HPSC Assistant Engineer Syllabus 2017(Civil & Electrical)| HPSC AE Exam Pattern Download

Haryana PSC Assistant Engineer AE Syllabus & Exam Pattern – Download PDF

 

HPSC AE Syllabus 2017 Haryana PSC Assistant Engineer Syllabus & Exam Pattern are available now.  Candidates who are applied for HPSC Assistant Engineer (Civil & Electrical) Jobs have started their Exam preparation for the Written Test which is going to organize by the Haryana Public Service Commission HPSC. All those applicants can check the HPSC AE question Papers and can download. Here, we are providing the  HPSC Assistant Engineer Syllabus along with Exam Pattern. Here we also provided Haryana PSC Exam syllabus 2017. So before going to begin the preparation, once check the Provided HPSC Asst Engineer Syllabus 2017.

HPSC Assistant Engineer Exam Pattern 2017

For Civil Engineering

S.No Parts Subject Name No of Marks Duration
1. Section I: Objective Type General Ability TestPart A: General English

Part B: General Studies

200
2 hours
Civil Engineering Paper I 200 2 hours
Civil Engineering Paper II 200 2 hours
2. Section II: Conventional Papers Civil Engineering Paper I 200 3 hours
Civil Engineering Paper II 200 3 hours
3. Viva Voce 125

Mechanical Engineering

Haryana PSC Assistant Engineer Syllabus 2017 | Get HPSC AE Exam Pattern

HPSC Assistant Engineer Civil Syllabus 2017

Syllabus – AE Civil Engineering

(i) Building Materials and Construction- Stones, Timber, Bricks, Cement, Mortar,
Concrete, Masonry, Steel.
(ii) Solid Mechanics- Stresses, Strains, Failures, Theories of Solid Material, Simple
Bending and Torsion Theories, Shear Centre.
(iii) Graphic Static- Force Polygon, Stress diagram.
(iv) Structural Analysis – Analysis of trusses and frames, Introduction to plastic
Analysis.
(v) Design of Metal Structure – Working stress and ultimate strength design of simple
structures.
(vi) Design of Concrete and Masonry Structures- Design of masonry walls, working
stress design of plain, reinforced and prestressed concrete, ultimate strength
design of reinforced and prestressed concrete.
(vii) Fluid Mechanics, Water Resources Engineering –Open channel and pipe flow.
Hydrology Design of canals and hydraulics structures.
(viii) Soil Mechanics and Foundation Engineering and their general principles. Strength
parameters, Earth pressures Theories, Design of Shallow and Deep foundations.
(ix) Transportation Engineering including Railway Engineering and Surveying, Roads
Super-elevation, Ruling gradient pavements, Traffic controls, Design
Considerations.
(x) Environmental Engineering – Water purifications, Sewerage treatment and
disposal.
(xi) Construction Planning and Management – Elements of construction practice. Bar
charts, CPM, PERT.

HPSC AE Mechanical Engineer Syllabus 2017

Syllabus – AE Mechanical Engineering

(i) Thermodynamics: Laws, Properties of ideal gases and vapours, Power Cycles,
Gas Power Cycles, Gas Turbine Cycles, Fuels and Combustion.
(ii) IC Engines: CI and SI engines Detonation, Fuel injection and car-buration.
Performance and Testing. Turbojet and Turbo-prop Engines, Rocket Engines,
Elementary Knowledge of Nuclear Power Plants and Nuclear Fuels.
(iii) Steam Boiler, Engines, Nozzles and Steam Turbines Modern boilers, Steam
Turbines types Flow of Steam through nozzles. Velocity diagrams for impulse
and Reaction Turbines. Efficiencies and Governing.
(iv) Compressors, Gas Dynamics and Gas Turbines Reciprocating Centrifugal and
axial flow compressor. Velocity diagrams, Efficiency and Performance, Effect of
Mechanical number on flow, isentropic flow. Normal Shocks and Flow through
nozzles Gas Turbine Cycle with multistage compression. Reheating and
Regeneration.
(v) Heat Transfer, Refrigeration and Air-conditioning, Conduction, Convention and
Radiatin, Heat exchangers, types, combined Heat Transfer, Overall Heat Transfer
coefficient, Refrigeration and heat pump cycles. Refrigeration systems.
Coefficient of performance. Psychometrics and psychometric chart, Comfort
indices, Cooling and dehumidification methods. Industrial-Air-conditioning
Process. Cooling and heating loads calculations.
(vi) Prosperities and classification of fluid. Fluid statics, kinematics and dynamics;
principles and applications. Manometry and Buoyancy. Flow of ideal fluids.
Laminar and turbulent flows, Boundary layer theory. Flow over immersed bodies.
Flow through pipes and open channels. Dimensional analysis and similitude
technique. Non-dimensional specific speed and classification of fluid mechanics
in general. Energy transfer relation performance and operation of pumps and of
impulse and reaction water turbines. Hydronamic power transmission.
(vii) Theory of Machines: Velocity and acceleration (i) of moving bodies (ii) in
machines. Klien’s construction, Inertia forces in machines. Cams, Gears and
Gearing. Fly wheels and Governors, Balancing of Rotating and Re-ciprocating
masses. Free and forced vibrations of systems. Critical speeds and whirling of
shafts.
(viii) Machine Design: Design of Joints- Treaded fasteners and Power Screws-Keys,
Kotters Coupling-Welded Joints. Transmission system-Belt and chain driveswireropes-shafts.
Gears-*Siding and Rolling bearings.
(ix) Strength of Materials : Stress and strain in two dimensions; Mohr’s circles:
relations between Elastic Constants.
Beams-Bending moments, shearing forces and reflection.
Shafts-combined bending, direct and torsional stresses.
Thick Walled cylinder and spheres under Pressure, Springs Struts and columns,
Theories of failure.
(x) Engineering Materials; Alloys and Alloying Materials, heat treatment;
Composition, properties and uses, Plastics and other newer engineering materials.
(xi) Production Engineering: Metal Machinery: Cutting Tools: Tool Materials, Wear
and Machinability, measurement of cutting forces.
Process: Machining Grinding, Boring, Geer, Manufacturing, Metal forming,
Metal Casting and jointing, Basic, Special Purpose, Programme and numerically
controlled machine tools, Jigs and fixtures (locating elements).
(xii) Industrial Engineering: Work study and work measurement Wage incentive,
Design of Production System and Product Cost, Principles of Plant layout.
(xiii) Production Planning and Control Material handling, Operations Research, Linear
Programming queuing Theory, Value Engineering, Network Analysis CPM and
PERT. Use of computers

Syllabus for the posts of Assistant Engineer (Electrical)
in Haryana Police Housing Corporation Ltd.
Electrical Engineering

1. Electrical Circuits: Network theorems, Response of network to step, ramp,
impulse and sinusoidal inputs. Frequency domain analysis. Two port networks,
elements of network synthesis. Signal-flow graphs.
2. EM Theory: Electrostatics: Magnetostatics using vector methods. Fields in
dielectrics in conductors and in magnetic materials. Time varying fields,
Maxwell’s equations. Planewave propagation in conducting & dielectric media,
properties of Transmission lines.
3. Material Science (Electric Materials): Band Theory. Behaviour of dielectrics in
static and alternating fields. Piezoelectricity. Conductivity of Metals. Super
conductivity, Magnetic Properties of materials. Ferro and ferri-magnetism.
Conduction in Semiconductors, Hall effect.
4. Electrical Measurements: Principles of Measurement. Bridge measurement of
Circuit parameters Measuring Instruments. VTVM and CRO, Q-Meter, Spectrum
analyser. Transducers and measurement of non-electrical quantities, Digital
measurements, telemetering data recording and display.
5. Elements of Computation: Digital system, algorithms, flow-charting, Storage:
Type statements, array storage, Arithmetic expression, logical expressions.
Assignments statements, Programme structure, Scientific and Engineering
applications.
6. Power Apparatus and Systems: Electromechanics: Principles of electromechanical
energy conversion. Analysis of DC, synchronous and Induction
Machines. Fractional horse-power motors. Machines in Control Systems.
Transformers, Magnetic circuits and Selection of motor for drives. Power System:
Power generation; Thermal, Hydro and Nuclear Power Transmissions, Coroma,
Bundle conductors, Power System Protection. Economic operations, Load
frequency-control, stability analysis.
7. Control Systems: Open-loop and closed loop systems, Response analysis, Rootlocus
technique, stability, compensation and design techniques. State-variable
approach.
8. Electronics and Communications: Electronics: Solid state devices and circuits.
Small signal amplifier design. Feedback amplifiers, Oscillators and operational
amplifiers, FET circuits and linear ICs. Switching circuits Boolean algebra, Logic
circuits, Combinational and sequential digital circuits. Communications: Signal
analysis. Transmission of signals. Modulation and Detection. Various types of
communication systems. Performance of communication systems.