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विस्तृत पाठ्यक्रम विश्लेषण देखने के लिए एक पेपर चुनें।

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Subject	Maximum Marks	No. of Questions
Civil Engineering	100	100

Note :-

Objective type question paper.
Exam Duration: 2 Hours.
All questions carry equal marks.
There will be negative marking.
Candidates are required to opt for only one subject.

Syllabus : Civil Engineering

1. Engineering Materials & Construction Technology :

Selection of site for construction of various types of buildings.
Requirements and design criteria for foundations.
Construction details of walls, masonry, floors, staircases, arches, roofs, doors and windows.
Requirements for Fire Protection, Ventilation and Air Conditioning and Acoustics.
Water supply and drainage.
Building materials: Stones, bricks, cement, lime, paints and timber.

2. Surveying :

Chain and compass surveying; leveling.
Temporary & Permanent adjustments of level instrument & Theodolite.
Use of Theodolite, Tacheometry, Triangulation and Traversing.
Contours and contouring.
Simple, Circular, compound and Transition curves and their setting outs.
Theory of Errors and Survey adjustment.
EDM Surveys, Photogrammetry and Basics of Remote Sensing.

3. Geotechnical Engineering :

Classification of soil as per I.S. Code.
Field identification tests for soils.
Water Content, specific Gravity, Void Ratio; Porosity, Degree of Saturation; Unit Weight, Density Index and their inter-relationship.
Determination of various properties of soils, grain size distribution, Atterberg's/consistency limits, etc.
Soil permeability and its determination in the laboratory and field; Darcy's Law, Flow nets-its construction and uses.
Compaction and consolidation of soil and quality control, soil stabilization methods.
New mark’s chart and its uses.
Elements of shear strength parameters and their determination.
Bearing capacity of shallow foundation, Earth pressures on retaining wall.
Stability of slopes, Pile Foundations.

4. Structural Mechanics :

Stress and Strains, Elastic constants, Factor of Safety, Relation among elastic constants.
Bending moment and shear force diagrams for cantilever, simply supported, overhanging, fixed & continuous beams subjected to static loads; concentrated, uniformly, distributed and uniformly varying loads.
Theory of simple bending.
Deflection of cantilever, simple supported, fixed and continuous beams.
Two and Three hinged arches.

5. Steel Structures :

Design of ordinary and plate girder beams.
Design of members of Roof trusses.
Rivetted and welded joints.
Axially and Eccentrically loaded columns, Grillage, Gusseted & Slab base Foundation.
Provisions of IS:800 and IS:875.

6. Reinforced Concrete Structures:

Provisions of latest IS:456.
Design of beams singly and doubly reinforced.
Design of shear reinforcement.
Design of slabs simply supported, spanning in two directions and T-beam slabs, Flat Slabs.
Design of columns axially and eccentrically loaded.
Design of isolated and combined column footings.
Design of simple RCC cantilevers and Retaining walls.
Reinforcement in overhead & Underground water tanks.
Limit state method for Design, Pre-stressed concrete.

7. Fluid Mechanics and Water Resources Engineering :

Hydraulic pressure at a point and its measurement, Buoyancy, conditions of equilibrium of floating bodies.
Fluid properties; Fluid Flow conditions; Bernoulli’s Theorem; Navier-Stokes equation.
Flow through orifices, Notches, and weirs.
Laminar & Turbulent flow through pipes, flow through open channels, Hydraulic jump.
Hydraulic turbines & pumps.
Hydrograph Analysis, Abstractions (Interception, infiltration, evaporation, and Transpiration), Floods/Drought, Frequency Analysis, Groundwater Hydrology.
Reservoirs and Dams; overflow structures, Irrigation canals, Groundwater and well Irrigation; water-logging.

8. Environmental Engineering :

Per capita requirement of water for urban and rural areas; Forecast of population.
Sources, water quality standards for public water supplies.
Various methods of purification.
Distribution network with all the ancillaries; systems of drainage.
Layout of sewerage systems; Flushing of sewers; sewage treatment; Rural sanitation.
Environmental Management aspects.
Air Pollution

9. Highway and Bridges :

Principles of highway planning; classification of Roads, Alignment, Geometric Design, Traffic Engineering.
Pavement design for flexible & rigid pavements; paving materials and highway construction, maintenance of different types of roads.
Highway drainage and Arboriculture.
Types of bridges; choice of type of bridge, Economical considerations of fixing spans, causeways & Culverts.

10. Construction Planning and Management

Functions of construction management.
Various aspects of construction project planning, project scheduling and controlling.
CPM and PERT, Project cost control.

पेपर चुनें

विस्तृत पाठ्यक्रम विश्लेषण देखने के लिए एक पेपर चुनें।

Scroll horizontally to view more

Subject	Maximum Marks	No. of Questions
Civil Engineering	100	100

Note :-

Objective type question paper.
Exam Duration: 2 Hours.
All questions carry equal marks.
There will be negative marking.
Candidates are required to opt for only one subject.

Syllabus : Civil Engineering

1. Engineering Materials & Construction Technology :

Selection of site for construction of various types of buildings.
Requirements and design criteria for foundations.
Construction details of walls, masonry, floors, staircases, arches, roofs, doors and windows.
Requirements for Fire Protection, Ventilation and Air Conditioning and Acoustics.
Water supply and drainage.
Building materials: Stones, bricks, cement, lime, paints and timber.

2. Surveying :

Chain and compass surveying; leveling.
Temporary & Permanent adjustments of level instrument & Theodolite.
Use of Theodolite, Tacheometry, Triangulation and Traversing.
Contours and contouring.
Simple, Circular, compound and Transition curves and their setting outs.
Theory of Errors and Survey adjustment.
EDM Surveys, Photogrammetry and Basics of Remote Sensing.

3. Geotechnical Engineering :

Classification of soil as per I.S. Code.
Field identification tests for soils.
Water Content, specific Gravity, Void Ratio; Porosity, Degree of Saturation; Unit Weight, Density Index and their inter-relationship.
Determination of various properties of soils, grain size distribution, Atterberg's/consistency limits, etc.
Soil permeability and its determination in the laboratory and field; Darcy's Law, Flow nets-its construction and uses.
Compaction and consolidation of soil and quality control, soil stabilization methods.
New mark’s chart and its uses.
Elements of shear strength parameters and their determination.
Bearing capacity of shallow foundation, Earth pressures on retaining wall.
Stability of slopes, Pile Foundations.

4. Structural Mechanics :

Stress and Strains, Elastic constants, Factor of Safety, Relation among elastic constants.
Bending moment and shear force diagrams for cantilever, simply supported, overhanging, fixed & continuous beams subjected to static loads; concentrated, uniformly, distributed and uniformly varying loads.
Theory of simple bending.
Deflection of cantilever, simple supported, fixed and continuous beams.
Two and Three hinged arches.

5. Steel Structures :

Design of ordinary and plate girder beams.
Design of members of Roof trusses.
Rivetted and welded joints.
Axially and Eccentrically loaded columns, Grillage, Gusseted & Slab base Foundation.
Provisions of IS:800 and IS:875.

6. Reinforced Concrete Structures:

Provisions of latest IS:456.
Design of beams singly and doubly reinforced.
Design of shear reinforcement.
Design of slabs simply supported, spanning in two directions and T-beam slabs, Flat Slabs.
Design of columns axially and eccentrically loaded.
Design of isolated and combined column footings.
Design of simple RCC cantilevers and Retaining walls.
Reinforcement in overhead & Underground water tanks.
Limit state method for Design, Pre-stressed concrete.

7. Fluid Mechanics and Water Resources Engineering :

Hydraulic pressure at a point and its measurement, Buoyancy, conditions of equilibrium of floating bodies.
Fluid properties; Fluid Flow conditions; Bernoulli’s Theorem; Navier-Stokes equation.
Flow through orifices, Notches, and weirs.
Laminar & Turbulent flow through pipes, flow through open channels, Hydraulic jump.
Hydraulic turbines & pumps.
Hydrograph Analysis, Abstractions (Interception, infiltration, evaporation, and Transpiration), Floods/Drought, Frequency Analysis, Groundwater Hydrology.
Reservoirs and Dams; overflow structures, Irrigation canals, Groundwater and well Irrigation; water-logging.

8. Environmental Engineering :

Per capita requirement of water for urban and rural areas; Forecast of population.
Sources, water quality standards for public water supplies.
Various methods of purification.
Distribution network with all the ancillaries; systems of drainage.
Layout of sewerage systems; Flushing of sewers; sewage treatment; Rural sanitation.
Environmental Management aspects.
Air Pollution

9. Highway and Bridges :

Principles of highway planning; classification of Roads, Alignment, Geometric Design, Traffic Engineering.
Pavement design for flexible & rigid pavements; paving materials and highway construction, maintenance of different types of roads.
Highway drainage and Arboriculture.
Types of bridges; choice of type of bridge, Economical considerations of fixing spans, causeways & Culverts.

10. Construction Planning and Management

Functions of construction management.
Various aspects of construction project planning, project scheduling and controlling.
CPM and PERT, Project cost control.

Vice Principal / Superintendent ITI ( Technical Education Department )

Vice Principal / Superintendent ITI ( Technical Education Department )

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