AEGCL Assistant Manager Syllabus and Exam Pattern 2025

The official syllabus and exam pattern for the hiring of Assistant Managers (AM) in the fields of electrical, mechanical, IT, and civil engineering have been made public by the Assam Electricity Grid Corporation Limited (AEGCL). This is a significant chance for candidates hoping to land a job in the electricity industry in Assam. Success requires an understanding of the content and exam format. The AEGCL AM syllabus, test format, and study techniques are all thoroughly included in this article.

Overview

Stage	Description	Applicability
Written Examination	A traditional written exam covering General Studies and Engineering Discipline	All candidates
Interview	A structured interview assessing personality and technical knowledge	Shortlisted candidates from the written exam
Document Verification	Verification of educational qualifications, identity, and other relevant documents	Candidates who have cleared the interview

AEGCL AM Selection Stages Breakdown

Written Examination:

A pen-and-paper-based written test will assess candidates on:

• General Knowledge, English, General Aptitude & Emotional Intelligence, and Core Engineering Discipline (Electrical/Mechanical/Civil).
• The exam will consist of Multiple-Choice Questions (MCQs).

Interview:

Candidates who qualify for the written examination will be shortlisted for the interview, where their technical expertise, problem-solving abilities, and personality traits will be assessed.

Document Verification:

Candidates who pass the interview must submit original documents validating their academic qualifications, identity proof, and any other relevant certifications.

Exam Pattern for Assistant Manager (Electrical, Mechanical & Civil)

Section	No. of Questions	Marks
Core Engineering Discipline (Electrical/Mechanical/Civil)	100	100
General Aptitude & Emotional Intelligence	50	50
General English	25	25
General Knowledge	25	25
Total	200	200

• Duration: 2 hours
• Negative Marking: 1/4th mark deducted for each incorrect answer.

AEGCL AM Syllabus

General Aptitude & Emotional Intelligence

• General Aptitude
  • Time & Distance
  • Series
  • Analogy
  • Statement & Direction-Based Questions
• Logical Reasoning
  • Verbal and Non-Verbal Reasoning
  • Puzzles
  • Blood Relations
  • Coding-Decoding
• Emotional Intelligence
  • Understanding Emotional Intelligence
  • Personality and EQ
  • Models of Emotional Intelligence
  • Social Intelligence
  • Workplace Emotional Intelligence

General English

• Sentence Completion & Improvement
  • Correct usage of words and grammar
• Ordering of Words in a Sentence
  • Arranging words logically to form meaningful sentences
• Spotting Errors
  • Identifying grammatical and syntactical errors in sentences
• Synonyms & Antonyms
  • Vocabulary-building exercises
• Idioms & Phrases
  • Commonly used phrases and their meanings
• Fill in the Blanks
  • Sentence completion based on grammar rules

General Knowledge

• Current Affairs
  • National & International Events
  • Government Schemes
  • Important Summits
• Who’s Who
  • Important personalities in politics, sports, arts, and science
• Sports
  • Major national and international sporting events and achievements
• Books and Authors
  • Famous books and their authors
• Awards and Honours
  • Prestigious awards in various fields
• Science Inventions & Discoveries
  • Major scientific advancements and technological innovations
• Abbreviations
  • Commonly used abbreviations and their meanings

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Core Engineering Subjects

1. Electrical Engineering Syllabus

Network Elements

• Ideal Voltage and Current Sources
• Dependent Sources
• R, L, C, M Elements

Network Solution Methods

• KCL (Kirchhoff’s Current Law)
• KVL (Kirchhoff’s Voltage Law)
• Node and Mesh Analysis
• Network Theorems:
  • Thevenin’s Theorem
  • Norton’s Theorem
  • Superposition Theorem
  • Maximum Power Transfer Theorem

Electromagnetic Fields

• Coulomb’s Law, Electric Field Intensity
• Gauss’s Law
• Electric Potential
• Biot-Savart’s Law
• Ampere’s Law
• Faraday’s Law
• Lorentz Force

Signals and Systems

• Continuous and Discrete Time Signals
• Fourier Series
• Laplace Transform
• Z-Transform

Electrical Machines

• Transformers
• DC Machines
• Induction Motors
• Synchronous Machines
• Losses and Efficiency Calculations

Power Systems

• Power Generation
• AC & DC Transmission
• Load Flow Analysis
• Fault Analysis
• Circuit Breakers
• System Stability

Control Systems

• Transfer Functions
• Block Diagrams
• Stability Analysis:
  • Routh-Hurwitz Criterion
  • Nyquist Criterion
  • Bode Plot
• PID Controllers

Electrical and Electronic Measurements

• Measurement of Voltage
• Measurement of Current
• Measurement of Power
• Measurement of Energy
• Measurement of Power Factor
• Digital Voltmeters
• Oscilloscopes

Power Electronics

• Thyristors
• MOSFET
• IGBT
• DC-DC Converters
• Rectifiers
• Inverters

2. Mechanical Engineering

Engineering Mechanics

• Free-body Diagrams
• Equilibrium
• Trusses
• Frames
• Work and Energy
• Impulse and Momentum
• Drawing FBD for a beam under different load conditions

Strength of Materials

• Stress and Strain
• Elastic Constants
• Mohr’s Circle
• Bending Moment
• Shear Force
• Calculating stress in a supported beam

Thermodynamics

• Laws of Thermodynamics
• Entropy
• Gas Power Cycles
• Refrigeration & Air Conditioning
• Finding the thermal efficiency of an Otto cycle

Fluid Mechanics

• Fluid Statics
• Fluid Kinematics
• Fluid Dynamics
• Bernoulli’s Equation
• Flow through Pipes
• Applying Bernoulli’s equation to determine fluid velocity

Heat Transfer

• Conduction
• Convection
• Radiation
• Heat Exchangers
• Calculating heat loss in a finned surface

Manufacturing Processes

• Casting
• Welding
• Machining
• Forming
• CNC Machining
• Identifying suitable machining processes for a given material

Machine Design

• Shafts
• Bearings
• Brakes
• Clutches
• Gears
• Designing a shaft based on torsional stress analysis

Industrial Engineering

• PERT & CPM
• Quality Control
• Inventory Management
• Creating a CPM network for a project schedule

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3. Civil Engineering

Structural Engineering

• Strength of Materials
• RCC Design
• Steel Structures
• Designing a reinforced concrete beam

Geotechnical Engineering

• Soil Mechanics
• Foundations
• Slope Stability
• Determining soil bearing capacity using standard penetration test (SPT) data

Water Resources

• Fluid Mechanics
• Hydraulics
• Irrigation Engineering
• Calculating flow rate in an open channel

Environmental Engineering

• Water & Wastewater Treatment
• Solid Waste Management
• Designing a basic wastewater treatment system

Transportation Engineering

• Highway Design
• Traffic Engineering
• Pavement Design
• Determining traffic density using speed-flow relationship

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4. Information Technology

Section 1: Digital Logic

• Boolean Algebra
• Combinational and Sequential Circuits
• Minimization Techniques
• Number Representations and Computer Arithmetic (Fixed and Floating Point)

Section 2: Computer Organization and Architecture

• Machine Instructions and Addressing Modes
• ALU, Data Path, and Control Unit
• Instruction Pipelining and Pipeline Hazards
• Memory Hierarchy (Cache, Main Memory, Secondary Storage)
• I/O Interface (Interrupt and DMA Mode)

Section 3: Programming and Data Structures

• Programming in C
• Recursion
• Data Structures:
  • Arrays
  • Stacks
  • Queues
  • Linked Lists
  • Trees
  • Binary Search Trees
  • Binary Heaps
  • Graphs

Section 4: Algorithms

• Searching & Sorting Algorithms
• Hashing
• Asymptotic Worst-Case Time & Space Complexity
• Algorithm Design Techniques:
  • Greedy Algorithms
  • Dynamic Programming
  • Divide-and-Conquer
• Graph Algorithms:
  • Graph Traversals
  • Minimum Spanning Trees
  • Shortest Path Algorithms

Section 5: Theory of Computation

• Regular Expressions & Finite Automata
• Context-Free Grammars & Push-Down Automata
• Regular & Context-Free Languages
• Pumping Lemma
• Turing Machines & Undecidability

Section 6: Compiler Design

• Lexical Analysis
• Parsing
• Syntax-Directed Translation
• Runtime Environments
• Intermediate Code Generation
• Local Optimization
• Data Flow Analysis:
  • Constant Propagation
  • Liveness Analysis
  • Common Subexpression Elimination

Section 7: Operating Systems

• System Calls
• Processes & Threads
• Inter-Process Communication
• Concurrency & Synchronization
• Deadlock Handling
• CPU & I/O Scheduling
• Memory Management & Virtual Memory
• File Systems

Section 8: Databases

• ER Model
• Relational Model:
  • Relational Algebra
  • Tuple Calculus
  • SQL
• Integrity Constraints
• Normalization & Normal Forms
• File Organization & Indexing (B-Trees & B+ Trees)
• Transactions & Concurrency Control

Section 9: Computer Networks

• Concept of Layering: OSI & TCP/IP Protocol Stacks
• Packet, Circuit, and Virtual Circuit Switching
• Data Link Layer:
  • Framing
  • Error Detection
  • Medium Access Control
  • Ethernet Bridging
• Routing Protocols:
  • Shortest Path
  • Flooding
  • Distance Vector
  • Link State Routing
• IP Addressing:
  • IPv4 & CIDR Notation
  • Fragmentation
  • IP Support Protocols (ARP, DHCP, ICMP)
  • Network Address Translation (NAT)
• Transport Layer:
  • Flow Control & Congestion Control
  • UDP & TCP
  • Sockets
• Application Layer Protocols:
  • DNS
  • SMTP
  • HTTP
  • FTP
  • Email

Information Technology Syllabus PDF Download

How to Create the Perfect Study Plan for AEGCL AM Exams

1. Create a Timetable Based on Subject Weightage & Difficulty

Not all subjects require the same amount of time. Identify high-weightage topics and difficult subjects, then allocate more time to them. A balanced timetable ensures you cover everything without feeling overwhelmed.

2. Focus on Weak Areas First

It’s tempting to study topics you’re already good at, but true progress comes from working on your weaknesses. Identify difficult subjects early on and dedicate extra time to mastering them. Gradually, you’ll turn them into your strengths!

3. Take Regular Breaks to Avoid Burnout

Studying non-stop can be counterproductive. Short breaks between study sessions help refresh your mind and improve retention. Try the Pomodoro technique—study for 50 minutes, then take a 10-minute break.

4. Practice with Past Year Papers & Mock Tests

Time management is crucial in any exam. Solve previous years’ papers and take mock tests regularly. This helps you get familiar with the exam pattern, improve speed, and boost confidence before the actual test.

Interview, and Document Verification

Interview

• Maximum Marks: 50
• Minimum Qualifying Marks: 25
• Shortlisting Ratio: 4 times the number of vacancies.

Document Verification Details

Document	Purpose
Educational Certificates	Verify Qualification Eligibility
Identity Proof (Aadhaar, PAN, etc.)	Confirm Identity and Personal Details
Caste Certificate (if applicable)	Validate Claims for Reserved Categories
PwBD Certificate (if applicable)	Ensure Proper Categorization for PwBD Candidates

Recommended Books and Resources

Topic	Recommended Book
General Awareness	Lucent’s General Knowledge, Pratiyogita Darpan
Reasoning	R.S. Aggarwal’s “A Modern Approach to Verbal & Non-Verbal Reasoning”
Engineering (Electrical)	Electrical Engineering by J.B. Gupta
Engineering (Mechanical)	Mechanical Engineering by R.K. Bansal
Engineering (Civil)	Civil Engineering by S.K. Duggal

Important Links

Resource	Link
Official Website	Click Here

FAQs

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