Preparing for the Civil Engineering exams, such as the Engineering Services Examination (ESE), requires a thorough understanding of the exam pattern and syllabus. Here’s a detailed breakdown of ESE exam syllabus to help you navigate your preparation:
Plan of Examination
The examination is conducted in three stages:
- Stage-I: Preliminary Examination (Objective Type)
- Stage-II: Main Examination (Conventional Type)
- Stage-III: Personality Test
Stage-I: Preliminary Examination
The Preliminary Examination consists of two objective-type papers:
- Paper-I: General Studies and Engineering Aptitude
- Duration: 2 hours
- Marks: 200
- Paper-II: Civil Engineering
- Duration: 3 hours
- Marks: 300
Total Marks: 500
Note: There is a penalty for wrong answers. For each incorrect answer, one-third (1/3rd) of the marks assigned to that question will be deducted.
Stage-II: Main Examination
The Main Examination consists of two conventional-type papers specific to Civil Engineering:
- Paper-I: Civil Engineering
- Duration: 3 hours
- Marks: 300
- Paper-II: Civil Engineering
- Duration: 3 hours
- Marks: 300
Total Marks: 600
Stage-III: Personality Test
- Personality Test
- Marks: 200
ESE Exam Syllabus
General Studies and Engineering Aptitude (Stage-I, Paper I)
- Current Issues of National and International Importance
- Social, economic, and industrial development.
- Engineering Aptitude
- Logical reasoning and analytical ability.
- Engineering Mathematics and Numerical Analysis
- General Principles of Design, Drawing, and Importance of Safety
- Standards and Quality Practices
- Production, construction, maintenance, and services.
- Basics of Energy and Environment
- Conservation, environmental pollution and degradation, climate change, environmental impact assessment.
- Basics of Project Management
- Basics of Material Science and Engineering
- Information and Communication Technologies (ICT)
- Networking, e-governance, technology-based education.
- Ethics and Values in Engineering Profession
Note: The paper will include questions from all the above topics, with marks for each topic ranging from 5% to 15% of the total marks.
Detailed Syllabus for Civil Engineering
Paper I
- Building Materials
- Stone, Lime, Glass, Plastics, Steel, FRP, Ceramics, Aluminum, Fly Ash, Basic Admixtures, Timber, Bricks, and Aggregates: Classification, properties, and selection criteria.
- Cement: Types, composition, properties, uses, specifications, and various tests.
- Lime & Cement Mortars and Concrete: Properties and various tests.
- Design of Concrete Mixes: Proportioning of aggregates and methods of mix design.
- Solid Mechanics
- Elastic constants, stress, plane stress, strains, plane strain, Mohr’s circle of stress and strain, elastic theories of failure, principal stresses, bending, shear, and torsion.
- Structural Analysis
- Basics of strength of materials, types of stresses and strains, bending moments and shear force, concept of bending and shear stresses.
- Analysis of determinate and indeterminate structures: Trusses, beams, plane frames.
- Rolling loads, influence lines, unit load method, and other methods.
- Free and forced vibrations of single degree and multi-degree freedom systems.
- Suspended cables, concepts, and use of Computer-Aided Design (CAD).
- Design of Steel Structures
- Principles of working stress methods, design of tension and compression members, design of beams and beam-column connections, built-up sections, girders, industrial roofs.
- Principles of ultimate load design.
- Design of Concrete and Masonry Structures
- Limit state design for bending, shear, axial compression, and combined forces.
- Design of beams, slabs, lintels, foundations, retaining walls, tanks, staircases.
- Principles of pre-stressed concrete design including materials and methods.
- Earthquake-resistant design of structures.
- Design of masonry structures.
- Construction Practice, Planning, and Management
- Construction planning, equipment, site investigation, and management.
- Estimation with the latest project management tools and network analysis for different types of works.
- Analysis of rates of various types of works.
- Tendering process and contract management.
- Quality control, productivity, operation cost.
- Land acquisition, labor safety, and welfare.
Paper II
- Flow of Fluids, Hydraulic Machines, and Hydro Power
- Fluid Mechanics, Open Channel Flow, Pipe Flow:
- Fluid properties, Dimensional Analysis, Fluid dynamics, Flow kinematics, Viscosity, Boundary layer, Drag, Lift, Open channel flow principles, Hydraulic jump, Surges, Pipe networks.
- Hydraulic Machines and Hydro Power:
- Various pumps, Air vessels, Hydraulic turbines, Power house layout, Storage, Pondage, Control of supply.
- Fluid Mechanics, Open Channel Flow, Pipe Flow:
- Hydrology and Water Resources Engineering
- Hydrological cycle, Groundwater hydrology, Well hydrology, Stream gauging, River morphology, Flood and drought management, Reservoir capacity.
- Water Resources Engineering: Multipurpose water uses, River basins, Irrigation systems, Water demand assessment, Water logging, Canal and drainage design, Gravity dams, Weirs, Energy dissipaters, Barrage distribution works, Cross drainage works, Canal design, River training, Rainfall measurement.
- Environmental Engineering
- Water Supply Engineering:
- Water sources, Estimation, Quality standards, Water treatment, Rural and industrial water supply, Pollutants, Drinking water standards, Water treatment plants, Distribution networks.
- Waste Water Engineering:
- Domestic wastewater planning and design, Sewerage system layout, Sludge management, Industrial wastewater treatment.
- Solid Waste Management:
- Solid waste sources and classification, Management system design, Disposal, Beneficial aspects.
- Air, Noise Pollution, and Ecology:
- Concepts and general methodology.
- Water Supply Engineering:
- Geo-technical Engineering and Foundation Engineering
- Geo-technical Engineering:
- Soil exploration, Soil properties, Permeability, Seepage, Compressibility, Consolidation, Shearing resistance, Earth pressure theories, Geo-synthetics.
- Foundation Engineering:
- Foundation types, Bearing capacity, Settlement analysis, Shallow and deep foundation design, Slope stability, Earthen embankments, Dams, Earth retaining structures, Ground modifications.
- Geo-technical Engineering:
- Surveying and Geology
- Surveying:
- Survey classification, Methodologies, Instruments, Distance measurement, Elevation, Directions, Field astronomy, GPS, Map preparation, Photogrammetry, Remote sensing, Survey layout for infrastructure projects.
- Geology:
- Basic engineering geology and its applications.
- Surveying:
- Transportation Engineering (continued)
- Railways Systems:
- Terminology: Understanding the basic terms used in railway engineering.
- Planning: Comprehensive planning of railway systems, including route selection and alignment.
- Designs: Detailed design of railway tracks, stations, and associated infrastructure.
- Maintenance Practices: Regular maintenance procedures to ensure the safety and efficiency of railway operations.
- Track Modernization: Upgrading existing tracks to accommodate higher speeds and heavier loads, incorporating modern technologies.
- Harbours:
- Terminology: Familiarity with the terms used in harbour engineering.
- Layouts and Planning: Designing the layout of harbours, including the arrangement of docks, piers, and other facilities.
- Planning: Strategic planning for the development and expansion of harbour facilities to handle increasing maritime traffic.
- Airports:
- Layout: Designing the layout of airport facilities, including runways, taxiways, terminals, and support buildings.
- Planning: Comprehensive planning for airport development, considering factors such as passenger flow, cargo handling, and safety regulations.
- Railways Systems:
Design: Detailed design of airport infrastructure to ensure efficient and safe operations.
Conclusion
This concludes the detailed ESE exam syllabus. By understanding and mastering these topics, you will be well-prepared to tackle the challenges of the Engineering Services Examination (ESE) and other competitive exams in the field of civil engineering.
Best of luck with your preparation! If you have any more questions or need further assistance, feel free to reach out.