RPSC Assistant Drilling Engineer Syllabus With Paper Pattern Details

Rajasthan Public Service Commission (RPSC) has notified earlier for the recruitment in various department in which one post is Assistant Drilling Engineer in Mines and Geology Department. RPSC will conduct a recruitment examination & those who qualify will be selected for this position. Now candidates who have applied for this post must be looking for RPSC Assistant Drilling Engineer Exam Syllabus & Pattern. This will give idea to every candidate that how to prepare for the examination in order to score good marks.

RPSC Assistant Drilling Engineer Exam Pattern

  1. There will be 100 questions in paper & 100 marks will be allotted for that.
  2. Duration for exam will be 2 hours.
  3. Questions will be objective type/multiple choice questions
  4. There will be negative marking for every wrong answer.

RPSC Assistant Drilling Engineer Exam Syllabus

Below we have given specific subjects every candidate must prepare if they are striving for this job.

Operation research and production management:

Linear programming, Assignment, Transportation, Game Theory, Statistical quality control, Inventory control, Forecasting, Aggregate planning, MRP, MRP-II, Scheduling. Break -Even analysis, make v/s buy decision.


Steam Nozzle, Gas Turbine ,Heat, work and temperature, Steam turbine, First and Second and Zeroth law of thermodynamics and their applications, Vapor power cycles like Rankin, Diesel and Dual cycles, S.I. and C.I. Engines, Modified-Rankin, Reheat and Regenerative cycles, Carnot, Otto, , performance parameters, Properties of steam.

Industrial Engineering:

Financial Statements –Balance sheet, Business forms and organization, Profit and loss, Depreciation. Principles of Scientific management, Maintenance policies and Replacement Theory, CPM and PERT, Work-Study, Ergonomics.

Heat Transfer:

Convection And Radiation, Steady State One Dimensional Heat Conduction , Introduction to Thermal Boundary Layer, Boilers, Mountings and Accessories, Heat Exchanger, Boiling and Condensation.

Production Engineering:

Welding Techniques –Types, Equipment And Applications, Molding Sand And Its Properties, Molding And Casting Methods, Metal Forming –Rolling, Forging, Tool Wear and Tool Life, Jigs and Fixtures, Extrusion And Drawing, Economics Of Machining, Various Types of Machine Tools, Principles Of Metal Cutting, Various Cutting Tools. Standards of Measurements, Limits, Fits and Tolerances, Linear and Angular Measurements. Foundry –Patterns and Their Allowances, Numerical Control Machine Tools, CAM, FMS, CIMS, Newer Machining Methods.

Automobile Engineering:

Transmission System –Clutch, Gear-box, Propeller Shaft, Differential, Brakes, Braking system, Steering system, Air pollution by Automobile Engines and its controls, Suspension system, Aerodynamic design of vehicle body, various safety features, Fuel System.

Fluid Mechanics and Machines:

Continuity Equation, Bernoulli’s Theorem, Basic Definitions And Fluid Properties, Application Of Momentum Equation, Measurement Of Flow By Venturimeter ,V-Notch and Pitot Tube, Flow Through Pipes, Laminar And Urbulent Flow, Dimensional Analysis. Pelton, Francis and Kaplan Turbine, Their Construction, Performance and Characteristics, Axial, Centrifugal And Reciprocating Compressors And Pumps, Cavitation In Pumps.

Mechanics of Solids:

Simple stress and strain, machine members subjected to combined loading, Bending moment and Shear force diagram, Column and Struts, Torque and Torsion, Deflection of beams, Theories of failure, Principal stresses and planes, Hooke’s law, Bending and shearing stresses.

Instrumentation and Control Systems:

Measurements: Accuracy, Sensibility, Measurement of Pressure, Transducers, Uncertainty, Precision, Repeatability, Errors and their Classifications in measurements, Temperature and Flow.

Material Technology:

Heat Treatment Processes, Hardening, Creep, Fatigue and Fracture, Elastic and Plastic deformation of metal and alloys, Work, Phase and Phase equilibrium diagrams, Engineering materials.

Machine Design:

Design of machine elements subjected to direct stress, Design of Curved Beams, Design of shaft, Design of members subjected to bending, Torsion like Beam, Spring, Laminated Spring, Coupling, Gear, thick and thin cylinder.

Theory of Machine:

Kinematics, Quadratic Chain and Slider-Crank Mechanisms and their Inversions, Cams, Brakes And Dynamometers, Friction, Power Transmission-Belt, Rope, Chain, Gear Drives, Primary and Secondary Balancing, Governors, Gyroscope, Various Types Of Bearings, Whirling of Shaft, Free and Forced Vibration.

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