What subjects does this GATE study plan cover?

This 2-Week Plan covers 3 subjects: Engineering-Maths, Subject-Specific, General Aptitude. Topic order is weight-prioritised so the highest-yield material is covered first.

Is this GATE 2-Week Plan free?

Yes — StudyRoadmap publishes every duration plan free, with no signup or paywall. The full 14-day schedule, daily topics, and per-subject breakdown are all open-access on this page.

Updated 2026-05-30 · 2026 Edition

GATE 2-Week Plan

A complete 14-day plan covering 40 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.

Days: 14
Topics: 40
Subjects: 3
Cost: Free

Generate My Personalised Plan → ← GATE Overview

Last-mile sprint one rapid pass over high-weight topics, with a short review of the weakest

How to actually use your 14 days

One fast, weight-prioritised pass over what actually appears on the paper.

Daily study

6–8 hours

New topics / day

≈ 2.9

Approach

one rapid pass over high-weight topics, with a short review of the weakest

This 2-week plan gives you 14 days to work through 40 weighted GATE topics across 3 subjects — roughly 2.9 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.

GATE marks are not spread evenly across subjects. Subject-Specific, Engineering-Maths, and General Aptitude 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 GATE, not the full 40-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	Engineering-Maths: Linear Algebra (w3)Subject-Specific: Thermodynamics — Laws and Applications (w3)General Aptitude: Number System and Simplification (w3)Engineering-Maths: Numerical Methods (w3)Subject-Specific: Thermodynamic Cycles and Steam Turbines (w3)General Aptitude: Ratio, Proportion and Percentage (w3)Engineering-Maths: Differential Equations (w3)Subject-Specific: Heat Transfer — Conduction (w3)General Aptitude: Time, Work and Distance (w3)Engineering-Maths: Higher Order Differential Equations (w3)Subject-Specific: Heat Transfer — Convection and Radiation (w3)General Aptitude: Data Interpretation (w3)Engineering-Maths: Partial Differential Equations (w3)Subject-Specific: Manufacturing Engineering — Casting and Welding (w3)General Aptitude: Logical Venn Diagrams (w3)Engineering-Maths: Complex Analysis (w3)Subject-Specific: Manufacturing Engineering — Machining and CNC (w3)General Aptitude: Analytical Reasoning (w3)Engineering-Maths: Probability and Statistics — Distributions (w3)Subject-Specific: Machine Design — Stress Analysis (w3)
2	8–14	General Aptitude: Statistics and Probability Basics (w3)Engineering-Maths: Joint Distributions and Sampling Theory (w3)Subject-Specific: Machine Design — Bearings and Gears (w3)General Aptitude: Coding and Series Patterns (w3)Engineering-Maths: Numerical Methods — Root Finding (w3)Subject-Specific: Theory of Machines — Kinematics (w3)Engineering-Maths: Numerical Methods — Interpolation and Integration (w3)Subject-Specific: Theory of Machines — Dynamics (w3)Engineering-Maths: Numerical Methods — Linear Systems and ODEs (w3)Subject-Specific: Strength of Materials — Axial and Torsional Loading (w3)Engineering-Maths: Fourier Series and Transform Methods (w3)Subject-Specific: Strength of Materials — Beams and Columns (w3)Subject-Specific: Fluid Mechanics — Fluid Statics and Kinematics (w3)Subject-Specific: Fluid Mechanics — Flow Through Pipes and Hydraulic Machines (w3)Subject-Specific: Engineering Mechanics — Statics (w3)Subject-Specific: Engineering Mechanics — Dynamics (w3)Subject-Specific: Control Systems — Transfer Function and Block Diagrams (w3)Subject-Specific: Control Systems — Time and Frequency Response (w3)Subject-Specific: Electrical Machines — Transformers (w3)Subject-Specific: Electrical Machines — DC Machines and Induction Motors (w3)

Subject-wise topic split

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

Engineering-Maths

12 topics

Linear Algebra ●●●○○
Numerical Methods ●●●○○
Differential Equations ●●●○○
Higher Order Differential Equations ●●●○○
Partial Differential Equations ●●●○○
Complex Analysis ●●●○○
Probability and Statistics — Distributions ●●●○○
Joint Distributions and Sampling Theory ●●●○○
+ 4 more topics on the full roadmap →

Subject-Specific

20 topics

Thermodynamics — Laws and Applications ●●●○○
Thermodynamic Cycles and Steam Turbines ●●●○○
Heat Transfer — Conduction ●●●○○
Heat Transfer — Convection and Radiation ●●●○○
Manufacturing Engineering — Casting and Welding ●●●○○
Manufacturing Engineering — Machining and CNC ●●●○○
Machine Design — Stress Analysis ●●●○○
Machine Design — Bearings and Gears ●●●○○
+ 12 more topics on the full roadmap →

General Aptitude

8 topics

Number System and Simplification ●●●○○

Integers, fractions, decimals, squares and cubes, square roots, cube roots, BODMAS rule, divisibility rules, LCM and HCF, and simplification of numerical expressions — foundational arithmetic for VITEEE quantitative section.
Ratio, Proportion and Percentage ●●●○○

Ratio and proportion (direct and inverse), percentage calculations, profit and loss, discount, simple and compound interest, partnership, and mixture/alligation problems — practical arithmetic applications.
Time, Work and Distance ●●●○○

Work efficiency, pipes and cisterns, upstream/downstream problems, average speed, relative speed, train problems, and time-distance graphs — time management in work-rate and motion problems.
Data Interpretation ●●●○○

Interpretation of bar graphs, pie charts, line graphs, tables, and caselets — extracting meaningful information from data representations and making calculations based on presented figures.
Logical Venn Diagrams ●●●○○

Venn diagram representation of sets, relationship between groups (union, intersection, complement), and solving logical problems using Venn diagram visualization — spatial reasoning in set theory.
Analytical Reasoning ●●●○○

Data sufficiency, direction-based puzzles, ranking and sequencing, and complex logical deduction problems — reasoning through multi-step analytical problems without formal mathematical calculations.
Statistics and Probability Basics ●●●○○

Mean, median, mode, range, variance, standard deviation, and basic probability (coin, dice, card problems) — introductory statistical reasoning and chance calculations.
Coding and Series Patterns ●●●○○

Number series, alphabet series, alphanumeric patterns, and letter-number coding-decoding — identifying underlying patterns to find missing or next terms in sequences.

Why a 14-day plan beats a 1,200-page prep book

Dimension	Typical GATE 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 2026-05-30
Weightage signal	Author guess	Derived from last 5 years' papers
Cost	₹500–2,500	₹0
Sign-up required	Often (with a trial trap)	None

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GATE 2-Week Plan — common questions

Is 14 days enough to prepare for GATE? +

14 days is enough for one disciplined pass over the high-weight portion of GATE, not the full 40-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 GATE 2-week plan need? +

Plan for 6–8 hours of focused study, covering about 2.9 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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