This article will mainly focus on the Most Scoring Subject for GATE EE 2026. It will also show the Subject-wise breakdown. Students who want to work at PSUs or pursue further education must take the GATE exam. Understanding the subject-wise weighting for GATE EE 2026 is crucial for this test to properly prepare and arrange your studies. By examining the weighting, candidates can plan their study time based on the GATE 2026 subjects that yield the highest scores.
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This guarantees a well-rounded preparation that improves students’ chances of doing well on the GATE 2026 exam (scheduled on February 7, 8, 14, and 15, 2026) by allowing them to focus more time and effort on more important areas. The dates of the GATE 2026 exam are February 7, 8, 14, and 15, 2026.
Most Scoring Subject for GATE EE 2026: Subject‑wise Breakdown
With its extensive curriculum, extreme calculations, and tough competition, GATE Electrical Engineering (EE) preparation can seem overwhelming. However, understanding where to concentrate is the first step in effective preparation. To assist you in making a strategic plan, we will break down the most crucial subjects and high-weightage themes based on the GATE analysis over the previous five years in this guide.
This organized plan will help you make the most of your remaining days if you’re wondering how to get ready for GATE EE 2026.
GATE 2026 EE: Syllabus
Other crucial and important information about the GATE 2026 EE Exam has been released in the official GATE 2026 announcement. The GATE 2026 electrical engineering curriculum includes 10 syllabus or disciplines, including:
- Engineering Mathematics
- Electric circuits
- Electrical and Electronic Measurements
- Analog and Digital Electronics
- Power Electronics
- Electrical Machines
- Power Systems
- Electromagnetic Fields
- Signals and Systems
- Control Systems
We’ll go into more detail about each subject’s principles later in the blog, each of which has a distinct weight. All EE candidates are strongly encouraged to go through the below article to view the GATE EE detailed curriculum, since this will help them plan their preparation.
GATE EE Subject-wise Weightage: Last 5 Years
The major subjects for GATE EE are Analog and Digital Electronics, Control Systems, Electrical and Electronic Measurements, Electric Circuits, Electromagnetic Fields, Electrical Machines, Power Electronics, Signals and Systems, and Power Systems. All these subjects have their own weightage and importance. Students should refer to the table below to understand which chapter covers the major part. The table below shows the subject-wise breakdown for the last 5 years for the GATE EE.
| Chapter Name | 2025 | 2024 | 2023 | 2022 | 2021 | Total of 5 years | Weightage |
|---|---|---|---|---|---|---|---|
| Analog and Digital Electronics | 15 | 13 | 12 | 12 | 6 | 58 | 18.41 % |
| Aptitude | 10 | 10 | 10 | 10 | 10 | 50 | 15.87 % |
| Control Systems | 6 | 6 | 6 | 6 | 6 | 30 | 9.52 % |
| Electric Circuits | 7 | 6 | 5 | 5 | 4 | 27 | 8.57 % |
| Electrical and Electronic Measurements | 7 | 9 | 9 | 9 | 8 | 42 | 13.33 % |
| Electrical Machines | 5 | 3 | 3 | 3 | 3 | 17 | 5.40 % |
| Electromagnetic Fields | 1 | 2 | 2 | 2 | 2 | 9 | 2.86 % |
| Engineering Mathematics | 2 | 3 | 3 | 3 | 2 | 13 | 4.13 % |
| Power Electronics | 1 | 2 | 3 | 3 | 5 | 14 | 4.44 % |
| Power Systems | 7 | 5 | 6 | 6 | 7 | 31 | 9.84 % |
| Signals and Systems | 4 | 6 | 6 | 6 | 2 | 24 | 7.62 % |
| Grand Total | 65 | 65 | 65 | 65 | 55 | 315 | 100.00 % |
From the above table its very clear that the most scoring subject under the GATE Electrical engineering is Analog and Digital Electronics as it constitutes for 18.41% weightage, next is Electrical and Electronic Measurements, that constitutes for 13.33%, and then comes the Control Systems, that constitutes for 9.52%, followed by Electric Circuits, that constitutes for 8.57%. For rest other subjects, check the weightage in the above table.
GATE EE Subject-wise Weightage: Important Topics
After aptitude, arithmetic has the highest weight among the specialized disciplines of EE, according to a thorough analysis conducted by subject matter experts. The next high-weighted topics are signals and systems and communication systems.
| Subject | Chapter | Repeated Topics |
|---|---|---|
| Electrical Machines | Transformers | OC & SC test, Voltage Regulation, Efficiency |
| Electrical Machines | DC Machines | Torque equation, Characteristics, Losses |
| Electrical Machines | Induction Machines | Slip & torque relation, Starting methods, Power flow diagram |
| Electrical Machines | Synchronous Machines | EMF equation, Voltage regulation, Power-angle characteristics |
| Power Systems | Power Generation | Thermal & hydro plant layout, Cost of generation |
| Power Systems | Transmission & Distribution | Ferranti effect, Corona loss, Transmission efficiency |
| Power Systems | Fault Analysis | Symmetrical faults, Unsymmetrical faults, Sequence components |
| Power Systems | Stability | Swing equation, Equal area criterion, Transient stability |
| Power Electronics | Converters | Single-phase controlled rectifier, Three-phase rectifier, Firing angle control |
| Power Electronics | Choppers | Step-up & step-down operation, Control strategies |
| Power Electronics | Inverters | PWM techniques, Voltage control, Harmonics |
| Control Systems | Time Domain Analysis | Step response, Time constant, Steady-state error |
| Control Systems | Frequency Domain Analysis | Bode plot, Phase margin, Gain margin |
| Control Systems | Stability Analysis | Nyquist criterion, Root locus concepts |
| Signals & Systems | Fourier Analysis | Fourier series, Fourier transform |
| Signals & Systems | Laplace Transform | Initial & final value theorem, Transfer function derivation |
| Signals & Systems | Sampling & Convolution | Sampling theorem, Convolution properties |
| Electrical & Electronic Measurements | Measurement Devices | PMMC, Moving iron instruments, Wattmeter |
| Electrical & Electronic Measurements | Bridges | Wheatstone bridge, Maxwell’s bridge, Schering bridge |
| Analog Electronics | Amplifiers | Common-emitter characteristics, Feedback amplifiers |
| Analog Electronics | Oscillators | Wien bridge oscillator, Phase-shift oscillator |
| Digital Electronics | Logic Gates & Boolean Algebra | Logic simplification, K-map |
| Digital Electronics | Sequential Circuits | Flip-flops, Counters, Shift registers |
| Electromagnetic Theory | Transmission Lines | Characteristic impedance, Reflection coefficient |
| Electromagnetic Theory | Waveguides & Antennas | Rectangular waveguides, Antenna parameters |
| Engineering Mathematics | Linear Algebra | Eigenvalues & eigenvectors, Matrix inversion |
| Engineering Mathematics | Calculus | Maxima-minima, Partial derivatives |
| Engineering Mathematics | Probability & Statistics | Mean & variance, Probability distributions |
FAQs on the Most Scoring Subject for GATE EE 2026
What should I concentrate on for GATE EE 2026’s Electromagnetic Fields course?
Pay attention to wave propagation, electromagnetic radiation, Maxwell’s equations, electrostatics, and magnetostatics.
Which Signals and Systems topics are most important for GATE EE 2026?
Signal analysis, Fourier and Laplace transforms, system response, and filter design are important topics, according to patterns from prior years.
Which subjects are most anticipated for GATE 2026 Electrical Engineering?
Engineering mathematics, electrical machines, power systems, and control systems.
What is the best way for EE toppers to prepare for GATE 2026?
In order to preserve consistency in daily problem-solving and mock analysis, Toppers advise developing three phases: concept clarity, practice, and revision.
What constitutes a good GATE EE score?
The goal for an electrical engineer is to achieve more than 75 on the GATE EE exam.
How challenging is the GATE EE paper?
The majority of GATE EE papers are moderate to challenging.
Do the GATE exam questions repeat?
No, the GATE exam does not repeat the exact questions, however the question format may be comparable.
How can I do well on the GATE EE exam?
To do well on the GATE EE exam, it is crucial to have a well-thought-out study plan in addition to commitment and persistence.
