# GATE EE Marks Weightage Analysis for Network Theory

By BYJU'S Exam Prep

Updated on: September 25th, 2023

GATE (Graduate Aptitude Test in Engineering) is a national-level examination conducted for admission to postgraduate courses in engineering and technology. The Electrical Engineering (EE) paper of GATE covers various topics, and Network Theory is an essential part of it. GATE EE marks weightage analysis for network theory helps the candidates to understand the type of questions asked in the upcoming GATE 2024 exam.

To score well in the Network Theory section of GATE EE, it is essential to have a clear understanding of the basic concepts, along with the ability to apply them to solve numerical problems. Practicing previous years’ question papers and mock tests can help in identifying important topics and improving time management skills. Here we are providing the detailed GATE EE marks weightage analysis for Network Theory to understand the complete weightage of this subject in the GATE exam.

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## GATE EE Marks Weightage Analysis for Network Theory

In the GATE EE Network Theory section, around 8-10, questions are asked, with each question carrying one or two marks. The questions are usually a mix of theoretical concepts and numerical problems, with a higher weightage given to numerical problems. Therefore, it is crucial to have a good understanding of the concepts and their application to solving problems. Here is the previous year’s GATE EE marks weightage analysis for network theory is described in detail.

• GATE Electrical Engineering 2023
• Paper-1 Analysis: 8 Marks
• GATE Electrical Engineering 2022
• Paper-1 Analysis: 8 Marks
• GATE Electrical Engineering 2021
• Paper-1 Analysis: 9 Marks
• Paper-2 Analysis: 9 Marks
• GATE Electrical Engineering 2020
• Paper-1 Analysis: 5 Marks
• GATE Electrical Engineering 2019
• Paper-1 Analysis: 10 Marks
• GATE Electrical Engineering 2018
• Paper-1 Analysis: 10 Marks
• GATE Electrical Engineering 2017
• Paper-1 Analysis: 7 Marks
• Paper-2 Analysis: 7 Marks
• GATE Electrical Engineering 2016
• Paper-1 Analysis: 9 Marks
• Paper-2 Analysis: 8 Marks

## Importance of the GATE EE Marks Weightage Analysis for Network Theory

The GATE EE Marks Weightage Analysis for Network Theory is important for several reasons:

1. Understanding the weightage: The marks weightage analysis provides an understanding of the relative importance of various topics within the Network Theory subject. This can help the students to allocate their study time more efficiently, by focusing on the topics with higher weightage.

2. Planning the preparation: By knowing the weightage of each topic, students can plan their preparation and revision accordingly. They can prioritize the topics based on their weightage and ensure that they are thoroughly prepared for the topics with higher weightage.

3. Identifying the strengths and weaknesses: The weightage analysis can help students to identify their strengths and weaknesses in the Network Theory subject. If a student is weak in a particular topic with high weightage, they can focus more on it and work to improve their understanding.

4. Better exam strategy: Students can also plan their exam strategy based on the weightage analysis. They can allocate their time more efficiently during the exam by focusing on the topics with higher weightage and ensuring that they do not miss out on any important topics.

Overall, the GATE EE Marks Weightage Analysis for Network Theory can be a valuable tool for students preparing for the GATE 2024 exam. It can help them to optimize their preparation and perform better in the exam.

## Important Topics For Network Theory

The GATE EE marks weightage analysis for network theory consists of a weightage of around 9-10% of the total marks. The questions in this section are primarily focused on circuit analysis, network theorems, transient response, and steady-state response of circuits. Some of the other topics covered in this section include two-port networks, resonance, coupled circuits, and filters.

• Topics covered in 2021: Transients, the basic concept of network, Maximum Power transfer theorem, Thevenin’s theorem
• Topics covered in 2020: Maximum Power transfer theorem, Thevenin’s theorem, first-order RC circuit
• Topics covered in 2019: Transients, the basic concept of network, Milliman’s theorem, capacitor charging, power calculation, and Three-phase circuits.
• Topics covered in 2018: h-Parameter, D.C. Analysis, A.C.Analysis, 3- Phase System, Ladder Network, Graph Theory, Network -Theorem.
• Topics covered in 2017: Network Solution, Transfer Function, Two-Port Network, Thevenin’s Theorem.
• Topics covered in 2016: Network Solution; Basic Networks; Dependent Source; Transient Analysis to DC input; Two-port Network; Network Topology, Star-Delta; Basic Networks; Dependent Source; Maximum Power Transfer.

We hope this analysis will be helpful to prepare Network Theory. You can also analyze the important topics of Network theory in the GATE EE exam here.

Candidates can get unlimited access to all structured live courses and mock tests to boost their preparations for ESE/GATE 2024 from the following links