RPSC Assistant Engineer Civil/ Mechanical Syllabus 2015 Rajasthan PSC Assistant Engineer Ground Water Department Latest Exam Pattern and Syllabus RPSC Assistant Engineer Mechanical & Civil Scheme of Exam and Syllabus
RPSC AE Ground Water Deptt Exam Syllabus 2015
LATEST UPDATE FOR THIS POST:- Written exam for the Post of Assistant Engineer in RPSC Ground Water Department will be conducted only in English Language. Latest Exam Scheme & Syllabus is available Now. Check Syllabus below………..
Rajasthan Public Service Commission (RPSC) will conduct a Written exam for recruitment of Assistant Engineer (Mechanical) for Ground Water Department. Those applied candidates who are ignoramus about the scheme/pattern and syllabi of this written exam and worry about their preparations. They may get the latest prescribed exam pattern and syllabus for the exam of Assistant Engineer (Mechanical) from here.
Exam Pattern : Exam Pattern for the Assistant Engineer (Mechanical) written Exam is as Follows:-
► Written Exam will be Multiple Choice Objective Type.
► The Question Paper consists of 100 Questions and 100 marks.
► There will also be negative marking for every wrong answer.
► The Duration of Test is 02 (Two) Hours (120Minutes).
► The Question Paper consists of 100 Questions and 100 marks.
► There will also be negative marking for every wrong answer.
► The Duration of Test is 02 (Two) Hours (120Minutes).
Exam Syllabus : Exam Syllabus for RPSC Assistant Engineer written Exam is given below:-
FLUID MECHANICS AND FLUID MACHINERY :
Continuity equation, Bernoulli’s theorem. Flow through pipes, Laminar and turbulent flow. Concept of boundary, layer. Flow through convergent divergent nozzle. Normal shock. Measurement of flow by venturimeter, orifice meter, V-notch and pitot tube. Hydraulic turbines, Pelton, Francis and Kaplan turbines, centrifugal and reciprocating pumps, performance characteristics. Cavitations, Aerodynamic design of blades, Axial flow Compressors and pumps.
HEAT TRANSFER AND POWER PLANT :
One dimensional steady state, conduction through walls and cylinders. Fins, concept of thermal boundary layer, Convection, Heat transfer coefficient, combined heat transfer coefficient, Heat exchangers. Heat transfer by radiation between black surfaces. Fundamentals of thermal, hydraulic and Nuclear power plants. Introduction to Non-conventional sources of energy like solar, wind, geo thermal, ocean etc.
MACHINE DESIGN :
Design of machine elements subjected to direct stresses like fastenings. Design of members in bending like beams, laminated springs. Design of members subjected to eccentric load. Design of members in torsion like shafts, couplings. Design of thin cylinders. Theories of failure, Elastic and plastic deformations, Material selection, Heat treatment process, fatigue, fracture.
INDUSTRIAL ENGINEERING :
Principles of Scientific management. Human behaviours in organization concept of motivation, Recruitment, training, placement and performance appraisal of industrial personnel. Incentive Schemes. Manufacturing accounts, Balance Sheet, Analysis of financial statements. Method and time study. Introduction to supply-Chain Management.
PRODUCTION AND OPERATIONS RESEARCH :
Product design and cost selection of manufacturing processes and systems. Break even analysis, Operation and flow process charts, Plant Location and Plant layout, materials handling, scheduling, dispatching and routing. Operations research methods for inventory control, replacement and decision theory, concept of network analysis. PERT and CPM. Agile and Lean manufacturing, CNC systems, Introduction to Robotics, FMS, CIMS.
CONSTRUCTION MATERIALS, TECHNOLOGY AND MANAGEMENT:-
Building Materials: stones, bricks, steel, Timber, lime, cement, sand, aggregates for cement concrete, paints, distempers, use of pozzolana manufacturing of lime concrete, cement concrete for plain, reinforced and pre-stressed concrete work, Road Materials: Coarse aggregate, screenings and binding materials for WBM, Bricks for soling, Coarse and fine aggregate for bituminous roads, IRC standard size aggregates, Tars and Asphalt, Asphaltic concrete, Asphaltic emulsions, Mastic Asphalt and Minerals fillers Stone and Brick Masonry: Ashlar, course and random rubble, stone pillar, dry stone and arch masonry, brick bonds and type of walls; Lintels; Plastering, pointing, flooring, Expansion and construction joints; Centering and shuttering, General Selection criteria of site, Planning and orientation of buildings, Roofing: Stone slab, RCC, G.C. Steel, Asbestos cement and jack arch
roofing, Flooring: Cement concrete, flag stone, terrazzo mosaic, Terrazzo tile, Brick on edge, timber Granolithic, linoleum and other floorings, Plastering: Lime, cement sand, composite and rough coat plaster, Plaster of Paris, painting, Damp proof course, anti-termite treatment, Centering and Shuttering: Centering form work, shuttering and moulds, timber & steel trestles and false work, scaffolding and shoring, under pinning Construction Management: Plants and equipments, Planning for construction using network analysis CPM and PERT techniques.
Building Materials: stones, bricks, steel, Timber, lime, cement, sand, aggregates for cement concrete, paints, distempers, use of pozzolana manufacturing of lime concrete, cement concrete for plain, reinforced and pre-stressed concrete work, Road Materials: Coarse aggregate, screenings and binding materials for WBM, Bricks for soling, Coarse and fine aggregate for bituminous roads, IRC standard size aggregates, Tars and Asphalt, Asphaltic concrete, Asphaltic emulsions, Mastic Asphalt and Minerals fillers Stone and Brick Masonry: Ashlar, course and random rubble, stone pillar, dry stone and arch masonry, brick bonds and type of walls; Lintels; Plastering, pointing, flooring, Expansion and construction joints; Centering and shuttering, General Selection criteria of site, Planning and orientation of buildings, Roofing: Stone slab, RCC, G.C. Steel, Asbestos cement and jack arch
roofing, Flooring: Cement concrete, flag stone, terrazzo mosaic, Terrazzo tile, Brick on edge, timber Granolithic, linoleum and other floorings, Plastering: Lime, cement sand, composite and rough coat plaster, Plaster of Paris, painting, Damp proof course, anti-termite treatment, Centering and Shuttering: Centering form work, shuttering and moulds, timber & steel trestles and false work, scaffolding and shoring, under pinning Construction Management: Plants and equipments, Planning for construction using network analysis CPM and PERT techniques.
SURVEYING, ESTIMATING & COSTING
Basic principles of surveying, Level, Theodolite, Tacheometer, Compass and other instruments; Introduction to Total Station; Temporary and permanent adjustments; Measurement of distances and directions; Leveling; Contouring; Traversing; Adjustment of survey data; Curves, Introduction to Remote Sensing and GIS
Estimation for quantities for various types of construction, Rate Analysis, Preparation of Tender & contract documents, Centre-line diagram, Building layout Shuttering plan.
Basic principles of surveying, Level, Theodolite, Tacheometer, Compass and other instruments; Introduction to Total Station; Temporary and permanent adjustments; Measurement of distances and directions; Leveling; Contouring; Traversing; Adjustment of survey data; Curves, Introduction to Remote Sensing and GIS
Estimation for quantities for various types of construction, Rate Analysis, Preparation of Tender & contract documents, Centre-line diagram, Building layout Shuttering plan.
STRENGTH OF MATEIALS AND THEORY OF STRUCTURES
Behaviour of engineering materials in tension, compression and shear, elastic limit, yield stress, proof stress, nominal stress, actual stress and ultimate stress, factor of safety, load factor and elastic constants, Principal stresses and strains, Strain energy, theories of elastic failure, Bending moment and shear force in statically determinate beams, stress due to bending moment and shear force, design of section, section modulus, elementary theory of torsion, combined bending and torsion, Forces in statically determinate plane trusses.
Behaviour of engineering materials in tension, compression and shear, elastic limit, yield stress, proof stress, nominal stress, actual stress and ultimate stress, factor of safety, load factor and elastic constants, Principal stresses and strains, Strain energy, theories of elastic failure, Bending moment and shear force in statically determinate beams, stress due to bending moment and shear force, design of section, section modulus, elementary theory of torsion, combined bending and torsion, Forces in statically determinate plane trusses.
DESIGN OF STRUCTURES
Materials for cement concrete; properties and testing of cement, water, fine and coarse aggregates, brief introduction to admixtures, IS Concrete mix design procedure; properties and testing of fresh and hardened concrete, durability of concrete, Limit state design as per IS:456 for bending, shear, axial compression and combined forces, Codal provisions for slabs, beams, walls, columns and footings, Working stress method of design of R.C. members. Design of cantilever and counter-fort Retaining walls, Principles of pre-stressed concrete design, materials, methods of pre-stressing, losses, Design of simple members and determinate structures, IS: 1343 provisions Mild steel and high tensile steel, working stress, factor of safety, introduction to IS: 875 with respect to dead loads, imposed loads and Wind loads, Design of welded and bolted joints, Plastic analysis, Types of Cross sections; plastic, compact, semi-compact and slender sections as per IS: 800, Design of tension members, Compression members; axially and eccentrically loaded columns; Design of beams; simple and built up sections; laterally restrained and unrestrained beams; design of beam column connections, Column bases; column footing, Lateral Loads: determination of wind and Earthquake effects as per IS codes.
Materials for cement concrete; properties and testing of cement, water, fine and coarse aggregates, brief introduction to admixtures, IS Concrete mix design procedure; properties and testing of fresh and hardened concrete, durability of concrete, Limit state design as per IS:456 for bending, shear, axial compression and combined forces, Codal provisions for slabs, beams, walls, columns and footings, Working stress method of design of R.C. members. Design of cantilever and counter-fort Retaining walls, Principles of pre-stressed concrete design, materials, methods of pre-stressing, losses, Design of simple members and determinate structures, IS: 1343 provisions Mild steel and high tensile steel, working stress, factor of safety, introduction to IS: 875 with respect to dead loads, imposed loads and Wind loads, Design of welded and bolted joints, Plastic analysis, Types of Cross sections; plastic, compact, semi-compact and slender sections as per IS: 800, Design of tension members, Compression members; axially and eccentrically loaded columns; Design of beams; simple and built up sections; laterally restrained and unrestrained beams; design of beam column connections, Column bases; column footing, Lateral Loads: determination of wind and Earthquake effects as per IS codes.
SOIL MECHANICS AND FOUNDATION ENGINEERING
Preliminary definitions and relationship: Water content unit weight, specific gravity, void ratio, porosity and degree of saturation, density index, phase relationship, Index Properties of soil, various laboratory Tests, Soil water interaction, Quick sand phenomenon, permeability, Flow net and its uses, Vertical pressure distribution: Circular load, pressure bulb and its significance, Contact pressure distribution, Consolidation: Concept of one-dimensional consolidation, Laboratory consolidation test, over-consolidated normally consolidated soils, settlement analysis, Shear Strength: Basic concept, Mohr-Coulomb Failure theory and measurement of shear strength, Earth Pressure, Rankine’s and Coulomb’s theory, Stability of slopes, Bearing Capacity, general shear and local shear failures, Field Compaction method, water content, field compaction control and factors affecting compaction, Methods of site exploration, boring, sampling, standard penetration test, plate load test.
Preliminary definitions and relationship: Water content unit weight, specific gravity, void ratio, porosity and degree of saturation, density index, phase relationship, Index Properties of soil, various laboratory Tests, Soil water interaction, Quick sand phenomenon, permeability, Flow net and its uses, Vertical pressure distribution: Circular load, pressure bulb and its significance, Contact pressure distribution, Consolidation: Concept of one-dimensional consolidation, Laboratory consolidation test, over-consolidated normally consolidated soils, settlement analysis, Shear Strength: Basic concept, Mohr-Coulomb Failure theory and measurement of shear strength, Earth Pressure, Rankine’s and Coulomb’s theory, Stability of slopes, Bearing Capacity, general shear and local shear failures, Field Compaction method, water content, field compaction control and factors affecting compaction, Methods of site exploration, boring, sampling, standard penetration test, plate load test.
HYDRAULICS AND HYDRAULIC MACHINES
Fluid properties, Newton’s law, types of flow, Fluid statics, stability and forces on fully and partially submerged bodies, Fluid kinematics, acceleration of fluid particle, velocity potential and stream function, irrotational flows, ideal fluid flow, Bernoulli’s & Reynold’s equations and their applications, Flow measuring devices, Momentum and angular momentum principles as applied to fluid in a control volume, applications to jets, Introduction to viscous flow, concept of lift and drag, Flow through pipes; Laminar and turbulent, Gravity/Channel flows, Surges, Dimensional analysis and Similitude techniques, Centrifugal and Reciprocating pumps: Volute and whirlpool chambers, Head loss due to variation of discharge, Manometric and Hydraulic efficiencies, Calculation of pumping power requirements, Description of single and multistage pumps, Specific speed, Characteristic curves, Model Test.
Fluid properties, Newton’s law, types of flow, Fluid statics, stability and forces on fully and partially submerged bodies, Fluid kinematics, acceleration of fluid particle, velocity potential and stream function, irrotational flows, ideal fluid flow, Bernoulli’s & Reynold’s equations and their applications, Flow measuring devices, Momentum and angular momentum principles as applied to fluid in a control volume, applications to jets, Introduction to viscous flow, concept of lift and drag, Flow through pipes; Laminar and turbulent, Gravity/Channel flows, Surges, Dimensional analysis and Similitude techniques, Centrifugal and Reciprocating pumps: Volute and whirlpool chambers, Head loss due to variation of discharge, Manometric and Hydraulic efficiencies, Calculation of pumping power requirements, Description of single and multistage pumps, Specific speed, Characteristic curves, Model Test.
HYDROLOGY AND WATER RESOURCES ENGINEERING
Engineering Hydrology: Hydrological cycle, precipitation, evaporation, evapo-transpiration and infiltration, Estimation of dependable runoff, factors effecting runoff, Rainfall runoff relationship, flood/drought estimation using frequency analysis and unit hydrograph methods, Groundwater Hydrology: Aquifers, steady flow towards fully penetrating wells, confined and unconfined aquifers, Diversion Head Works: Principles of design of weirs on non-permeable and permeable foundations, Khosla’s theory, design for uplift and exit gradient, Silt exclusion from canal head works, Canals: Lined and unlined canals, Lacey’s and Kennedy’s theories, Tractive force approach, Types of lining and its selection criteria, Lift Irrigation from Canals and Wells, Ground water availability in unconfined aquifers, Safe yield formulae, construction and maintenance of wells, Relative merits of lift irrigation and flow irrigation, Design principles of irrigation canals and energy dissipation, Storage Works: Different types of dams, Elementary concepts of masonry, concrete, earthen, butteress and arch dams, Forces on gravity dams, Structural stability behaviour and stress variation in gravity dams, Appurtenances, Foundation treatment and control of seepage, Hydropower; General features and components of a Hydropower Station, Major rivers and Dams of India and Rajasthan, their history and development.
ENVIRONMENTAL ENGINEERING
Water Supply Engineering: Qualitative and Quantitative requirements of water, Variation in demand, Forecast of population, Different sources of water supply; lakes, rivers and ground water, Types of Intake, Pumping of raw water, Design of rising mains, various types of Water treatment, flow diagram, Water distribution system, Clear water reservoirs Wastewater Engineering: separate sewers and combined sewers, Hydraulic and structural design considerations, House plumbing, Sewage pumping station, Characterization of Sewage, Self purification of streams, various types of sewage treatment plants, sludge digesters and sludge drying, Final disposal, oxidation ponds, oxidation ditches, aerated lagoons, septic tank, anaerobic lagoons.
TRANSPORTATION ENGINEERING
Highway Material & Testing: Properties of subgrade soil, stone aggregates & bituminous material, significance, method & applications of various tests on soil, stone aggregate and bitumen, Geometric Design: Highway classification, design, cross-sectional elements, horizontal & vertical alignment, sight distance, types of road crossings, roundabout, grade-separated intersections, Road Construction: Methods of constructing different types of roads viz. earth roads, gravel roads, WBM and WMM roads, bituminous and concrete roads
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