetism (w3)Chemistry: Inorganic Chemistry (w3)
7 43–49 Mathematics: Vector Algebra (w3)Physics: Modern Physics (w3)
8 50–56 Chemistry: Physical Chemistry (w3)Mathematics: Statistics and Probability (w3)
9 57–63 Physics: Fluid Mechanics (w3)Chemistry: Chemical Thermodynamics (w3)
10 64–70 Mathematics: Complex Numbers (w3)Physics: Simple Harmonic Motion (w3)
11 71–77 Chemistry: Electrochemistry (w3)Mathematics: Set Theory and Logic (w3)
12 78–84 Physics: Gravitation (w3)Chemistry: Chemical Kinetics (w3)
13 85–91 Mathematics: Sequences and Series (w3)Physics: Elasticity (w3)
14 92–98 Chemistry: Solutions (w3)Mathematics: Differential Equations (w3)
15 99–105 Physics: Surface Tension (w3)Chemistry: Equilibrium (w3)
16 106–112 Mathematics: Three-Dimensional Geometry (w3)Physics: Current Electricity (w3)
17 113–119 Chemistry: Acids and Bases (w3)Mathematics: Binomial Theorem (w3)
18 120–126 Physics: Electromagnetic Induction (w3)Chemistry: Solid State (w3)
19 127–133 Mathematics: Inequalities (w3)Physics: Optics (w3)
20 134–140 Chemistry: Biomolecules (w3)Mathematics: Mathematical Reasoning (w3)
21 141–147 Physics: Nuclear Physics (w3)Chemistry: Environmental Chemistry (w3)
22 148–154 Mathematics: Linear Programming (w3)Physics: Semiconductors (w3)
23 155–161 Chemistry: Chemistry Practical Skills (w3)

Subject-wise topic split

Each topic shows its weightage (1–5 dots) and the concepts you'll cover. Higher-weight topics appear first.

Mathematics

15 topics
  • Algebra ●●●○○

    Quadratic equations, polynomial functions, progressions (AP, GP), permutations and combinations, binomial theorem, matrices, and determinants for engineering entrance preparation.

  • Calculus ●●●○○

    Limits and continuity, differentiation and integration of polynomial, exponential, logarithmic and trigonometric functions, with applications to rates and areas.

  • Coordinate Geometry ●●●○○

    Straight lines, circles, conic sections (parabola, ellipse, hyperbola), coordinate geometry in 3D, and transformation of axes for solving complex geometric problems.

  • Trigonometry ●●●○○

    Trigonometric ratios, identities, equations, inverse trigonometry, height and distance problems, and application of De Moivre's theorem for complex numbers.

  • Vector Algebra ●●●○○

    Vector addition, subtraction, dot and cross products, scalar triple product, and application of vectors in geometry and physics problems.

  • Statistics and Probability ●●●○○

    Measures of central tendency (mean, median, mode), standard deviation, variance, probability theorems, conditional probability, Bayes theorem, and random variables.

  • Complex Numbers ●●●○○

    Algebra of complex numbers, modulus and argument, polar form, De Moivre's theorem, cube roots of unity, and geometric interpretation on the Argand diagram.

  • Set Theory and Logic ●●●○○

    Sets, Venn diagrams, operations on sets, truth tables, logical connectives, implications, converse, inverse, contrapositive, and proof techniques.

  • + 7 more topics on the full roadmap →

Physics

15 topics
  • Mechanics ●●●○○

    Laws of motion, friction, work-energy theorem, conservation of momentum, rotational dynamics, moment of inertia, angular momentum, and gravitation for engineering applications.

  • Heat and Thermodynamics ●●●○○

    Heat transfer, specific heat, calorimetry, kinetic theory of gases, thermodynamic processes, laws of thermodynamics, entropy, and heat engines with efficiency calculations.

  • Waves and Optics ●●●○○

    Wave motion, superposition principle, standing waves, sound waves, Doppler effect, reflection, refraction, interference, diffraction, polarization, and optical instruments.

  • Electricity and Magnetism ●●●○○

    Coulomb's law, electric field, potential, capacitance, Ohm's law, Kirchhoff's laws, magnetic field, Biot-Savart law, electromagnetic induction, AC circuits, and electromagnetic waves.

  • Modern Physics ●●●○○

    Photoelectric effect, Bohr atom model, de Broglie wavelength, Heisenberg uncertainty principle, wave-particle duality, nuclear physics, radioactivity, and semiconductor physics.

  • Fluid Mechanics ●●●○○

    Pascal's law, Archimedes principle, Bernoulli's theorem, viscosity, surface tension, capillary action, and fluid dynamics applications in engineering systems.

  • Simple Harmonic Motion ●●●○○

    Oscillations, simple pendulum, mass-spring systems, damped oscillations, forced oscillations, resonance, and energy in SHM with graphical analysis.

  • Gravitation ●●●○○

    Newton's law of gravitation, variation of g, escape velocity, orbital velocity, Kepler's laws, satellite motion, and gravitational potential energy calculations.

  • + 7 more topics on the full roadmap →

Chemistry

15 topics
  • Atomic Structure ●●●○○

    Bohr's atomic model, quantum numbers, electron configuration, Aufbau principle, Hund's rule, Pauli's exclusion principle, and periodic properties of elements.

  • Chemical Bonding ●●●○○

    Ionic, covalent, and metallic bonds, VSEPR theory, hybridization (sp, sp², sp³), molecular orbital theory, bond parameters, and hydrogen bonding.

  • Organic Chemistry ●●●○○

    Nomenclature, structure, and reactions of alkanes, alkenes, alkynes, aromatic compounds, alcohols, aldehydes, ketones, carboxylic acids, and amines with reaction mechanisms.

  • Inorganic Chemistry ●●●○○

    Periodic table trends, s-block and p-block elements, coordination compounds, transition metals, lanthanides, actinides, and chemical periodicity across periods and groups.

  • Physical Chemistry ●●●○○

    Mole concept, stoichiometry, gas laws, liquid and solid states, colligative properties, chemical equilibrium, Le Chatelier's principle, and equilibrium constant calculations.

  • Chemical Thermodynamics ●●●○○

    First and second laws of thermodynamics, enthalpy, entropy, Gibbs free energy, spontaneity of reactions, thermochemical equations, and Hess's law applications.

  • Electrochemistry ●●●○○

    Redox reactions, electrochemical cells, standard electrode potentials, Nernst equation, electrolysis, Faraday's laws, batteries, and corrosion prevention methods.

  • Chemical Kinetics ●●●○○

    Rate of reactions, rate laws, order and molecularity, activation energy, Arrhenius equation, collision theory, and factors affecting reaction rates.

  • + 7 more topics on the full roadmap →

Why a 180-day plan beats a 1,200-page prep book

DimensionTypical KUET Admission Test bookThis 6-Month Plan
Time to startHours of reading before any study startsSeconds — plan is already here
PersonalisationOne-size-fits-allFits exactly your 180 days
FreshnessPrinted months agoUpdated for the 2026 cycle · verified 2026-04-06
Weightage signalAuthor guessDerived from last 5 years' papers
Cost₹500–2,500₹0
Sign-up requiredOften (with a trial trap)None

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KUET Admission Test 6-Month Plan — common questions

Is 180 days enough to prepare for KUET Admission Test? +

Around 6 months lets you do far more than cover KUET Admission Test — you can understand it: a concept pass, a problem-solving pass, then spaced revision across all 45 topics. The honest answer depends on your starting point, but this 6-month plan is built to get the most from the time you have: build real understanding, then layer depth, two revision passes, and a structured mock series.

How many hours a day does this KUET Admission Test 6-month plan need? +

Plan for 2.5–3.5 hours of focused study, covering about 0.25 new topics a day. Three arcs: a concept-building phase, a depth-and-problems phase, and a revision-plus-mocks phase. Each subject gets at least two spaced passes.

What should I skip if I am short on time? +

Cover everything, and give weight 3–5 topics a second problem-solving pass. Low-weight topics get one solid pass — at this length they are worth keeping, not cutting.

When should I start mock tests on this plan? +

Topic and sectional tests through the build phase; full-length mocks every other week from the midpoint, weekly in the final two months. Maintain an error log from the start.

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.

Generate Personalised Plan →