The preparation of civil engineering examinations, such as examining engineering services (ESE), requires in -depth understanding of the model and the examination program. Here is a detailed ventilation of the ESE examination program to help you sail in your preparation:
Examination plan
The exam is carried out in three stages:
- IS internship: preliminary examination (type of objective)
- II internship: main examination (conventional type)
- II internship: Personality test
IS internship: preliminary examination
The preliminary examination consists of two objective type documents:
- Paper-I: general studies and engineering aptitude
- Duration: 2 hours
- Brands: 200
- Paper-II: civil engineering
- Duration: 3 hours
- Brands: 300
Total brands: 500
Note: There is a penalty for bad answers. For each incorrect answer, a third party (1/3) of the notes attributed to this question will be deduced.
Step-II: Main examination
The main examination consists of two conventional documents specific to civil engineering:
- Paper-i: civil engineering
- Duration: 3 hours
- Brands: 300
- Paper-II: civil engineering
- Duration: 3 hours
- Brands: 300
Total brands: 600
II internship: Personality test
- Personality test
- Brands: 200
ESE exam syllabus
General studies and engineering aptitude (stage I, article I)
- Current problems of national and international importance
- Social, economic and industrial development.
- Aptitude in genius
- Logical reasoning and analytical capacity.
- Engineering mathematics and digital analysis
- General principles of design, drawing and importance of security
- Quality standards and practices
- Production, construction, maintenance and services.
- Energy and environmental bases
- Conservation, environmental pollution and degradation, climate change, evaluation of the environmental impact.
- Bases of project management
- Bases of materials and engineering science
- Information and communication technologies (ICT)
- Networking, electronic government, technology -based education.
- Ethics and values in the engineering profession
Note: The document will include questions from all subjects above, with notes for each subject ranging from 5% to 15% of total notes.
Detailed syllabus for civil engineering
Paper i
- Building materials
- Stone, lemon, glass, plastic, steel, FRP, ceramic, aluminum, flying ash, basic adjuvants, wood, bricks and aggregates: classification, selection properties and criteria.
- Cement: types, composition, properties, uses, specifications and various tests.
- Lemon and cement and concrete mortars: properties and various tests.
- Concrete mixtures design: proportion of aggregates and mixing methods of the mixture.
- Solid mechanics
- Elastic constants, constraint, flat stress, strains, flat deformation, circle of Mohr's constraint and deformation, elastic theories of failure, main stresses, flexion, shear and torsion.
- Structural analysis
- Materials' resistance bases, types of stresses and strains, flexion moments and shear force, flexion concept and shear stresses.
- Analysis of determined and indeterminate structures: farms, beams, plan frames.
- Rolling charges, lines of influence, unit load method and other methods.
- Free and forced vibrations of unique degree and multi-degree systems.
- Cables, suspension concepts and use of computer assisted design (CAD).
- Steel structure design
- Principles of working constraint methods, design of tension and compression elements, design of beam beam and beam connections, built sections, beams, industrial roofs.
- Principles of the design of the ultimate load.
- Concrete and masonry structures design
- Limit the conception of the state for flexion, shear, axial compression and combined forces.
- Design of beams, slabs, lintels, foundations, retaining walls, tanks, stairs.
- Principles of pre-stated concrete design, including materials and methods.
- Design resistant to earthquakes of structures.
- Design of masonry structures.
- Construction, planning and management practice
- Construction planning, equipment, site survey and management.
- Estimate with the latest project management tools and network analysis for different types of works.
- Analysis of the rates of different types of works.
- Tender process and contract management.
- Quality control, productivity, operating cost.
- Acquisition of land, labor security and well-being.
Document II
- Flower of liquids, hydraulic machines and hydroelectric power
- Fluid mechanics, open channel flow, pipe flow:
- Fluid properties, dimensional analysis, fluid dynamics, cutting kinematics, viscosity, boundary layer, drag, elevator, flow principles of open channels, hydraulic jump, overvoltages, pipe networks.
- Hydraulic machines and hydroelectric power:
- Various pumps, air ships, hydraulic turbines, layout of the electric house, storage, dipper, power control.
- Fluid mechanics, open channel flow, pipe flow:
- Hydrology and water resources engineering
- Hydrological cycle, groundwater hydrology, well hydrology, watercourse gauge, river morphology, flood management and drought, capacity of tanks.
- Water resources engineering: versatile water uses, river basins, irrigation systems, water demand assessment, water journalization, design of channel and drainage, severity dams, spills, energy dissipators, dam distribution work, transversal drainage work, channel design, river formation, precipitation measure.
- 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.
- Wastewater engineering:
- Planning and design of domestic wastewater, provision of the sewer system, sludge management, industrial wastewater treatment.
- Solid waste management:
- Sources of solid waste and classification, design of the management system, elimination, beneficial aspects.
- Air, sound pollution and ecology:
- Concepts and general methodology.
- Water supply engineering:
- Geo-technical engineering and foundations engineering
- Geo-technical engineering:
- The exploration of the soil, the properties of the soil, the permeability, the oozing, the compressibility, the consolidation, the resistance to shear, the theories of the pressure of the earth, the geo-synthesis.
- Foundation engineering:
- Types of foundations, bearing capacity, analysis of regulations, design of shallow and deep foundations, slope stability, earth repayments, dams, earth restraint structures, soil modifications.
- Geo-technical engineering:
- Surveying and geology
- Survey:
- Classification of the study, methodologies, instruments, distance measurement, elevation, directions, field astronomy, GPS, cards preparation, photogrammetry, remote sensing, disposition of studies for infrastructure projects.
- Geology:
- Basic geology of engineering and its applications.
- Survey:
- Transport engineering (Following)
- Railway systems:
- Terminology: Understand the basic terms used in rail engineering.
- Planning: Complete rail systems planning, including selection of routes and alignment.
- Designs: Detailed design of the railways, stations and associated infrastructure.
- Maintenance practices: Regular maintenance procedures to ensure the safety and efficiency of rail operations.
- Modernization of the track: Upgrading of existing tracks to accommodate higher speeds and heavier loads, incorporating modern technologies.
- Presses:
- Terminology: Familiarity with the terms used in the engineering port.
- Provision and planning: Design the provision of ports, including the layout of quays, batteries and other installations.
- Planning: Strategic planning for the development and expansion of port facilities to manage the increase in maritime traffic.
- Airports:
- Layout: Design the layout of airport installations, including tracks, traffic lanes, terminals and support buildings.
- Planning: Complete airport development planning, considering factors such as passenger flow, goods handling and safety regulations.
- Railway systems:
Design: Detailed design of the airport infrastructure to ensure effective and safe operations.
Conclusion
This concludes the detailed program of the ESE exam. By understanding and mastering these subjects, you will be well prepared to meet the challenges of the engineering services (ESE) and other competitive examinations in the field of civil engineering.
Good luck with your preparation! If you have any other questions or if you need additional help, do not hesitate to contact you.
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