SYLLABUS AND EXAMINATION PLANING FOR CAPF AC

UNION PUBLIC SERVICES COMMISSION, DELHI

SYLLABUS AND EXAMINATION PLANNING CAPF AC

The Defence Jobs Applicants those looking for UPC Central Armed Police Forces Syllabus is available here for download along with the Exam Pattern. Check the UPSC AC Exam Pattern & Syllabus, UPSC CPF Previous Papers accessible on our website and prepare for the Exam.

UPSC CAPF is a written examination in the first round. The written examination comprises 2 papers, Paper 1 and Paper 2. Paper 1 will consist of multiple choice questions on general ability and intelligence having four alternatives. Paper 2 is of descriptive type and questions are on General Studies, Essay and Comprehension.

EXAMINATION PATTERN 2020:

Candidates applying for the posts of Assistant Commandants (Group A) under UPSC will be selected based on the following criteria –

Selection Process:

  • Written Examination
  • Physical Standards/ Physical Efficiency Tests and Medical Standards Tests
  • Interview/ Personality Test
  • Final Selection / Merit

UPSC CAPF Exam Pattern 2019

Paper UPSC Subjects Questions Marks Duration
I Intelligence & General Ability 125 250 2 Hours
II General Studies, Essay & Comprehension 200 3 Hours

The UPSC CAPF Assistant Commandant Exam 2019 consists of the following features:

  • The Exam consists of Two Papers.
  • Paper I is the Objective type.
  • The Paper I consist of 125 Questions asked from General Ability & General Intelligence.
  • Duration of Paper I is 2 Hours.
  • Paper I: Held for a total of 250 Marks.
  • Paper II is Subjective Nature.
  • Paper II is held for a total of 200 Marks.
  • Duration of Paper II is 3 Hours.
  • Paper II consists of General Studies, Essay & Comprehension related Questions.
  • Aspirants who get qualified in the Written Test will be called for Physical Efficiency Test & Personal Interview.

Candidates who clear the first round will be eligible for the part 2 of UPSC CAPF exam which will be a Physical Endurance and Medical Test. This will be followed by the third round, which will be interview and personality test. The final selection of candidates will be made on the basis of the overall performance in all the three rounds. Marks of all the rounds will be considered for making the merit list.

(i) Written Test: The written exam to be conducted by Union Public Service Commission will be held on August 18, 2019 and will comprise two papers. More details is given below:

Paper 1 Paper 2
Total questions: 200 (MCQ) Total questions: 6 (Descriptive)
Total Marks: 250 Total Marks: 200
Duration: 2 hours Duration: 3 hours

(ii) Physical Standards/Physical Efficiency Tests and Medical Standards Tests:

Applicants who are qualified in the written test will be called Physical Standards/ Physical Efficiency Tests and Medical Standards Tests. Those candidates who meet the prescribed Physical Standards, specified in will be put through the Physical Efficiency Tests as indicated below :

Male Female
100 Meters race In 16 seconds In 18 seconds
800 Meters race In 3 minutes 45 seconds In 4 minutes 45 seconds
Long Jump 3.5 Meters (3 Chances) 3.0 meters (3 chances)
Shot Put (7.26 Kgs.) 4.5 Meters

Note: Pregnancy at the time of PET will be a disqualification and pregnant female candidate will be rejected.

(iii) Interview/Personality Test: Shortlisted candidates on the basis of their performance in the Physical Efficiency Tests will be called for Interview/Personality Test. The Interview/Personality Test will carry 150 Marks. Candidates who are shortlisted for Interview/Personality Test, including those shortlisted for Interview/Personality Test provisionally will be issued a Detailed Application Form (DAF) in which among other things, they will be required to indicate their preference of Forces.

 

:SYLLABUS OF EXAMINATION:

Before beginning the AC exam preparation, once refer to the exam syllabi and its paper pattern. In this article, we presented the entire CAPF syllabus.

Paper I

  • General Mental Ability
  • General Science
  • Current Events of National and International Importance
  • Indian Polity and Economy
  • History of India
  • Indian and World Geography

Paper II

  • Essay Writing.
  • Comprehension.
  • Precis Writing.
  • Counter Argument.
  • Communications.
  • Report Writing.
  • Language Skills.
  • Grammar.
  • Vocabulary etc.

UPSC CAPF Assistant Commandant Syllabus for General Studies

  • History – India.
  • Current Events – National & International.
  • Indian National Movement.
  • Geography – India.
  • About India.
  • Eminent Personalities.
  • Cultural Heritage.
  • Environment.
  • Economy.
  • General Polity.
  • General Science.
  • Indian Constitution.
  • Science & Technology etc.

UPSC Syllabus for General Intelligence

  • Analogies.
  • Arrangements.
  • Problem Solving.
  • Syllogisms.
  • Spatial Orientation.
  • Space Visualization.
  • Analysis.
  • Ranking.
  • Arithmetical Reasoning.
  • Decision Making.
  • Visual Memory.
  • Arithmetic Number Series.
  • Figural Classification.
  • Coding and Decoding.
  • Relationship Concepts.
  • Statement Conclusion etc.

SYLLABUS AND EXAMINATION PLANING FOR INDIAN ENGINEERING SERVICES EXAMINATION

UNION PUBLIC SERVICES COMMISSION, DELHI

SYLLABUS AND EXAMINATION PLANNING INDIAN ENGINEERING SERVICES EXAMINATION

 

EXAMINATION PATTERN 2020:

  1. The examination shall be conducted according to the following plan :-
  2. (i) Stage-I : Engineering Service (Preliminary / Stage-I) Examination (Objective Type Papers) for the selection of candidates for the Stage-II: Engineering Service (Main/Stage-II) Examination;
  3. (ii) Stage-II : Engineering Service (Main / Stage-II) Examination (Conventional Type Papers and
  4. (iii) Stage-III : Personality Test.
  5. The Engineering Service (Preliminary / Stage-I) Examination will consist of two objective type (multiple choice) questions papers and carrying a maximum of 500 marks (Paper I – 200 Marks & Paper II – 300 Marks). Only those candidates who are declared by the Commission to have qualified in the Preliminary / Stage-I Examination in the year will be eligible for admission to the Main / Stage – Preliminary /Stage-I Examination by the candidates who are declared qualified for admission to the Main / Stage-II Examination of that year provided they are otherwise eligible for admission to the Main / Stage-II Examination. The Marks obtained in Preliminary / Stage-I Examination by the candidates who are declared qualified for admission to the Main / Stage-II Examination will be counted for determining their final order of merit. The number of candidates to be admitted to the Main / State-II Examination will be about six to seven times the total approximate number of vacancies to be filled in the year through this examination.
  6. Note I : The Commission will draw a list of candidates to be qualified for Engineering Service (Main / Stage-II) Examination based on the criterion of minimum qualifying marks in General Studies and Engineering Aptitude Paper (Paper-I) and Engineering Discipline specific paper (Paper-II) of Preliminary / Stage-I Examination.
  7. Note II : There will be a penalty (Negative Marking) for wrong answers marked by a candidate in the objective type question papers.
  8. (i) There are four alternative for the answers to every question. For each question for which a wrong answer has been given by the candidates, one-third (⅓ rd) of the marks assigned to that question will be deducted as penalty.
  9. (ii) If a candidate gives more than one answer, it will be treated as a wrong answer even if one of the given answers happen to be correct and there will be the same penalty as above for that question
  10. (iii) If a question is left blank i.e. no answer is given by the candidate, there will be no penalty for that question.
  11. The Engineering Services (Main / Stage-II) Examination will consist of two conventional type papers in Engineering Discipline specific with duration of three hours and the maximum marks of 600 (300 Marks in each paper).
  12. The Stage-III will consist of Personality Test carrying 200 Marks.
  13. Candidates who obtain such minimum qualifying marks in the Stage-I : Engineering Service (Preliminary / Stage-I) and Stage-II : Engineering Services (Main / Stage-II) Examination as may be fixed by the Commission as per its discretion, shall be summoned by them for Stage-III (Personality Test). The number of candidates to be summoned for Personality Test will be about twice the number of vacancies to be filled. The Personality Test will carry 200 marks (with no minimum qualifying marks).
  14. Marks obtained by the candidates in the Stage-I : (Preliminary / Stage-I) Examination, Stage-II : (Main / Stage-II) Examination and Stage-III (Personality Test) would determine their final ranking. Candidates will be allotted to the various services keeping in view their ranks in the examination and the preferences expressed by them for the various services / posts.
  15. Candidates are advised to read carefully special instructions to candidates for conventional type tests and objective type tests given in Appendix-III (Part A and Part B) including the procedure regarding filling in the Answer Sheet of objective type tests in the Examination Hall uploaded on the Commission’s website (www.upsc.gov.in) on 25.09.2019.
  16. In the Personality Test special attention will be paid to assessing the candidate’s capacity for leadership, initiative and intellectual curiosity, tact and other social qualities, mental and physical energy, powers of practical application and integrity of character.
  17. Conventional papers must be answered in English. Question paper will be set in English only.
  18. Details of the syllabi for Stage-I: (Preliminary / Stage-I) and Stage-II : (Main / Stage-II) are at Section III.

 

Section – I

Stage-I (Preliminary / Stage-I) Examination :-

The Examination shall comprise of two papers.

Subject 

Duration 

Maximum Marks

Category-I Civil Engineering

Paper-I (General Studies and Engineering Aptitude) 

2 hrs 

200

Paper-II (Civil Engineering) 

3 hrs 

300

Total 

500

 

Subject 

Duration 

Maximum Marks

Category-II Mechanical Engineering

Paper-I (General Studies and Engineering Aptitude) 

2 hrs 

200

Paper-II (Mechanical Engineering)

3 hrs 

300

Total 

500

Subject 

Duration 

Maximum Marks

Category-III Electrical Engineering

Paper-I (General Studies and Engineering Aptitude) 

2 hrs 

200

Paper-II (Electrical Engineering)

3 hrs 

300

Total 

500

 

Subject 

Duration 

Maximum Marks

Category-IV Electronics & Telecommunication Engineering

Paper-I (General Studies and Engineering Aptitude) 

2 hrs 

200

Paper-II (Electronics & Telecommunication

Engineering)

3 hrs 

300

Total 

500

 

Details of the syllabi are indicated in Section III.

Section – II

Stage-II (Main / Stage-II) Examination :-

The Examination shall comprise of two papers.

Subject 

Duration 

Maximum Marks

Category-I Civil Engineering

Paper-I (Civil Engineering)  

3 hrs 

300

Paper-II (Civil Engineering) 

3 hrs 

300

Total 

600

 

Subject 

Duration 

Maximum Marks

Category-II Mechanical Engineering

Paper-I (Mechanical Engineering) 

3 hrs 

300

Paper-II (Mechanical Engineering) 

3 hrs 

300

Total 

600

 

Subject 

Duration 

Maximum Marks

Category-III Electrical Engineering

Paper-I (Electrical Engineering)  

3 hrs 

300

Paper-II (Electrical Engineering) 

3 hrs 

300

Total 

600

 

Subject 

Duration 

Maximum Marks

Category-IV Electronics & Telecommunication Engineering

Paper-I (Electronics & Telecommunication

Engineering)  

3 hrs 

300

Paper-II (Electronics & Telecommunication

Engineering) 

3 hrs 

300

Total 

600

 

Section – III

Stage-III (Personality Test) – 200 Marks.

Note : Candidates must write the papers in their own hand. In no circumstances will they be allowed the help of a scribe to write the answers for them. However, blind candidates and candidates with Locomotor Disability and Cerebral Palsy where dominant (writing) extremity is affected to the extent of slowing the performance of function (minimum of 40% impairment) will be allowed to write Engineering Services Examination with the help of a scribe. 

Compensatory time of twenty minutes per hour shall be permitted for the blind candidates with Locomotor Disability and Cerebral Palsy where dominant (writing) extremity is affected to the extent of slowing the performance of function (minimum of 40% impairment) will also be allowed in the Engineering Services Examination.

  1. The Commission has discretion to fix the minimum qualifying marks in any or all the papers of the examination.
  2. Marks will not be allotted for mere superficial knowledge.
  3. Deduction upto five per cent of the maximum marks for the written papers will be made for illegible handwriting.
  4. Credit will be given for orderly, effective and exact expression combined with due economy of words in the conventional papers in the examination.
  5. In the question papers, wherever required, SI Units will be used.

Note – Candidates will be supplied with standard tables / charts in SI units in the Examination hall for reference purpose, wherever considered necessary.

  1. Candidates are permitted to bring and use battery operated pocket calculators for conventional (essay) type papers only. Loaning or inter-changing of calculators in the Examination Hall is not permitted.

      It is also important to note that candidates are not permitted to use calculators for answering objective type papers (Test booklets). They should not therefore, bring the same inside the Examination Hall.

  1. Candidates should use only International form of Indian numerals (e.g., 1,2,3,4,5 etc.) while answering question papers.

:SYLLABUS OF EXAMINATION:

Standard and Syllabus

The standard of paper in General Studies and Engineering Aptitude (Preliminary Stage-I

Examination) will be such as may be expected of an Engineering / Science Graduate. The standard of papers in other subjects will approximately be that of an Engineering Degree Examination of an Indian University. There will be no practical examination in any of the subjects.

General Studies and Engineering Aptitude (Preliminary Examination / Stage-I, Paper I, Objective Type, Common to all candidates).

  1. Current issues of national and international importance relating to social, economic and industrial development.
  2. Engineering Aptitude covering Logical reasoning and Analytical ability.
  3. Engineering Mathematics and Numerical Analysis.
  4. General Principles of Design, Drawing, Importance of Safety.
  5. Standards and Quality practices in production, construction, maintenance and services.

6.Basics of Energy and Environment: Conservation, environmental pollution and degradation, Climate Change, Environmental impact assessment.

  1. Basics of Project Management.
  2. Basics of Material Science and Engineering.
  3. Information and Communication Technologies (ICT) based tools and their applications in Engineering such as networking, e-governance and technology based education.
  4. Ethics and values in Engineering profession.

Note : The paper in General Studies and Engineering Aptitude will include Knowledge of relevant topics as many be expected from an engineering graduate, without special study. Questions from all the 10 topics mentioned above shall be set. Marks for each topic may range from 5% to 15% of the total marks in the paper.

Civil Engineering

Contents for syllabus of both the papers together for Preliminary Examination / Stage-I (Objective type Paper-II) and separately for Main/Stage-II Examination (Conventional type Paper-I and Paper-II).

PAPER-I

  1. Building Materials:

Stone, Lime, Glass, Plastics, Steel, FRP, Ceramics, Aluminium, Fly Ash, Basic Admixtures, Timber, Bricks and Aggregates: Classification, properties and selection criteria; Cement: Types, Composition, Properties, Uses, Specifications and various Tests; Lime & Cement Mortars and Concrete: Properties and various Tests; Design of Concrete Mixes: Proportioning of aggregates and methods of mix design.

  1. Solid Mechanics :

Elastic constants, Stress, Plane stress, Strains, plane strain, Mohr’s circle of stress and strain, Elastic theories of failure, Principal Stresses, Bending, Shear and Torsion.

  1. Structural Analysis :

Basics of strength of materials, Types of stresses and strains, Bending moments and shear force, concepts of bending and shear stresses; Analysis of determinate and indeterminate structures; Trusses, beans, plane frames; Rolling loads, Influence Lines, Unit load method & other methods; Free and Forced vibrations of single degree and multi degree freedom system; Suspended Cables; Concepts and use of Computer Aided Design.

  1. Design of Steel Structures:

Principles of Working Stress methods, Design of tension and compression members, Design of beams and beam column connections, built-up sections, Girders, Industrial roofs, Principles of Ultimate load design.

  1. Design of Concrete and Masonry structure:

Limit state design for bending, shear, axial compression and combined forces; Design of beams, Slabs, Lintels, Foundations, Retaining walls, Tanks, Staircases: Principles of prestressed concrete design including materials and methods; Earthquake resistant design of structures; Design of Masonry Structure.

  1. Construction Practice, Planning and Management:

Construction – Planning, Equipment, Site investigation and Management including Estimation with latest project management tools and network analysis for different Type of work; Analysis of Rates of various types of works; Tendering Process and Contract Management, Quality Control, Productivity, Operation Cost; Land acquisition; Labour safety and welfare.

PAPER – II

  1. Flow of Fluids, Hydraulic Machines and Hydro Power:

(a) Fluid Mechanics, Open Channel Flow, Pipe Flow :

Fluid properties; Dimensional Analysis and Modeling; Fluid dynamics including flow kinematics and measurements; Flow net; Viscosity, Boundary layer and control, Drag, Lift, Principles in open channel flow, Flow controls, Hydraulic jump; Surges; Pipe networks.

(b) Hydraulic Machines and Hydro power –

Various pumps, Air vessels, Hydraulic turbines – types, classifications & performance parameters; Power house – classification and layout, storage, pondage, control of supply.

  1. Hydrology and Water Resources Engineering:

Hydrological cycle, Groundwater hydrology, Well hydrology and related data analysis; Streams and their gauging; River morphology; Flood, drought and their management; Capacity of Reservoirs.

Water Resources Engineering : Multipurpose uses of Water, River basins and their potential; Irrigation systems, water demand assessment; Resources storages and their yields; Water logging, canal and drainage design, Gravity dams, falls, weirs, Energy dissipators, barrage Distribution works, Cross drainage works and head-works and their design; Concepts in canal design, construction & maintenance; River training, measurement and analysis of rainfall.

  1. Environmental Engineering :

(a) Water Supply Engineering :

Sources, Estimation, quality standards and testing of water and their treatment, Rural, Institutional and industrial water supply; Physical, chemical and biological characteristics and sources of water, Pollutants in water and its effects, Estimation of water demand; Drinking water Standards, Water Treatment Plants, Water distribution networks.

(b) Waste Water Engineering :

Planning & design of domestic waste water, sewage collection and disposal; Plumbing Systems. Components and layout of sewerage system; Planning & design of Domestic Waste-water disposal system; Sludge management including treatment, disposal and re-use of treated effluents; Industrial waste waters and Effluent Treatment Plants including institutional and industrial sewage management.

(c) Solid Waste Management :

Sources & classification of solid wastes along with planning & design of its management system; Disposal system, Beneficial aspects of wastes and Utilization by Civil Engineers.

(d) Air, Noise pollution and Ecology:

Concepts & general methodology.

  1. Geo-technical Engineering and Foundation Engineering :

(a) Geo-technical Engineering : Soil exploration – planning & methods, Properties of soil, classification, various tests and inter-relationships; Permeability & Seepage, Compressibility, consolidation and Shearing resistance, Earth pressure theories and stress distribution in soil; Properties and uses of geo-synthetics.

(b) Foundation Engineering : Type of foundations & selection criteria, bearing capacity,

settlement analysis, design and testing of shallow & deep foundations; Slope stability analysis, Rathen embankments, Dams and Earth retaining structure: types, analysis and design, Principles of ground modifications.

  1. Surveying and Geology:

(a) Surveying : Classification of surveys, various methodologies, instruments of analysis of

measurements of distances, elevation and directions; Field astronomy, Global Positioning System; Map Preparation; Photogrammetry; Remote sensing concepts; Survey Layout for culverts, canals, bridges, road / railway alignment and buildings, Setting out of Curves.

(b) Geology : Basic knowledge of Engineering geology & its application in projects.

 

  1. Transportation Engineering :

Highways – Planning & construction methodology, Alignment and geometric design; Traffic Surveys and Controls; Principles of Flexible and Rigid pavements design.

Tunneling – Alignment, methods of construction, disposal of muck, drainage, lighting and ventilation. Railways Systems – Terminology, Planning, designs and maintenance practices, track modernization. 

Harbours – Terminology, layouts and planning.

Airports – Layout, planning & design.

 

Mechanical Engineering

Contents for syllabi of both the Papers together for Preliminary Examination / Stage – I

(Objective type Paper – II) and separately for Main / Stage – II Examination (Conventional

type Paper – I and Paper – II).

 

PAPER – I

  1. Fluid Mechanics :

Basic Concepts and Properties of Fluids, Manometry, Fluid Statics, Buoyancy, Equations of Motion, Bermoulli’s equation and applications, Viscous flow of incompressible fluids, Laminar and Turbulent flows, Flow through pipes and head losses in pipes.

  1. Thermodynamics and Heat transfer :

Thermodynamic systems and processes; properties of pure substances; Zeroth, First and Second Laws of Thermodynamics; Entropy, Irreversibility and availability; analysis of thermodynamic cycles related to energy conversion: Rankine, Otto, Diesel and Dual Cycles: ideal and real gases; compressibility factor; Gas mixtures.

Modes of heat transfer, Steady and unsteady heat conduction, Thermal resistance, Fins, Free and forced convection, Correlations for convective heat transfer, Radiative heat transfer – Radiation heat transfer coefficient; boiling and condensation, Heat exchanger performance analysis.

  1. IC Engines, Refrigeration and Air conditioning :

SI and CI Engines, Engine Systems and Components, Performance characteristics and testing of IC Engines; Fuels; Emissions and Emission Control, Vapour compression refrigeration, Refrigerants and Working cycles, Compressors, Condensers, Evaporators and Expansion devices, Other types of refrigeration systems like Vapour Absorption, Vapour jet, thermo electric and Vortex tube refrigeration. Psychometric properties and processes, Comfort chart, Comfort and industrial air conditioning, Load calculations and Heat pumps.

  1. Turbo Machinery :

Reciprocating and Rotary pumps, Pelton wheel, Kaplan and Francis Turbines, velocity diagrams, Impulse and Reaction principles, Steam and Gas Turbines, Theory of Jet Propulsion – Pulse jet and RamJet Engines, Reciprocating and Rotary Compressors – Theory and Applications. 

  1. Power Plant Engineering :

Rankine and Brayton cycles with regeneration and reheat, Fuels and their properties, Flue gas analysis, Boilers, steam turbines and other power plant components like condensers, air ejectors, electrostatic precipitators and cooling towers – their theory and design, types and applications;

  1. Renewable Sources of Energy :

Solar Radiation, Solar Thermal Energy collection – Flat Plate and focusing collectors their materials and performance. Solar Thermal Energy Storage, Applications – heating, cooling and Power Generation; Solar Photovoltaic Conversion; Harnessing of Wind Energy, Biomass and Tidal Energy – Methods and Applications, Working principles of Fuel Cells.

 

PAPER – II

  1. Engineering Mechanics :

Analysis of System of Forces, Friction, Centroid and Centre of Gravity, Dynamics; Stresses and Strains – Compound Stresses and Strains, Bending Moment and Shear Force Diagrams, Theory of Bending Stresses – Slope and deflection – Torsion, Thin and thick Cylinders, Spheres. 

  1. Engineering Materials :

Basic Crystallography, Alloys and Phase diagrams, Heat Treatment, Ferrous and Non Ferrous Metals, Non Metallic materials, Basics of Nano-materials, Mechanical properties and Testing, Corrosion prevention and control.

  1. Mechanisms and Machines :

Types of Kinematics Pair, Mobility, Inversions, Kinematic Analysis, Velocity and Acceleration Analysis of Planar Mechanisms, CAMs with uniform acceleration and retardation, cycloidal motion, oscillating followers; Vibrations – Free and forced vibration of undamped and damped SDOF systems, Transmissibility Ratio, Vibration Isolation, Critical Speed of Shafts. Gears – Geometry of tooth profiles, Law of gearing, Involute profile, Interference. Helical, Spiral and Worm Gears, Gear Trains – Simple, Compound and Epicyclic; Dynamic Analysis – Slider – crank mechanisms, turning moment computations, balancing of Revolving & Reciprocating masses, Gyroscopes – Effect of Gyroscopic couple on automobiles, ships and aircrafts, Governors.

  1. Design of Machine Elements :

Design for static and dynamic loading; failure theories; fatigue strength and the S-N diagram principles of the design of machine elements such as riveted, welded and bolted joints, Shafts, Spur gears, rolling and sliding contact bearings, Brakes and clutches, flywheel.

  1. Manufacturing, Industrial and Maintenance Engineering :

Metal casting-Metal forming, Metal Joining, Machining and machine tool operations, Limits, fits and tolerances, Metrology and inspection, computer Integrated manufacturing, FMS, Production planning and Control, Inventory control and operations research-CPM-PERT. Failure concepts and characteristics-Reliability, Failure analysis, Machine Vibration, Data acquisition, Fault Detection, Vibration Monitoring, Field Balancing of Rotors, Noise Monitoring, Wear and Debris Analysis, signature Analysis, NDT Techniques in Condition Monitoring.

  1. Mechatronics and Robotics:

Microprocessors and Microcontrollers : Architecture, programming, I/O, Computer interfacing, Programmable logic controller. Sensors and actuators, Piezoelectric accelerometer, Hall effect sensor, Optical Encoder, Resolver, Inductosyn, Pneumatic and Hydraulic actuators, Stepper motor, Control Systems – Mathematical modeling and Physical systems, control signals, controllability and observability. Robotics, Robot Classification, Robot Specification, notation; Direct and Inverse Kinematics; Homogeneous Coordinates and Arm Equation of four Axis SCARA Robot.

 

Electrical Engineering

Contents for syllabi of both the Papers together for Preliminary / Stage-I Examination

(Objective type Paper-II) and separately for Main/Stage-II Examination (Conventional type Paper-I and Paper-II).

PAPER – I

 

  1. Engineering Mathematics

Matrix theory, Eigen values & Eigen vectors, systems of linear equations, Numerical methods of solution of non-linear algebraic equations and differential equations, integral calculus, partial derivatives, maxima and minima, Line, Surface and Volume Integrals. Fourier series, linear, non- linear and partial differential equations, initial and boundary value problems, complex variables, Normal and Poisson distributions, correlation and regression analysis.

 

  1. Electrical Materials

Electrical Engineering Materials, crystal structures and defects, ceramic materials, insulating materials, magnetic materials – basics, properties and applications; ferrities, ferro-magnetic materials and components; basics of solid state physics, conductors; Photo-conductivity; Basics of Nano materials and superconductors.

 

  1. Electric Circuits and Fields.

Circuit elements, network graph, KCL, KVL, Node and Mesh analysis, ideal current and voltage sources, Thevenin’s Norton’s, Superposition and Maximum Power Transfer theorems, transient response of DC and AC networks, Sinusoidal steady state analysis, basic filter concepts, two-port, networks, three phase circuits, Magnetically coupled circuits, Gauss Theorem, electric field and potential due to point, line, plane and spherical charge distributions, Ampere’s and Biot-Savart’s laws; inductance, dielectrics, capacitance; Maxwell’s equations.

 

  1. Electrical and Electronic Measurements:

Principles and measurement accuracy, precision and standards; Bridges and potentiometers; moving coil, moving iron, dynamometer, and induction type instruments, measurement of voltage, current, power, energy and power factor, instrument transformers, digital voltmeters and multi- meters, phase time and frequency measurement, Q-meters, oscilloscopes, potentiometric recorders, error analysis, Basics of sensors, transducers, basics of data acquisition systems.

 

  1. Computer Fundamentals :

Number systems, Boolean algebra, arithmetic functions, Basic Architecture, Central Processing Unit, I/O and Memory Organisation: peripheral devices, data representation and programming, basics of Operating system and networking, virtual memory, file systems; Elements of programming languages, typical examples.

 

  1. Basic Electronics Engineering :

Basics of Semiconductor diodes and transistors and characteristics, Junction and field effect transistors (BJT, FET and MOSFETS), different types of transistor amplifiers, equivalent circuits and frequency response; oscillators and other circuits, feedback amplifiers.

 

PAPER – II

 

1.Analog and Digital Electronics :

Operational amplifiers – Characteristics and applications, combinational and sequential logic circuits, multiplexers, multi-vibrators, sample and hold circuits, A/D and D/A converters, basics of filter circuits and applications, simple active filters; Microprocessor basics-interfaces and applications, basics of linear integrated circuits; Analog communication basics, Modulation and de- modulation, noise and bandwidth, transmitters and receivers, signal to noise ratio, digital communication basics, sampling, quantizing, coding, frequency and time domain multiplexing, power line carrier communication systems.

 

  1. Systems and signal Processing :

Representation of continuous and discrete-time signals, shifting and scaling operations, linear, time- invariant and causal systems, Fourier series representation of continuous periodic signals, sampling theorem, Fourier and Laplace transforms, Z transforms, Discrete Fourier transform, FFT, Linear convolution, discrete cosine transform, FIR filter, IIR filter, bilinear transformation. 

 

3.Control Systems :

Principles of feedback, transfer function, block diagrams and signal flow graphs, steady-state errors, transforms and their applications; Routh-hurwitz criterion, Nyquist techniques, Bode plots, root loci, lag, lead and lead-lag compensation, stability analysis, transient and frequency response analysis, state space model, state transition matrix, controllability and observability, linear state variable feedback, PID and industrial controllers.

 

  1. Electrical Machines :

Single phase transformers, three phase transformers – connections, parallel operation, auto- transformer, energy conversion principles; DC machines – types, windlings, generator  characteristics, armature reaction and commutation, starting and speed control of motors, Induction motors – principles, types, performance characteristics, starting and speed control,Synchronous machines – performance regulation, parallel operation of generators, motor starting, characteristics and applications; servo and stepper motors.

 

  1. Power Systems :

Basic power generation concepts, steam, gas and water turbines, transmission line models and performance, cable performance, insulation, corona and radio interference, power factor correction, symmetrical components, fault analysis, principles of protection systems, basics of solid state relays and digital protection; Circuit breakers, Radial and ring-main distribution systems, Matrix representation of power systems, load flow analysis, voltage control and economic operations, System stability concepts, Swing curves and equal area criterion. HVDC transmission and FACTS concepts, Concepts of power system dynamics, distributed generation, solar and wind power, smart grid concepts, environmental implications, fundamentals of power economics. 

 

  1. Power Electronics and Drives :

Semiconductor power diodes, transistors, thyristors, triacs, GTOs, MOSFETs and IGBTs – static characteristics and principles of operation, triggering circuits, phase control rectifiers, bridge converters – fully controlled and half controlled, principles of choppers and inverters, basis concepts of adjustable speed DC and AC drives, DC-DC switched mode converters, DA-AC switched more converters, resonant converters, high frequency inductors and transformers, power supplies. 

 

Electronics & Telecommunication Engineering

Contents for syllabus of both the Papers together for Preliminary / Stage-I Examination (Objective type Paper-II) and separately for Main/Stage-II Examination (Conventional type Paper-I and Paper-II).

 

PAPER – I

  1. Basic Electronics Engineering :

Basics of semiconductors; Diode / Transistor basics and characteristics; Diodes for different uses; Junction & Field Effect Transistors Bipolar, MOS and CMOS ICs; Basics of linear ICs, operational amplifiers and their applications-linear / non-linear; Optical sources / detectors; Basics of Opto electronics and its applications.

 

  1. Basic Electrical Engineering :

DC circuits-Ohm’s & Kirchoff’s laws, mesh and nodal analysis, circuit theorems, Electro- magnetism, Faraday’s & Lenz’s laws, induced EMF and its uses; Single-phase AC circuits; Transformers, efficiency; Basics-DC machines, induction machines, and synchronous machines; Electrical power sources-basics; hydroelectric, thermal, nuclear, wind, solar; Basics for batteries and their uses.

 

  1. Materials Science :

Electrical Engineering materials; Crystal structure & defects; Ceramic materials-structures,composites, processing and uses; Insulating laminates for electronics, structures, properties and uses; Magnetic materials, basics, classification, ferrites, ferro / paramagnetic materials and components; Nano materials-basics, preparation, purification, sintering, nanoparticles and uses; Nano optical / magnetic / electronic materials and uses; Superconductivity, uses.

 

  1. Electronic Measurements and Instrumentation :

Principles of measurement, accuracy, precision and standards; Analog and Digital systems for measurement, measuring instruments for different applications; Static / dynamic characteristics of measurement systems, errors, statistical analysis and curve fitting; Measurement systems for non- electrical quantities; Basics of telemetry; Different types of transducers and displays; Data acquisition system basics.

 

  1. Network Theory :

Network graphs & matrices; Wye-Delta transformation: Linear constant coefficient differential equations-time domain analysis of RLC circuits; Solution of network equations using Laplace transforms-frequency domain analysis of RLC circuits; 2-port network parameters-driving point & transfer functions; State equations for networks; Steady state sinusoidal analysis.

 

  1. Analog and Digital Circuits:

Small signal equivalent circuits of diodes, BJTS and FETs; Diode circuits for different uses; Biasing & stability of BJT and JFET amplifier circuits; Analysis / design of amplifier-single/multi-stage; Feedback & uses; Active filters, timers, multipliers, wave shaping, A/D-D/A converters; Boolean Algebra & uses; Logic gates, Digital IC families, Combinatorial / sequential circuits, Basics of multiplexers, counters/registers/memories/microprocessors, design & applications.

 

PAPER – II

  1. Analog and Digital Communication Systems :

Random signals, noise, probability, theory, information theory, Analog versus digital communication & applications; Systems-AM, FM, transmitters/receivers, theory / practice / standards, SNR comparison; Digital communication basics: Sampling, quantizing, coding, PCM, DPCM, multiplexing-audio / video; Digital modulation: ASK, FSK, PSK; Multiple access: TDMA, FDMA, CDMA; Optical communication: fibre optics, theory, practice / standards.

 

  1. Control Systems :

Classification of signals and systems; Application of signal and system theory; System realization; Transforms & their applications; Signal flow graphs, Routh-Hurwitz criteria, root loci, Nyquist / Bode plots; Feedback systems-open & closed loop types, stability analysis, steady state, transient and frequency response analysis; Design of control systems, compensators, elements of lead / lag compensation, PID and industrial controllers.

 

  1. Computer Organization and Architecture :

Basic architecture, CPU, I/O organisation, memory organisation, peripheral devices, trends: Hardware / Software issues: Data representation & Programming; Operating systems-basics, processes, characteristics, applications; Memory management, virtual, memory, file systems, protection & security; Databases, different types, characteristics and design; Transactions and concurrency control, Elements of programming languages, typical examples.

 

  1. Electro Magnetics :

Elements of vector calculus, Maxwell’s equations-basic concepts; Gauss’, Stokes’ theorems; Wave propagation through different media; Transmission Lines-different types, basics, Smith’s chart, impedance matching / transformation, S-parameters, pulse excitation, uses; Waveguides-basics, rectangular types, nodes, cut-off frequency, dispersion, dielectric types; Antennas-radiation pattern, monopoles/dipoles, gain, arrays-active / passive, theory, uses. 

 

  1. Advanced Electronics Topics :

VLSI technology: Processing, lithography, interconnects, packaging, testing; VLSI design: Principles, MUX/ROM/PLA-based design, Moore & Mealy circuit design; Pipeline concepts & functions; Design for testability, examples; DSP: Discrete time signals/systems, uses; Digital filters: FIR / IIR types, design, speech / audio / radar signal processing uses; Microprocessors & microcontrollers, basics, interrupts, BMA, instruction sets, interfacing; Controllers & uses; Embedded systems.

 

  1. Advanced Communication Topics:

Communication networks: Principles / practices / technologies / uses / OSI model / security; Basic packet multiplexed streams / scheduling; Cellular networks, types, analysis, protocols (TCP/TCP IP); Microwave & satellite communication: Terrestrial / space type LOS systems, block schematics link calculations, system design; communication satellites, orbits, characteristics, systems, uses; Fibre-optic communication systems, block schematics, link calculations, system design.

SYLLABUS AND EXAMINATION PLANING FOR NATIONAL DEFENCE ACADEMY (NDA) AND NAVAL ACADEMY(NA) EXAMINATION

UNION PUBLIC SERVICES COMMISSION, DELHI

SYLLABUS AND EXAMINATION PLANNING NATIONAL DEFENCE ACADEMY (NDA) AND NAVAL ACADEMY(NA) EXAMINATION

The exam paper of written exam is divided into two parts – GAT and Mathematics. All the questions in the exam will be objective type. There will be total 150 questions in GAT while the Mathematics part will carry total 120 questions. Each section of the exam will be held for 2½ hours. The GAT section will be for 600 marks while the Mathematics section will carry 300 marks. The structure of NDA exam pattern for written exam is given below.

EXAMINATION PATTERN:

Code

Papers

Subject

Maximum marks

Duration

1

Paper 1

Mathematics

300

2 ½

2

Paper 2

GAT

600

2 ½

Total

900

5 hours

 

Marking Scheme for NDA written exam

Sections

Marks for correct answer

Marks for incorrect answer

GAT

4

1.33

Mathematics

2.5

0.83

 

:SYLLABUS OF EXAMINATION:

 

PAPER-I MATHEMATICS

ALGEBRA

Concept of a set, operations on sets, Venn diagrams. De Morgan laws. Cartesian product, relation, equivalence relation. Representation of real numbers on a line. Complex numbers – basic properties, modulus, argument, cube roots of unity. Binary system of numbers. Conversion of a number in decimal system to binary system and vice-versa. Arithmetic, Geometric and Harmonic progressions. Quadratic equations with real coefficients. Solution of linear inequalities in two variables by graphs. Permutation and Combination. Binomial theorem and its applications. Logarithms and their applications.

 

MATRICES AND DETERMINANTS

Types of matrices, operations on matrices. Determinant of a matrix, basic properties of determinants. Adjoint and inverse of a square matrix, Applications – Solution of a system of linear equations in two or three unknowns by Cramer’s rule and by Matrix Method. 

 

TRIGONOMETRY

Angles and their measures in degrees and in radians. Trigonometrically ratios. Trigonometric identities Sum and difference formulae. Multiple and Sub-multiple angles. Inverse trigonometric functions. Applications – Height and distance, properties of triangles. 

 

ANALYTICAL GEOMETRY OF TWO AND THREE DIMENSIONS

Rectangular Cartesian Coordinate system. Distance formula. Equation of a line in various forms. Angle between two lines. Distance of a point from a line. Equation of a circle in standard and in general form. Standard forms of parabola, ellipse and hyperbola. Eccentricity and axis of a conic. Point in a three dimensional space, distance between two points. Direction Cosines and direction ratios. Equation of a plane and a line in various forms. Angle between two lines and angle between two planes. Equation of a sphere.

 

DIFFERENTIAL CALCULUS 

Concept of a real valued function – domain, range and graph of a function. Composite functions, one to one, onto and inverse functions. Notion of limit, Standard limits -examples. Continuity of functions -examples, algebraic operations on continuous functions. Derivative of function at a point, geometrical and physical interpretation of a derivative – applications. Derivatives of sum, product and quotient of functions, derivative of a function with respect to another function, derivative of a composite function. Second order derivatives. Increasing and decreasing functions. Application of derivatives in problems of maxima and minima. 

 

INTEGRAL CALCULUS AND DIFFERENTIAL EQUATIONS

Integration as the inverse of differentiation, integration by substitution and by parts, standard integrals involving algebraic expressions, trigonometric, exponential and hyperbolic functions. Evaluation of definite integrals – determination of areas of plane regions bounded by curves – applications. Definition of order and degree of a differential equation, formation of a differential equation by examples. General and particular solution of differential equations, solution of first order and first degree differential equations of various types – examples. Application in problems of growth and decay.

VECTOR ALGEBRA Vectors in two and three dimensions, magnitude and direction of a vector. Unit and null vectors, addition of vectors, scalar multiplication of a vector, scalar product or dot product of two vectors. Vector product or cross product of two vectors. Applications work done by a force and moment of a force and in geometrical problems.

 

STATISTICS AND PROBABILITY

Statistics : Classification of data, Frequency distribution, cumulative frequency distribution – examples. Graphical representation – Histogram, Pie Chart, frequency polygon – examples. Measures of Central tendency – Mean, median and mode. Variance and standard deviation – determination and comparison. Correlation and regression.

Probability : Random experiment, outcomes and associated sample space, events, mutually exclusive and exhaustive events, impossible and certain events. Union and Intersection of events. Complementary, elementary and composite events. Definition of probability – classical and statistical -examples. Elementary theorems on probability – simple problems. Conditional probability, Bayes’ theorem – simple problems. Random variable as a function on a sample space. Binomial distribution, examples of random experiments giving rise to Binomial distribution.

Part ‘A’ – ENGLISH

(Maximum Marks 200)

The question paper in English will be designed to test the candidate’s understanding of English and workman like use of words. The syllabus covers various aspects like : Grammar and usage, vocabulary, comprehension and cohesion in extended text to test the candidate’s proficiency in English.

 

Part ‘B’ – GENERAL KNOWLEDGE

(Maximum Marks-400)

The question paper on General Knowledge will broadly cover the subjects : Physics, Chemistry, General Science, Social Studies, Geography and Current Events. The syllabus given below is designed to indicate the scope of these subjects included in this paper. The topics mentioned are not to be regarded as exhaustive and questions on topics of similar nature not specifically mentioned in the syllabus may also be asked. Candidate’s answers are expected to show their knowledge and intelligent understanding of the subject. 

 

Section ‘A’ (Physics) 

Physical Properties and States of Matter, Mass, Weight, Volume, Density and Specific

Gravity, Principle of Archimedes, Pressure Barometer. Motion of objects, Velocity and Acceleration, Newton’s Laws of Motion, Force and Momentum, Parallelogram of Forces, Stability and Equilibrium of bodies, Gravitation, elementary ideas of work, Power and Energy. Effects of Heat, Measurement of temperature and heat, change of State and Latent

Heat, Modes of transference of Heat. Sound waves and their properties, Simple musical instruments. Rectilinear propagation of Light, Reflection and refraction. Spherical mirrors and Lenses. Human Eye. Natural and Artificial Magnets, Properties of a Magnet, Earth as a Magnet. Static and Current Electricity, conductors and Non-conductors, Ohm’s Law, Simple Electrical Circuits, Heating, Lighting and Magnetic effects of Current, Measurement of Electrical Power, Primary and Secondary Cells, Use of X-Rays. General Principles in the working of the following: Simple Pendulum, Simple Pulleys, Siphon, Levers, Balloon, Pumps, Hydrometer,  Pressure Cooker, Thermos Flask, Gramophone, Telegraphs, Telephone, Periscope, Telescope, Microscope, Mariner’s Compass; Lightening Conductors, Safety Fuses. 

 

Section ‘B’ (Chemistry)

Physical and Chemical changes. Elements, Mixtures and Compounds, Symbols, Formulae and simple Chemical Equations, Law of Chemical Combination (excluding problems). Properties of Air and Water. Preparation and Properties of Hydrogen, Oxygen, Nitrogen and Carbondioxide, Oxidation and Reduction. Acids, bases and salts. Carbon – different forms. Fertilizers – Natural and Artificial Material used in the preparation of substances

like soap, Glass, Ink, Paper, Cement, Paints, Safety Matches, and Gun-Powder. Elementary ideas about the Structure of Atom, Atomic, Equivalent and Molecular Weights, Valency. 

 

Section ‘C’ (General Science)

Difference between the living and non- living. Basis of Life – Cells, Protoplasms and Tissues. Growth and Reproduction in Plants and Animals. Elementary knowledge of Human Body and its important organs. Common Epidemics, their causes and prevention. Food – Source of Energy for man. Constituents of food, Balanced Diet. The Solar System – Meteors and Comets, Eclipses. Achievements of Eminent Scientists.

 

Section ‘D’ (History, Freedom Movement etc.)

A broad survey of Indian History, with emphasis on Culture and Civilisation. Freedom Movement in India. Elementary study of Indian Constitution and Administration. Elementary knowledge of Five Year Plans of India. Panchayati Raj, Co-operatives and Community Development. Bhoodan, Sarvodaya, National Integration and Welfare State, Basic Teachings of Mahatma Gandhi. Forces shaping the modern world; Renaissance,

Exploration and Discovery; War of American Independence. French Revolution, Industrial Revolution and Russian Revolution. Impact of Science and Technology on Society. Concept of one World, United Nations, Panchsheel, Democracy. Socialism and Communism. Role of India in the present world.

 

Section ‘E’ (Geography)

The Earth, its shape and size. Latitudes and Longitudes, Concept of time. International Date Line. Movements of Earth and their effects. Origin of Earth. Rocks and their classification;

Weathering – Mechanical and Chemical, Earthquakes and volcanoes. Ocean Currents and Tides Atmosphere and its composition; Temperature and Atmospheric Pressure, Planetary Winds, cyclones and Anti-cyclones; Humidity; Condensation and Precipitation; Types of Climate. Major Natural regions of the World. Regional Geography of India – Climate, Natural vegetation. Mineral and Power resources; location and distribution of agricultural and industrial activities. Important Sea ports and main sea, land and air routes of India. Main items of Imports and Exports of India.

 

Section ‘F’ (Current Events)

Knowledge of Important events that have happened in India in the recent years. Current important world events. Prominent personalities – both Indian and International including those connected with cultural activities and sports.

 

PAPER-II GENERAL ABILITY TEST

Part ‘A’ – ENGLISH

(Maximum Marks 200)

The question paper in English will be designed to test the candidate’s understanding of English and workman like use of words. The syllabus covers various aspects like : Grammar and usage, vocabulary, comprehension and cohesion in extended text to test the candidate’s proficiency in English.

 

Part ‘B’ – GENERAL KNOWLEDGE

(Maximum Marks-400)

The question paper on General Knowledge will broadly cover the subjects : Physics, Chemistry, General Science, Social Studies, Geography and Current Events. The syllabus given below is designed to indicate the scope of these subjects included in this paper. The topics mentioned are not to be regarded as exhaustive and questions on topics of similar nature not specifically mentioned in the syllabus may also be asked. Candidate’s answers are expected to show their knowledge and intelligent understanding of the subject. 

 

Section ‘A’ (Physics) 

Physical Properties and States of Matter, Mass, Weight, Volume, Density and Specific

Gravity, Principle of Archimedes, Pressure Barometer. Motion of objects, Velocity and Acceleration, Newton’s Laws of Motion, Force and Momentum, Parallelogram of Forces, Stability and Equilibrium of bodies, Gravitation, elementary ideas of work, Power and Energy. Effects of Heat, Measurement of temperature and heat, change of State and Latent

Heat, Modes of transference of Heat. Sound waves and their properties, Simple musical instruments. Rectilinear propagation of Light, Reflection and refraction. Spherical mirrors and Lenses. Human Eye. Natural and Artificial Magnets, Properties of a Magnet, Earth as a Magnet. Static and Current Electricity, conductors and Non-conductors, Ohm’s Law, Simple Electrical Circuits, Heating, Lighting and Magnetic effects of Current, Measurement of Electrical Power, Primary and Secondary Cells, Use of X-Rays. General Principles in the working of the following: Simple Pendulum, Simple Pulleys, Siphon, Levers, Balloon, Pumps, Hydrometer,  Pressure Cooker, Thermos Flask, Gramophone, Telegraphs, Telephone, Periscope, Telescope, Microscope, Mariner’s Compass; Lightening Conductors, Safety Fuses. 

 

Section ‘B’ (Chemistry)

Physical and Chemical changes. Elements, Mixtures and Compounds, Symbols, Formulae and simple Chemical Equations, Law of Chemical Combination (excluding problems). Properties of Air and Water. Preparation and Properties of Hydrogen, Oxygen, Nitrogen and Carbondioxide, Oxidation and Reduction. Acids, bases and salts. Carbon – different forms. Fertilizers – Natural and Artificial Material used in the preparation of substances

like soap, Glass, Ink, Paper, Cement, Paints, Safety Matches, and Gun-Powder. Elementary ideas about the Structure of Atom, Atomic, Equivalent and Molecular Weights, Valency. 

 

Section ‘C’ (General Science)

Difference between the living and non- living. Basis of Life – Cells, Protoplasms and Tissues. Growth and Reproduction in Plants and Animals. Elementary knowledge of Human Body and its important organs. Common Epidemics, their causes and prevention. Food – Source of Energy for man. Constituents of food, Balanced Diet. The Solar System – Meteors and Comets, Eclipses. Achievements of Eminent Scientists.

 

Section ‘D’ (History, Freedom Movement etc.)

A broad survey of Indian History, with emphasis on Culture and Civilisation. Freedom Movement in India. Elementary study of Indian Constitution and Administration. Elementary knowledge of Five Year Plans of India. Panchayati Raj, Co-operatives and Community Development. Bhoodan, Sarvodaya, National Integration and Welfare State, Basic Teachings of Mahatma Gandhi. Forces shaping the modern world; Renaissance,

Exploration and Discovery; War of American Independence. French Revolution, Industrial Revolution and Russian Revolution. Impact of Science and Technology on Society. Concept of one World, United Nations, Panchsheel, Democracy. Socialism and Communism. Role of India in the present world.

 

Section ‘E’ (Geography)

The Earth, its shape and size. Latitudes and Longitudes, Concept of time. International Date Line. Movements of Earth and their effects. Origin of Earth. Rocks and their classification;

Weathering – Mechanical and Chemical, Earthquakes and volcanoes. Ocean Currents and Tides Atmosphere and its composition; Temperature and Atmospheric Pressure, Planetary Winds, cyclones and Anti-cyclones; Humidity; Condensation and Precipitation; Types of Climate. Major Natural regions of the World. Regional Geography of India – Climate, Natural vegetation. Mineral and Power resources; location and distribution of agricultural and industrial activities. Important Sea ports and main sea, land and air routes of India. Main items of Imports and Exports of India.

 

Section ‘F’ (Current Events)

Knowledge of Important events that have happened in India in the recent years. Current important world events. Prominent personalities – both Indian and International including those connected with cultural activities and sports.

SYLLABUS AND EXAMINATION PLANING FOR COMBINED GEO-SCIENTIST EXAMINATION

UNION PUBLIC SERVICES COMMISSION, DELHI

SYLLABUS AND EXAMINATION PLANNING COMBINED GEO-SCIENTIST EXAMINATION 

The Union Public Service Commission in consultation with the Government (Ministry of Mines, the Nodal Ministry) has decided to revise the Scheme, Pattern and Syllabi of the Combined Geo-Scientist and Geologist Examination. The salient features of the same are as under: 

(i) The nomenclature of this Examination has been changed to “Combined Geo-Scientist Examination” in place of “Combined Geo-Scientist and Geologist Examination”. 

(ii) There will a three tier examination pattern i.e.

     (i) Stage-I : Preliminary Examination

     (ii) Stage-II : Main Examination

     (iii) Stage-III : Personality Test. 

(iii) Preliminary Examination will screen the candidates for taking the Main  Examination (Stage–II). 

(iv) The Preliminary Examination will be of objective type having two Papers. Marks secured in this Examination will be counted for deciding the final merit. 

(v) The Preliminary Examination will be a Computer Based Examination. 

(vi) The Main Examination will have three Papers for each Stream and all Papers will be of descriptive type. Marks secured in this Examination will be counted for deciding the final merit. 

(vii) Existing General English Paper has been discontinued. 

(viii) The Revised Scheme, Pattern and Syllabi of the Examination will be made effective from the 2020 Examination to give sufficient preparation time to the aspirants. 

2. The details of this revised Scheme, Pattern and Syllabi are attached. 

Plan of Examination: 

1. The Examination shall be conducted according to the following plan:— 

(i) Stage-I: Combined Geo-Scientist (Preliminary) Examination (Objective Type Papers) 

(ii) Stage-II: Combined Geo-Scientist (Main) Examination (Descriptive Type Papers) 

(iii) Stage-III: Personality Test 

2. The detailed scheme and syllabi of Combined Geo-Scientist Examination is as under: 

Stage-I 

Combined Geo-Scientist (Preliminary) Examination [Objective-type]:- 

The Examination shall comprise of two papers. 

Stream-I : Geologist & Jr. Hydrogeologist
Subject Duration Maximum Marks
Paper-I : General Studies 2 Hours 100 Marks
Paper-II : Geology/Hydrogeology 2 Hours 300 Marks
Total 400 Marks

 

Stream-II : Geophysicist 
Subject Duration Maximum Marks
Paper-I : General Studies 2 Hours 100 Marks 2 Hours 100 Marks
Paper-II : Geophysics 2 Hours 300 Marks
Total 400 Marks

 

Stream-III : Chemist
Subject Duration Maximum Marks
Paper-I : General Studies  2 Hours 100 Marks
Paper-II : Chemistry  2 Hours 300 Marks
Total 400 Marks

Stage-II 

Combined Geo-Scientist (Main) Examination [Descriptive-type]:- 

The Examination shall comprise of three papers in each stream. 

Stream-I : Geologist
Subject Duration Maximum Marks
Paper-I : Geology  3 Hours 200 Marks
Paper-II : Geology  3 Hours 200 Marks
Paper-III : Geology  3 Hours  200 Marks
Total 600 Marks

 

Stream-II : Geophysicist
Subject Duration Maximum Marks
Paper-I : Geophysics  3 Hours 200 Marks
Paper-II : Geophysics  3 Hours 200 Marks
Paper-III : Geophysics  3 Hours  200 Marks
Total 600 Marks

 

Stream-III : Chemist
Subject Duration Maximum Marks
Paper-I : Chemistry  3 Hours 200 Marks
Paper-II : Chemistry   3 Hours 200 Marks
Paper-III : Chemistry   3 Hours  200 Marks
Total 600 Marks

 

Stream-IV : Jr. Hydrogeologist
Subject Duration Maximum Marks
Paper-I : Geology  3 Hours 200 Marks
Paper-II : Geology   3 Hours 200 Marks
Paper-III : Geology   3 Hours  200 Marks
Total 600 Marks

Stage-III

Personality Test – 200 Marks 

 

:SYLLABUS OF EXAMINATION:

Preliminary Examination 

Stage-I 

Paper-I : General Studies (Common for all streams) 

• Current events of national and international importance. 

• History of India and Indian National Movement. 

• Indian and World Geography -Physical, Social, Economic Geography of India and the World. 

• Indian Polity and Governance -Constitution, Political System, Panchayati Raj, Public Policy, Rights Issues, etc. 

• Economic and Social Development – Sustainable Development, Poverty, Inclusion, Demographics, Social Sector initiatives, etc. 

• General issues on Environmental Ecology, Bio-diversity and Climate Change – that do not require subject specialisation 

• General Science  

Paper-II : Geology/Hydrogeology 

1. Physical Geology 

Principle of uniformitarianism; origin, differentiation and internal structure of the Earth; origin of atmosphere; earthquakes and volcanoes; continental drift, sea-floor spreading, isostasy, orogeny and plate tectonics; geological action of rivers, wind, glaciers, waves; erosional and depositional landforms; weathering processes and products. 

2. Structural Geology 

Stress, strain and rheological properties of rocks; planar and linear structures; classification of folds and faults; Mohr’s circle and criteria for failure of rocks; ductile and brittle shear in rocks; study of toposheets, V-rules and outcrop patterns; stereographic projections of structural elements. 

3. Mineralogy 

Elements of symmetry, notations and indices; Bravais lattices; chemical classification of minerals; isomorphism, polymorphism, solid solution and exsolution; silicate structures; physical and optical properties of common rock forming minerals- olivine, garnet, pyroxene, amphibole, mica, feldspar and quartz. 

4. Igneous Petrology 

Magma types and their evolution; IUGS classification of igneous rocks; forms, structures and textures of igneous rocks; applications of binary and ternary phase diagrams in petrogenesis; magmatic differentiation and assimilation; petrogenesis of granites, basalts, komatiiites and alkaline rocks (carbonatite, kimberlite, lamprophyre and nepheline syenite). 

5. Metamorphic Petrology 

Limits, types and controls of metamorphism; metamorphic structures- slate, schist and gneiss; metamorphic textures- pre, syn and post tectonic porphyroblasts; concept of metamorphic zone, isograd and facies; geothermal gradients, facies series and plate tectonics. 

6. Sedimentology 

Origin of sediments; sedimentary textures, grain-size scale; primary sedimentary structures; classification of sandstone and carbonate rocks; siliciclastic depositional environments and sedimentary facies; diagenesis of carbonate sediments. 

7. Paleontology 

Fossils and processes of fossilization; concept of species and binomial nomenclature; morphology and classification of invertebrates (Trilobites, Brachiopods, Lamellibranchs, Gastropods and Cephalopods); evolution in Equidae and Hominidae; microfossils-Foraminifera, Ostracoda; Gondwana flora. 

8. Stratigraphy 

Law of superposition; stratigraphic nomenclature- lithostratigraphy, biostratigraphy and chronostratigraphy; Archaean cratonic nucleii of Peninsular India (Dharwar, Singhbhum, and Aravalli cratons); Proterozoic mobile belts (Central Indian Tectonic Zone, Aravalli-Delhi and Eastern Ghats); Purana sedimentary basins (Cuddapah and Vindhyan); Phanerozoic stratigraphy of India- Spiti, Kashmir, Damodar valley, Kutch, Trichinopoly, Siwaliks and Indo-Gangetic alluvium. 

9. Economic Geology 

Properties of mineral deposits- form, mineral assemblage, texture, rock- ore association and relationship; magmatic, sedimentary, metamorphic, hydrothermal, supergene and weathering-related processes of ore formation; processes of formation of coal and petroleum; distribution and geological characteristics of major mineral and hydrocarbon deposits of India. 

10. Hydrogeology 

Groundwater occurrence and aquifer characteristics, porosity, permeability, hydraulic conductivity, transmissivity; Darcy’s Law in homogenous and heterogenous media; Bernoulli equation, Reynold’s number; composition of groundwater; application of H and O isotopes in groundwater studies; artificial recharge of groundwater. *****  

Paper-II : Geophysics 

1. Solid Earth Geophysics: 

Introduction to Geophysics and its branches. Solar system: origin, formation and characteristics of planets, Earth: shape and rotation. Gravity and magnetic fields of earth. Geomagnetism, elements of earth’s magnetism, Rock and mineral magnetism, Elastic waves, types and their propagation characteristics, internal structure of earth, variation of physical properties in the interior of earth. Plate tectonics, Earthquakes and their causes, focal depth, epicenter, Intensity and Magnitude scales, Energy of earthquakes, Seismicity. 

2. Mathematical Methods in Geophysics: 

Elements of vector analysis, Vector algebra, Properties of scalars, vectors and tensors, Gradient, Divergence and Curl, Gauss’s divergence theorem, Stoke’s theorem. Matrices, Eigen values and Eigen vectors and their applications in geophysics. Newton’s Law of gravitation, Gravity potential and gravity fields due to bodies of different geometric shapes. Basic Forces of Nature and their strength: Gravitational, Electromagnetic, Strong and Weak forces. Conservation Laws in Physics: Energy, Linear and angular momentum. Rigid body motion and moment of inertia. Basics of special theory of relativity and Lorentz transformation. 

Fundamental concepts of inverse theory, Definition of inversion and application to Geophysics. Forward and Inverse problems. Probability theory, Random variables, binomial, Poisson and normal distributions. Linear algebra, Linear ordinary differential equations of first and second order. Partial differential equations (Laplace, wave and heat equations in two and three dimensions). Elements of numerical techniques: root of functions, interpolation, and extrapolation, integration by trapezoid and Simpson’s rule, solution of first order differential equation using Runge-Kutta method, Introduction to finite difference and finite elements methods. 

3. Electromagnetism: 

Electrostatic and magneto-static fields, Coulomb’s law, Electrical permittivity and dielectric constant, Lorentz force and their applications. 

Ampere’s law, Biot and Savart’s law, Gauss’s Theorem, Poisson’s equation. Laplace’s equation: solution of Laplace’s equation in Cartesian coordinates, use of Laplace’s equation in the solutions of geophysical and electrostatic problems. Displacement current, Faraday’s law of electromagnetic induction. Maxwell’s equations. Boundary conditions. Wave equation, plane electromagnetic waves in free space, dielectric and conducting media, electromagnetic vector and scalar potentials. 

4. Geophysical Prospecting: 

Elements of geophysical methods: Principles, data reduction and applications of gravity, magnetic, electrical, electromagnetic and well logging methods. Fundamentals of seismic methods: Fermat’s Principle, Snell’s Law, Energy portioning, Reflection and transmission coefficients, Reflection and Refraction from layered media. Signals and systems, sampling theorem, aliasing effect, Fourier series and periodic waveforms, Fourier transform and its application, Laplace transforms, Convolution, Auto and cross correlations, Power spectrum, Delta function, unit step function. 

5. Remote Sensing and Thermodynamics: 

Fundamentals of remote sensing, electromagnetic spectrum, energy- frequency-wavelength relationship, Stefan-Boltzmann Law, Wien’s Law, electromagnetic energy and its interactions in the atmosphere and with terrain features. Planck’s Radiation Law. Laws of thermodynamics and thermodynamic potential. 

6. Nuclear Physics and Radiometry: 

Basic nuclear properties: size, shape, charge distribution, spin and parity; Binding energy, semi-empirical mass formula; Fission and fusion. Principles of radioactivity, Alpha, beta and gamma decays, Photoelectric and Compton Effect, Pair Production, radioactivity decay law, radioactivity of rocks and minerals, Radiation Detectors: Ionization chamber, G-M counter, Scintillation counter and Gamma ray spectrometer. Matter Waves and wave particle duality, Electron spin, Spectrum of Hydrogen, helium and alkali atoms.  

Paper-II : Chemistry 


1. Chemical periodicity: 

Schrödinger equation for the H-atom. Radial distribution curves for 1s, 2s, 2p, 3s, 3p, 3d orbitals. Electronic configurations of multi-electron atoms. 

Periodic table, group trends and periodic trends in physical properties. Classification of elements on the basis of electronic configuration. Modern IUPAC Periodic table. General characteristics of s, p, d and f block elements. Effective nuclear charges, screening effects, atomic radii, ionic radii, covalent radii. Ionization enthalpy, electron gain enthalpy and electronegativity. Group trends and periodic trends in these properties in respect of s-, p- and d-block elements. General trends of variation of electronic configuration, elemental forms, metallic nature, magnetic properties, catenation and catalytic properties, oxidation states, aqueous and redox chemistry in common oxidation states, properties and reactions of important compounds such as hydrides, halides, oxides, oxy-acids, complex chemistry in respect of s-block and p-block elements. 

2. Chemical bonding and structure: 

Ionic bonding: Size effects, radius ratio rules and their limitations. Packing of ions in crystals, lattice energy, Born-Landé equation and its applications, Born-Haber cycle and its applications. Solvation energy, polarizing power and polarizability, ionic potential, Fajan’s rules. Defects in solids. 

Covalent bonding: Valence Bond Theory, Molecular Orbital Theory, hybridization. Concept of resonance, resonance energy, resonance structures. 

Coordinate bonding: Werner theory of coordination compounds, double salts and complex salts. Ambidentate and polydentate ligands, chelate complexes. IUPAC nomenclature of coordination compounds. Coordination numbers, Geometrical isomerism. Stereoisomerism in square planar and octahedral complexes. 

3. Acids and bases: 

Chemical and ionic equilibrium. Strengths of acids and bases. Ionization of weak acids and bases in aqueous solutions, application of Ostwald’s dilution law, ionization constants, ionic product of water, pH-scale, effect of temperature on pH, buffer solutions and their pH values, buffer action & buffer capacity; different types of buffers and Henderson’s equation. 

4. Theoretical basis of quantitative inorganic analysis: 

Volumetric Analysis: Equivalent weights, different types of solutions, normal and molar solutions. Primary and secondary standard substances. 

General principles of different types of titrations: i) acid-base, ii) redox, iii) complexometric, iv) Precipitation. Types of indicators – i) acid-base, ii) redox iii) metal-ion indicators. 

5. Kinetic theory and the gaseous state: 

Kinetic theory of gases, average kinetic energy of translation, Boltzmann constant and absolute scale of temperature. Maxwell-Boltzmann distribution of speeds. Calculations of average, root mean square and most probable velocities. 

Collision diameter; collision number and mean free path; frequency of binary collisions; wall collision and rate of effusion. 

6. Chemical thermodynamics and chemical equilibrium: 

First law and its applications to chemical problems. Thermodynamic functions. Total differentials and state functions. Free expansion, Joule- Thomson coefficient and inversion temperature. Hess’ law.  

Applications of Second law of thermodynamics. Gibbs function (G) and Helmholtz function (A), Gibbs-Helmholtz equation, criteria for thermodynamic equilibrium and spontaneity of chemical processes. 

7. Solutions of non-electrolytes: 

Colligative properties of solutions, Raoult’s Law, relative lowering of vapour pressure, osmosis and osmotic pressure; elevation of boiling point and depression of freezing point of solvents. Solubility of gases in liquids and solid solutions. 

8. Electrochemistry: 

Cell constant, specific conductance and molar conductance. Kohlrausch’s law of independent migration of ions, ion conductance and ionic mobility. Equivalent and molar conductance at infinite dilution. Debye-Hückel theory. Application of conductance measurements. Conductometric titrations. Determination of transport number by moving boundary method. 

9. Basic organic chemistry: 

Delocalized chemical bond, resonance, conjugation, hyperconjugation, hybridisation, orbital pictures of bonding sp3, sp2, sp: C-C, C-N and C-O system), bond polarization and bond polarizability. Reactive intermediates: General methods of formation, relative stability and reactivity of carbocations, carbanions and free radicals. 

10. Stereochemistry: 

Configuration and chirality (simple treatment of elements of symmetry), optical isomerism of compounds containing two to three stereogenic centres, R,S nomenclature, geometrical isomerism in compounds containing two C=C double bonds (E,Z naming), and simple cyclic systems, Newman projection (ethane and substituted ethane). 

11. Types of organic reactions: 

Aliphatic substitution reactions: SN1, SN2 mechanisms, stereochemistry, relative reactivity in aliphatic substitutions. Effect of substrate structure, attacking nucleophile, leaving group and reaction medium and competitive reactions. 

Elimination reactions: E1, E2, mechanisms, stereochemistry, relative reactivity in aliphatic eliminations. Effect of substrate structure, attacking base, leaving group, reaction medium and competitive reactions, orientation of the double bond, Saytzeff and Hoffman rules. 

Addition reactions: Electrophilic, nucleophilic and radical addition reactions at carbon-carbon double bonds. 

Electrophilic and nucleophilic aromatic substitution: Electrophilic (halogenation, sulphonation, nitration, Friedal-Crafts alkylation and acylation), nucleophilic (simple SNAr, SN1 and aryne reactions). 

12. Molecular Rearrangements: 

Acid induced rearrangement and Wagner-Meerwein rearrangements. Neighbouring group participation. 

 

Main Examination 

Stage-II (Descriptive Type) 

Paper-I : Geology

Section A. Physical geology and remote sensing 

Evolution of Earth; Earth’s internal structure; earthquakes and volcanoes; principles of geodesy, isostasy; weathering- processes and products; geomorphic landforms formed by action of rivers, wind, glaciers, waves and groundwater; features of ocean floor; continental shelf, slope and rise; concepts of landscape evolution; major geomorphic features of India- coastal, peninsular and extrapeninsular. 

Electromagnetic spectrum; electromagnetic bands in remote sensing; spectral signatures of soil, rock, water and vegetation; thermal, near infra-red and microwave remote sensing; digital image processing; LANDSAT, IRS and SPOT- characteristics and use; aerial photos- types, scale, parallax, relief displacement; elements of image interpretation. 

Section B. Structural geology 

Principles of geological mapping; kinematic and dynamic analysis of deformation; stress-strain relationships for elastic, plastic and viscous materials; measurement of strain in deformed rocks; structural analysis of fold, cleavage, boudin, lineation, joint, and fault; stereographic projection of linear and planar structures; superposed deformation; deformation at microscale- dynamic and static recrystallisation, controls of strain rate and temperature on development of microfabrics; brittle and ductile shear zones; time relationship between crystallisation and deformation, calculation of paleostress. 

Section C. Sedimentology 

Classification of sedimentary rocks; sedimentary textures- grain size, roundness, sphericity, shape and fabric; quantitative grain size analysis; sediment transport and deposition- fluid and sediment gravity flows, laminar and turbulent flows, Reynold’s number, Froude number, grain entrainment, Hjulstrom diagram, bed load and suspension load transport; primary sedimentary structures; penecontemporaneous deformation structure; biogenic structures; principles and application of paleocurrent analysis; composition and significance of different types of sandstone, limestone, banded iron formation, mudstone, conglomerate; carbonate diagenesis and dolomitisation; sedimentary environments and facies- facies models for fluvial, glacial, deltaic, siliciclastic shallow and deep marine environments; carbonate platforms- types and facies models; sedimentation in major tectonic settings; principles of sequence stratigraphy- concepts and factors controlling base level changes, parasequence, clinoform, systems tract, unconformity and sequence boundary. 

Section D. Paleontology 

Fossil record and geological time scale; modes of preservation of fossils and concept of taphonomy; body- and ichno-fossils, species concept, organic evolution, Ediacara Fauna; morphology and time range of Graptolites, Trilobites, Brachiopods, Lamellibranchs, Gastropods, Cephalopods, Echinoids and Corals; evolutionary trends in Trilobites, Lamellibranchs, Gastropods and Cephalopods; micropaleontology- methods of preparation of microfossils, morphology of microfossil groups (Foraminifera, Ostracoda), fossil spores, pollen and dinoflagellates; Gondwana plant fossils and their significance; vertebrate life through ages, evolution in Proboscidea, Equidae and Hominidae; applications of paleontological data in stratigraphy, paleoecology and paleoclimatology; mass extinctions. 

Section E. Stratigraphy 

Principles of stratigraphy- code of stratigraphic nomenclature of India; lithostratigraphy, biostratigraphy, chronostratigraphy and magnetostratigraphy; principles of stratigraphic correlation; characteristics of Archean granite- greenstone belts; Indian stratigraphy- geological evolution of Archean nucleii (Dharwar, Bastar, Singhbhum, Aravalli and Bundelkhand); Proterozoic mobile belts- Eastern Ghats Mobile Belt, Southern Granulite Terrain, Central Indian Tectonic Zone, Aravalli-Delhi Belt, North Singhbhum Mobile Belt; Proterozoic sedimentary basins (Cuddapah and Vindhyan); Phanerozoic stratigraphy- Paleozoic (Spiti, Kashmir and Kumaon), Mesozoic (Spiti, Kutch, Narmada Valley and Trichinopoly), Gondwana Supergroup, Cenozoic (Assam, Bengal basins, Garhwal-Shimla Himalayas); Siwaliks; boundary problems in Indian stratigraphy. 

 

Paper-II : Geology 

Section A. Mineralogy 

Symmetry, motif, Miller indices; concept of unit cell and Bravais lattices; 32 crystal classes; types of bonding, Pauling’s rules and coordination polyhedra; crystal imperfections- defects, twinning and zoning; polymorphism, pseudomorphism, isomorphism and solid solution; physical properties of minerals; polarising microscope and accessory plate; optical properties of minerals- double refraction, polarisation, pleochroism, sign of elongation, interference figure and optic sign; structure, composition, physical and optical properties of major rock-forming minerals- olivine, garnet, aluminosilicates, pyroxene, amphibole, mica, feldspar, clay, silica and spinel group. 

Section B. Geochemistry and isotope geology 

Chemical composition and characteristics of atmosphere, lithosphere, hydrosphere; geochemical cycles; meteorites- types and composition; Goldschmidt’s classification of elements; fractionation of elements in minerals/rocks; Nernst’s partition coefficient (compatible and incompatible elements), Nernst-Berthelot partition coefficient and bulk partition coefficient; Fick’s laws of diffusion and activity composition relation (Roult’s and Henry’s law); application of trace elements in petrogenesis; principles of equilibrium and Rayleigh fractionation; REE patterns, Eh and pH diagrams and mineral stability. 

Half-life and decay equation; dating of minerals and rocks with potassium- argon, rubidium-strontium, uranium-lead and samarium-neodymium isotopes; petrogenetic implications of samarium-neodymium and rubidium-strontium systems; stable isotope geochemistry of carbon, oxygen and sulphur and their applications in geology; monazite chemical dating. 

Section C. Igneous petrology 

Viscosity, temperature and pressure relationships in magmas; IUGS classification of plutonic and volcanic rocks; nucleation and growth of minerals in magmatic rocks, development of igneous textures; magmatic evolution (differentiation, assimilation, mixing and mingling); types of mantle melting (batch, fractional and dynamic); binary (albite-anorthite, forsterite-silica and diopside-anorthite) and ternary (diopside-forsterite-silica, diopside-forsterite- anorthite and nepheline-kalsilite-silica) phase diagrams and relevance to magmatic crystallization; petrogenesis of granites, basalts, ophiolite suite, komatiites, syenites, boninites, anorthosites and layered complexes, and alkaline rocks (carbonatite, kimberlite, lamproite, lamprophyre); mantle metasomatism, hotspot magmatism and large igneous provinces of India. 

Section D. Metamorphic petrology 

Limits and physico-chemical controls (pressure, temperature, fluids and bulk rock composition) of metamorphism; concept of zones, facies, isograds and facies series, geothermal gradients and tectonics of orogenic belts; structures, micro-structures and textures of regional and contact metamorphic rocks; representation of metamorphic assemblages (ACF, AKF and AFM diagrams); equilibrium concept in thermodynamics; laws of thermodynamics, enthalpy, entropy, Gibb’s free energy, chemical potential, fugacity and activity; tracing the chemical reactions in P-T space, phase rule and mineralogical phase rule in multi-component system; Claussius-Clapeyron equation and slopes of metamorphic reactions; heat flow, diffusion and mass transfer; Fourier’s law of heat conduction; geothermobarometry; mass and energy change during fluid- rock interactions; charnockite problem, formation of skarns, progressive and retrogressive metamorphism of pelitic, calcareous and basic rocks; P-T-t path and tectonic setting. 

Section E. Geodynamics 

Phase transitions and seismic discontinuities in the Earth; seismic waves and relation between Vp, Vs and density; seismic and petrological Moho; rheology of rocks and fluids (Newtonian and non-Newtonian liquids); rock magnetism and its origin; polarity reversals, polar wandering and supercontinent cycles; continental drift, sea floor spreading; gravity and magnetic anomalies of ocean floors and their significance; mantle plumes and their origin; plate tectonics- types of plate boundaries and their inter-relationship; heat flow and heat production of the crust. 

 

Paper-III : Geology 

Section A. Economic geology 

Ore minerals and industrial minerals; physical and optical properties of ore minerals; ore textures and paragenesis; characteristics of mineral deposits- spatial and temporal distribution, rock-ore association; syngenetic and epigenetic deposits, forms of ore bodies, stratiform and strata-bound deposits; ore forming processes- source and migration of ore constituents and ore fluid, mechanism of ore deposition; magmatic and pegmatitic deposits (chromite, Ti- magnetite, diamond, Cu-Ni sulphide, PGE, REE, muscovite, rare metals); hydrothermal deposits (porphyry Cu-Mo, greisen Sn-W, skarn, VMS and SEDEX type sulphide deposits, orogenic gold); sedimentary deposits (Fe, Mn, phosphorite, placer); supergene deposits (Cu, Al, Ni and Fe); metamorphic and metamorphosed deposits (Mn, graphite); fluid inclusions in ore mineral assemblage- physical and chemical properties, microthermometry; stable isotope (S, C, O, H) in ore genesis- geothermometry, source of ore constituents; global tectonics and mineralisation. 

Section B. Indian mineral deposits and mineral economics 

Distribution of mineral deposits in Indian shield; geological characteristics of important industrial mineral and ore deposits in India- chromite, diamond, muscovite, Cu-Pb-Zn, Sn-W, Au, Fe-Mn, bauxite; minerals used in refractory, fertilizer, ceramic, cement, glass, paint industries; minerals used as abrasive, filler; building stones. 

Strategic, critical and essential minerals; India’s status in mineral production; co-products and by-products; consumption, substitution and conservation of minerals; National Mineral Policy; Mineral Concession Rules; marine mineral resources and laws of the sea. 

Section C. Mineral exploration 

Stages of exploration; scope, objectives and methods of prospecting, regional exploration and detailed exploration; geological, geochemical and geobotanical methods; litho-, bio-, soil geochemical surveys, mobility and dispersion of elements, geochemical anomalies; ore controls and guides; pitting, trenching, drilling; sampling, assaying, ore reserve estimation; categorization of ore reserves; geophysical methods- ground and airborne surveys; gravity, magnetic, electrical and seismic methods of mineral exploration. 

Section D. Fuel geology and Engineering geology 

Coal and its properties; proximate and ultimate analysis; different varieties and ranks of coal; concept of coal maturity, peat, lignite, bituminous and anthracite coal; origin of coal, coalification process; lithotypes, microlithotypes and maceral groups of coal; mineral and organic matter in coal; lignite and coal deposits of India; origin, migration and entrapment of natural hydrocarbons; characteristics of source and reservoir rocks; structural, stratigraphic and mixed traps; geological, geochemical and geophysical methods of hydrocarbon exploration; petroliferous basins of India; geological characteristics and genesis of major types of U deposits and their distribution in India. 

Engineering properties of rocks; geological investigations in construction of dams, reservoirs, tunnels, bridges, highways and coastal protection structures; geologic considerations of construction materials. 

Section E. Environmental geology and Natural hazards 

Stefan-Boltzmann equation and planetary temperature; cause and effects of global climate change; Earth’s radiation budget; greenhouse gases and effect; examples of positive and negative feedback mechanisms; biogeochemical cycle of carbon; geological investigations of nuclear waste disposal sites; marginal marine environments- estuaries, mangroves and lagoons; ozone hole depletion, ocean acidification, coral bleaching, Milankovitch cycle, sea level rise, eutrophication and acid rain; environmental impacts of urbanization, mining and hydropower projects; water pollution, water logging and soil erosion; Himalayan glaciers; causes and consequences of earthquakes, volcanoes, tsunami, floods, landslides, coastal erosion, droughts and desertification; application of remote sensing and geographic information systems (GIS) in environmental management. 

 

Paper: Hydrogeology 

Section A. Occurrence and distribution of groundwater 

Origin of water on Earth; global water cycle and budget; residence time concept, geologic formations as aquifers; confined and unconfined aquifers; groundwater table mapping and piezometric nests; porosity, void ratio, effective porosity and representative porosity range; primary and secondary porosities; groundwater zonation; specific retention, specific yield; groundwater basins; springs. 

Section B. Groundwater movement and well hydraulics 

Groundwater flow concepts; Darcy’s Law in isotropic and anisotropic media and validity; water flow rates, direction and water volume in aquifers; permeability and hydraulic conductivity and ranges in representative rocks; Bernoulli equation; determination of hydraulic conductivity in field and laboratory; concept of groundwater flow through dispersion and diffusion; transmissivity and aquifer thickness. 

Section C. Water wells and groundwater levels 

Unidirectional and radial flow to a well (steady and unsteady); well flow near aquifer boundaries; methods for constructing shallow wells, drilling wells, well completion; testing wells, pumping test, slug tests for confined and unconfined aquifers; fluctuations in groundwater levels; stream flow and groundwater flows; groundwater level fluctuations; land subsidence; impact of global climate change on groundwater. 

Section D. Groundwater exploration 

Surface investigation of groundwater- geologic, remote sensing, electrical resistivity, seismic, gravity and magnetic methods; sub-surface investigation of groundwater- test drilling, resistivity logging, spontaneous potential logging, radiation logging. 

Section E. Groundwater quality and management 

Groundwater composition, units of expression, mass-balance calculations; rock- water interaction (chemical equilibrium, free energy, redox reactions and cation/anion exchanges), graphic representation of chemical data; groundwater hardness, microorganisms in groundwater; water quality standards; sea-water intrusion; groundwater issues due to urbanization; solid and liquid waste disposal and plume migration models; application of isotopes (H, C, O) in groundwater; concepts of artificial recharge methods; managing groundwater resources; groundwater basin investigations and management practices.  

Geophysics : Paper-I 

PART-A 

A1. Solid Earth Geophysics: 

Introduction to Geophysics and its branches. Solar system: origin, characteristics of planets, Earth: rotation and figure, Geoid, Spheroid and topography. Plate tectonics and Geodynamic processes, Thermal history and heat flow, Temperature variation in the earth, convection currents. Gravity field of earth and Isostasy. Geomagnetism, elements of earth’s magnetism: Internal and External fields and their causes, Paleomagnetism, Polar wandering paths, Continental drift, Seafloor spreading and its geophysical evidences. Elastic Waves, Body Waves and internal structure of earth, variation of physical properties in the interior of earth, Adam-Williamson’s Equation. 

A2. Earthquake Seismology: 

Seismology, earthquakes, focal depth, epicenter, great Indian earthquakes, Intensity and Magnitude scales, Energy of earthquakes, foreshocks, aftershocks, Elastic rebound theory, Types and Nature of faulting, Fault plane solutions, Seismicity and Seismotectonics of India, Frequency-Magnitude relation (b- values). Bulk and rigidity modulus, Lame’s Parameter, Seismic waves: types and their propagation characteristics, absorption, attenuation and dispersion. Seismic ray theory for spherically and horizontally stratified earth, basic principles of Seismic Tomography and receiver function analysis, Velocity structure, Vp/Vs studies, Seismic network and arrays, telemetry systems, Principle of electromagnetic seismograph, displacement meters, velocity meters, accelerometers, Broadband Seismometer, WWSSN stations, seismic arrays for detection of nuclear explosions. Earthquake prediction; dilatancy theory, short-, medium- and long- term predictions, Seismic microzonations, Applications for engineering problems. 

A3. Mathematical methods in Geophysics: 

Elements of vector analysis, Gradient, Divergence and Curl, Gauss’s divergence theorem, Stoke’s theorem, Gravitational field, Newton’s Law of gravitation, Gravitation potential and fields due to bodies of different geometric shapes, Coulomb’s law, Electrical permittivity and dielectric constant, Origin of Magnetic field, Ampere’s law, Biot and Savart’s law, Geomagnetic fields, Magnetic fields due to different type of structures, Solution of Laplace equation in Cartesian, Cylindrical and Spherical Coordinates, Image theory, Electrical fields due to charge, point source, continuous charge distribution and double layers, equipotential and line of force. Current and potential in the earth, basic concept and equations of electromagnetic induction, Maxwell’s Equation, near and far fields, Attenuation of EM waves, EM field of a loops of wire on half space and multi-layered media. 

A4. Geophysical Inversion: 

Fundamental concepts of inverse theory, Definition and its application to Geophysics. Probability, Inversion with discrete and continuous models. Forward problems versus Inverse problems, direct and model based inversions, Formulation of inverse problems, classification of inverse problems, least square solutions and minimum norm solution, concept of norms, Jacobian matrix, Condition number, Stability, non-uniqueness and resolution of inverse problems, concept of ‘a priori’ information, constrained linear least squares inversion, review of matrix theory. Models and data spaces, data resolution matrix, model resolution matrix, Eigen values and Eigen vectors, singular value decomposition (SVD), Gauss Newton method, steepest descent (gradient) method, Marquardt-Levenberg method. Probabilistic approach of inverse problems, maximum likelihood and stochastic inverse methods, Random search inversion (Monte-Carlo) Backus-Gilbert method, Bayesian Theorem and Inversion. Global optimization techniques: genetic algorithm and simulated annealing methods. 

PART-B: 

B1. Mathematical Methods of Physics: 

Dimensional analysis; Units and measurement; Vector algebra and vector calculus; Linear algebra, Matrices: Eigenvalues and eigenvectors; Linear ordinary differential equations of first and second order; Special functions (Hermite, Bessel, Laguerre and Legendre); Fourier series, Fourier and Laplace transforms; Elementary probability theory, Random variables, Binomial, Poisson and normal distributions; Green’s function; Partial differential equations (Laplace, wave and heat equations in two and three dimensions); Elements of numerical techniques: root of functions, interpolation, and extrapolation, integration by trapezoid and Simpson’s rule, solution of first order differential equation using Runge-Kutta method; Tensors; Complex variables and analysis; Analytic functions; Taylor & Laurent series; poles, residues and evaluation of integrals; Beta and Gamma functions. Operators and their properties; Least- squares fitting. 

B2. Electrodynamics: 

Electrostatics: Gauss’ Law and its applications; Laplace and Poisson equations, Boundary value problems; Magnetostatics: Biot-Savart law, Ampere’s theorem; Ampere’s circuital law; Magnetic vector potential; Faraday’s law of electromagnetic induction; Electromagnetic vector and scalar potentials; Uniqueness of electromagnetic potentials and concept of gauge: Lorentz and Coulomb gauges; Lorentz force; Charged particles in uniform and non-uniform electric and magnetic fields; Poynting theorem; Electromagnetic fields from Lienard-Wiechert potential of a moving charge; Bremsstrahlung radiation; Cerenkov radiation; Radiation due to oscillatory electric dipole; Condition for plasma existence; Occurrence of plasma; Magnetohydrodynamics; Plasma waves; Transformation of electromagnetic potentials; Lorentz condition; Invariance or covariance of Maxwell field equations in terms of 4 vectors; Electromagnetic field tensor; Lorentz transformation of electric and magnetic fields. 

B3. Electromagnetic Theory: 

Maxwell’s equations: its differential and integral forms, physical significance; Displacement current; Boundary conditions; Wave equation, Plane electromagnetic waves in: free space, non-conducting isotropic medium, conducting medium; Scalar and vector potentials; Reflection; refraction of electromagnetic waves; Fresnel’s Law; interference; coherence; diffraction and polarization; Lorentz invariance of Maxwell’s equations; Transmission lines and waveguides. 

B4. Introductory Atmospheric and Space Physics: 

The neutral atmosphere; Atmospheric nomenclature; Height profile of atmosphere; Hydrostatic equation; Geopotential height; Expansion and contraction; Fundamental forces in the atmosphere; Apparent forces; Atmospheric composition; Solar radiation interaction with the neutral atmosphere; Climate change; Electromagnetic radiation and propagation of Waves: EM Radiation; Effects of environment; Antennas: basic considerations, types. Propagation of waves: ground wave, sky wave, and space wave propagation; troposcatter communication and extra terrestrial communication; The Ionosphere; Morphology of ionosphere: the D, E and F-regions; Chemistry of the ionosphere Ionospheric parameters E and F region anomalies and irregularities in the ionosphere; Global Positioning Systems (GPS): overview of GPS system, augmentation services GPS system segment; GPS signal characteristics; GPS errors; multi path effects; GPS performance; Satellite navigation system and applications. 

 

Geophysics : Paper-II 

PART-A 

A1. Potential Field (Gravity and Magnetic) Methods: 

Geophysical potential fields, Inverse square law, Principles of Gravity and Magnetic methods, Global gravity anomalies, Newtonian and logarithmic potential, Laplace’s equations for potential field. Green’s Function, Concept of gravity anomaly, Rock densities, factors controlling rock densities, determination of density, Earth’s main magnetic field, origin, diurnal and secular variations of the field, Geomagnetic elements, intensity of magnetization and induction, magnetic potential and its relation to field, units of measurement, interrelationship between different components of magnetic fields, Poisson’s relation, Magnetic susceptibility, factors controlling susceptibility. Magnetic Mineralogy: Hysteresis, rock magnetism, natural, and remnant magnetization, demagnetization effects. Principles of Gravity and Magnetic instruments, Plan of conducting gravity and magnetic surveys, Gravity and Magnetic data reduction, Gravity bases, International Gravity formula, IGRF corrections. Concept of regional and residual anomalies and various methods of their separation, Edge Enhancement Techniques (Derivatives, Continuation, Analytical Signal, Reduced to Pole and Euler Deconvolution), ambiguity in potential field interpretation, Factors affecting magnetic anomalies, Application of gravity and magnetics in geodynamic, mineral exploration and environmental studies. Qualitative interpretation, Interpretation of gravity and magnetic anomalies due to different geometry shaped bodies and modeling. 

A2. Electrical and Electromagnetic methods: 

Electrical properties of rocks and minerals, concepts and assumptions of horizontally stratified earth, anisotropy and its effects on electrical fields, geoelectric and geological sections, D.C Resistivity method. Concept of natural electric field, various electrode configurations, Profiling and Sounding (VES). Tpes of Sounding curves, Equivalence and Suppression, Concept of Electrical Resistivity Tomography (ERT). SP Method:, Origin of SP, application of SP surveys. Induced Polarization (IP) Method: Origin of IP, Membrane and Electrode polarization, time and frequency domains of measurement, chargeability, percent frequency effect and metal factor, Application of IP surveys for mineral exploration. Electromagnetic methods, Passive and Active source methods, Diffusion equation, wave equation and damped wave equation used in EM method, boundary conditions, skin depth, depth of investigation and depth of penetration, amplitude and phase relations, real and imaginary components, elliptical polarization, Principles of EM prospecting, various EM methods: Dip angle, Turam, moving source-receiver methods-horizontal loop (Slingram), AFMAG, and VLF.. Principles of Time Domain EM: INPUT method. EM Profiling and sounding, Interpretation of EM anomalies. Principle of EM scale modeling. Magnetotelluric methods: Origin and characteristics of MT fields, Instrumentation, Transverse Electric and Transverse Magnetic Modes, Static Shift. Dimensionality and Directionality analysis. Field Layout and interpretation of MT data and its applications. Principles of Ground Penetrating Radar (GPR). 

A3. Seismic Prospecting: 

Basic principles of seismic methods, Various factors affecting seismic velocities in rocks, Reflection, refraction and Energy partitioning at an interface, Geometrical spreading, Reflection and refraction of wave phenomena in a layered and dipping media. Seismic absorption and anisotropy, Multi channel seismic (CDP) data acquisition (2D and 3D), sources of energy, Geophones, geometry of arrays, different spread geometry, Instrumentation, digital recording. Different types of multiples, Travel time curves, corrections, Interpretation of data, bright spot, low velocity layer, Data processing, static and dynamic (NMO and DMO) corrections, shot-receiver gather, foldage, multiplexing and demultiplexing. Dix’s equation, Velocities: Interval, Average and RMS, Seismic resolution and Fresnel Zone, Velocity analysis and Migration techniques, Seismic Interpretation, Time and Depth Section, Fundamentals of VSP method, High Resolution Seismic Surveys (HRSS). 

A4. Borehole Geophysics: 

Objectives of well logging, concepts of borehole geophysics, borehole conditions, properties of reservoir rock formations, formation parameters and their relationships-formation factor, porosity, permeability, formation water resistivity, water saturation, irreducible water saturation, hydrocarbon saturation, residual hydrocarbon saturation; Arhcie’s and Humble’s equations; principles, instrumentations, operational procedures and interpretations of various geophysical logs: SP, resistivity and micro resistivity, gamma ray, neutron, sonic, temperature, caliper and directional logs. Production logging, overlay and cross-plots of well-log data, determination of formation lithology, porosity, permeability and oil-water saturation, sub-surface correlation and mapping, delineation of fractures; application of well-logging in hydrocarbon, groundwater, coal, metallic and non-metallic mineral exploration. 

PART-B 

B1. Classical Mechanics 

Inertial and non-inertial frames, Newton’s laws; Pseudo forces; Central force motion; Two-body collisions, Scattering in laboratory and centre-of-mass frames; Rigid body dynamics, Moment of inertia, Variational principle, Lagrangian and Hamiltonian formalisms and equations of motion; Poisson brackets and canonical transformations; Symmetry, Invariance and conservation laws, Cyclic coordinates; Periodic motion, Small oscillations and normal modes; Special theory of relativity, Lorentz transformations, Relativistic kinematics and mass-energy equivalence. 

B2. Thermodynamics and Statistical Physics 

Laws of thermodynamics and their significance; Thermodynamic potentials, Maxwell relations; Chemical potential, Phase equilibria; Phase space, Micro- and macro- states; Micro canonical, canonical and grand-canonical ensembles and partition functions; Free Energy and connection with thermodynamic quantities; First and second order phase transitions; Maxwell-Boltzmann distribution, Quantum statistics, Ideal Fermi and Bose gases; Principle of detailed balance; Blackbody radiation and Planck’s distribution law; Bose-Einstein condensation; Random walk and Brownian motion; Diffusion equation. 

B3. Atomic and Molecular Physics and Characterization of materials 

Quantum states of an electron in an atom; Electron spin; Stern-Gerlach experiment; Spectrum of Hydrogen, Helium and alkali atoms; Relativistic corrections for energy levels of hydrogen; Hyperfine structure and isotopic shift; Width of spectral lines; LS and JJ coupling; Zeeman, Paschen Back and Stark effects; Rotational, vibrational, electronic, and Raman spectra of diatomic molecules; Frank-Condon principle; Thermal and optical properties of materials, Study of microstructure using SEM, Study of crystal structure using TEM, Resonance methods: Spin and applied magnetic field, Larmor precession, relaxation times – spin-spin relaxation, Spin-lattice relaxation, Electron spin resonance, g factor, Nuclear Magnetic resonance, line width, Motional narrowing, Hyperfine splitting; Nuclear Gamma Resonance: Principles of Mössbauer Spectroscopy, Line width, Resonance absorption, Isomer Shift, Quadrupole splitting. 

B4. Nuclear and Particle Physics 

Basic nuclear properties: size, shape, charge distribution, spin and parity; Binding energy, Packing fraction, Semi-empirical mass formula; Liquid drop model; Fission and fusion, Nuclear reactor; Line of stability, Characteristics of the nuclear forces, Nucleon-nucleon potential; Charge-independence and charge-symmetry of nuclear forces; Isospin; Deuteron problem; Evidence of shell structure, Single-particle shell model and, its validity and limitations; Elementary ideas of alpha, beta and gamma decays and their selection rules; Nuclear reactions, reaction mechanisms, compound nuclei and direct reactions; Classification of fundamental forces; Elementary particles (quarks, baryons, mesons, leptons); Spin and parity assignments, strangeness; Gell Mann- Nishijima formula; C, P and T invariance and applications of symmetry arguments to particle reactions, Parity non-conservation in weak interaction; Relativistic kinematics. 

 

Geophysics : Paper-III 

PART-A 

A1. Radiometric and Airborne Geophysics: 

Principles of radioactivity, radioactivity decay processes, units, radioactivity of rocks and minerals, Instruments, Ionization chamber, G-M counter, Scintillation counter, Gamma ray spectrometer, Radiometric prospecting for mineral exploration (Direct/Indirect applications), beach placers, titanium, zirconium and rare-earths, radon studies in seismology and environmental applications. Airborne geophysical surveys (gravity, magnetic, electromagnetic and radiometric), planning of surveys, flight path recovery methods. Applications in geological mapping, identification of structural features and altered zones. 

A2. Marine Geophysics: 

Salinity, temperature and density of sea water. Introduction to Sea-floor features: Physiography, divisions of sea floor, continental shelves, slopes, and abyssal plains, growth and decline of ocean basins, turbidity currents, occurrence of mineral deposits and hydrocarbons in offshore. Geophysical surveys and instrumentation: Gravity, Magnetic and electromagnetic surveys, Sonobuoy surveys, Instrumentation used in ship borne surveys, towing cable and fish, data collection and survey procedures, corrections and interpretation of data. Oceanic magnetic anomalies, Vine-Mathews hypothesis, geomagnetic time scale and dating sea floor, Oceanic heat flow, ocean ridges, basins, marginal basins, rift valleys. Seismic surveys, energy sources, Pinger, Boomer, Sparker, Air gun, Hydrophones and steamer cabling. Data reduction and interpretation. Ocean Bottom Seismic surveys. Bathymetry, echo sounding, bathymetric charts, sea bed mapping. Navigation and Position fixing methods. 

A3. Geophysical Signal Processing: 

Time Series, Types of signals, sampling theorem, aliasing effect, Fourier series of periodic waveforms, Fourier transform and its properties, Discrete Fourier transform and FFT, Hilbert Transform, Convolution and Deconvolution, Auto and cross correlations, Power spectrum, Delta function, unit step function. Time domain windows, Z transform and properties, Inverse Z transform. Poles and zeroes. Principles of digital filters, types of filters: recursive, non recursive, time invariant, Chebyshev, Butterworth, moving average, amplitude and phase response of filters, low pass, band pass and high pass filters. Processing of Random signals. Improvement of signal to noise ratio, source and geophone arrays as spatial filters. Earth as low pass filter. 

A4. Remote Sensing and Geohydrology: 

Fundamental concepts of remote sensing, electromagnetic radiation spectrum, Interaction of electromagnetic energy and its interactions in atmosphere and surface of the earth, elements of photographic systems, reflectance and emittance, false color composites, remote sensing platforms, flight planning, geosynchronous and sun synchronous orbits, sensors, resolution, parallax and vertical exaggeration, relief displacement, mosaic, aerial photo interpretation and geological application. Fundamentals of photogrammetry, satellite remote sensing, multi-spectral scanners, thermal scanners, microwave remote sensing, fundamental of image processing and interpretation for geological applications. Types of water bearing formations, porosity, permeability, storage coefficient, specific storage, specific retention, specific yield, Different types of aquifers, vertical distribution of ground water, General flow equation; steady and unsteady flow of ground water in unconfined and confined aquifers. 

PART-B 

B1. Solid State Physics and Basic Electronics 

Crystalline and amorphous structure of matter; Different crystal systems, Space groups; Methods of determination of crystal structure; X-ray diffraction, Scanning and transmission electron microscopes; Band theory of solids, conductors, insulators and semiconductors; Thermal properties of solids, Specific heat: Einstein’s and Debye theory; Magnetism: dia, para and ferro; Elements of superconductivity; Meissner effect, Josephson junctions and applications; Elementary ideas about high temperature superconductivity. 

Semiconductor devices and circuits: Intrinsic and Extrinsic semiconductors; Devices and structures (p-n junctions, diodes, transistors, FET, JFET and MOSFET, homo and hetero junction transistors, thermistors), Device characteristics, Frequency dependence and applications. Opto-electronic devices (solar cells, photo detectors, LEDs) Operational amplifiers and their applications. 

B2. Laser systems 

Spontaneous and stimulated emission of radiation. Coherence, Light amplification and relation between Einstein A and B coefficients. Rate equations for three and four level systems. Lasers: Ruby, Nd-YAG, CO2, Dye, Excimer, Semiconductor. Laser cavity modes, Line shape function and full width at half maximum (FWHM) for natural broadening, collision broadening, Doppler broadening; Saturation behavior of broadened transitions, Longitudinal and transverse modes. Mode selection, ABCD matrices and cavity stability criteria for confocal resonators. Quality factor, Expression for intensity for modes oscillating at random and mode-locked in phase. Methods of Q-switching and mode locking. Optical fiber waveguides, Fiber characteristics. 

B3. Digital electronics, Radar systems, Satellite communications 

Digital techniques and applications: Boolean identities, de Morgan’s theorems, Logic gates and truth tables; Simple logic circuits: registers, counters, comparators and similar circuits). A/D and D/A converters. Microprocessor: basics and architecture; Microcontroller basics. Combination and sequential logic circuits, Functional diagram, Timing diagram of read and write cycle, Data transfer techniques: serial and parallel. Fundamentals of digital computers. Radar systems, Signal and data processing, Surveillance radar, Tracking radar, Radar antenna parameters. Fundamentals of satellite systems, Communication and Orbiting satellites, Satellite frequency bands, Satellite orbit and inclinations. Earth station technology. 

B4. Quantum Mechanics 

Wave-particle duality; Wave functions in coordinate and momentum representations; Commutators and Heisenberg’s uncertainty principle; Schrodinger’s wave equation (time-dependent and time-independent); Eigenvalue problems: particle in a box, harmonic oscillator, tunneling through a 1-D barrier; Motion in a central potential; Orbital angular momentum; Addition of angular momentum; Hydrogen atom; Matrix representation; Dirac’s bra and ket notations; Time-independent perturbation theory and applications; Variational method; WKB approximation; Time dependent perturbation theory and Fermi’s Golden Rule; Selection rules; Semi-classical theory of radiation; Elementary theory of scattering, Phase shifts, Partial waves, Born approximation; Identical particles, Pauli’s exclusion principle, Spin-statistics connection; Relativistic quantum mechanics: Klein Gordon and Dirac equations. 

 

Chemistry : Paper-I (Inorganic Chemistry) 

1. Inorganic solids: 

Defects, non-stoichiometric compounds and solid solutions, atom and ion diffusion, solid electrolytes. Synthesis of materials, monoxides of 3d-metals, higher oxides, complex oxides (corundrum, ReO3, spinel, pervoskites), framework structures (phosphates, aluminophosphates, silicates, zeolites), nitrides and fluorides, chalcogenides, intercalation chemistry, semiconductors, molecular materials. 

2. Chemistry of coordination compounds: 

Isomerism, reactivity and stability: Determination of configuration of cis- and trans- isomers by chemical methods. Labile and inert complexes, substitution reactions on square planar complexes, trans effect. Stability constants of coordination compounds and their importance in inorganic analysis. 

Structure and bonding: Elementary Crystal Field Theory: splitting of dn configurations in octahedral, square planar and tetrahedral fields, crystal field stabilization energy, pairing energy. Jahn-Teller distortion. Metal-ligand bonding, sigma and pi bonding in octahedral complexes and their effects on the oxidation states of transition metals. Orbital and spin magnetic moments, spin only moments and their correlation with effective magnetic moments, d-d transitions; LS coupling, spectroscopic ground states, selection rules for electronic spectral transitions; spectrochemical series of ligands, charge transfer spectra. 

3. Acid base titrations: 

Titration curves for strong acid-strong base, weak acid-strong base and weak base-strong acid titrations, polyprotic acids, poly-equivalent bases, determining the equivalence point: theory of acid-base indicators, pH change range of indicator, selection of proper indicator. Principles used in estimation of mixtures of NaHCO3 and Na2CO3 (by acidimetry). 

4. Gravimetric Analysis: 

General principles: Solubility, solubility product and common ion effect, effect of temperature on the solubility; Salt hydrolysis, hydrolysis constant, degree of hydrolysis. 

Stoichiometry, calculation of results from gravimetric data. Properties of precipitates. Nucleation and crystal growth, factors influencing completion of precipitation. Co-precipitation and post-precipitation, purification and washing of precipitates. Precipitation from homogeneous solution. A few common gravimetric estimations: chloride as silver chloride, sulphate as barium sulphate, aluminium as oxinate and nickel as dimethyl glyoximate. 

5. Redox Titrations: 

Standard redox potentials, Nernst equation. Influence of complex formation, precipitation and change of pH on redox potentials, Normal Hydrogen Electrode (NHE). Feasibility of a redox titration, redox potential at the equivalence point, redox indicators. Redox potentials and their applications. 

Principles behind Iodometry, permanganometry, dichrometry, difference between iodometry and iodimetry. Principles of estimation of iron, copper, manganese, chromium by redox titration. 

6. Complexometric titrations: 

Complex formation reactions, stability of complexes, stepwise formation constants, chelating agents. EDTA: acidic properties, complexes with metal ions, equilibrium calculations involving EDTA, conditional formation constants, derivation of EDTA titration curves, effect of other complexing agents, factors affecting the shape of titration curves: indicators for EDTA titrations, titration methods employing EDTA: direct, back and displacement titrations, indirect determinations, titration of mixtures, selectivity, masking and demasking agents. Typical applications of EDTA titrations: hardness of water, magnesium and aluminium in antacids, magnesium, manganese and zinc in a mixture, titrations involving unidentate ligands: titration of chloride with Hg2+ and cyanide with Ag+

7. Organometallic compounds: 

18-electron rule and its applications to carbonyls and nature of bonding involved therein. Simple examples of metal-metal bonded compounds and metal clusters. Wilkinson’s catalyst. 

8. Nuclear chemistry: 

Radioactive decay- General characteristics, decay kinetics, parent-daughter decay growth relationships, determination of half-lives. Nuclear stability. Decay theories. Unit of radioactivity. Preparation of artificial radionuclides by bombardment, radiochemical separation techniques. Experimental techniques in the assay of radioisotopes, Geiger-Muller counters. Solid state detectors. 

9. Chemistry of d- and f-block elements: 

d-block elements: General comparison of 3d, 4d and 5d elements in terms of electronic configuration, elemental forms, metallic nature, atomization energy, oxidation states, redox properties, coordination chemistry, spectral and magnetic properties. 

f-block elements: Electronic configuration, ionization enthalpies, oxidation states, variation in atomic and ionic (3+) radii, magnetic and spectral properties of lanthanides, separation of lanthanides (by ion-exchange method). 

 

Chemistry : Paper-II (Physical Chemistry) 

1. Kinetic theory and the gaseous state: 

Real gases, Deviation of gases from ideal behaviour; compressibility factor; van der Waals equation of state and its characteristic features. Existence of critical state. Critical constants in terms of van der Waals constants. Law of corresponding states and significance of second virial coefficient. Boyle temperature. 

2. Solids: Nature of solid state. Band theory of solids: 

Qualitative idea of band theory, conducting, semiconducting and insulating properties. 

Law of constancy of angles, concept of unit cell, different crystal systems, Bravais lattices, law of rational indices, Miller indices, symmetry elements in crystals. X-ray diffraction, Bragg’s law. 

3. Chemical thermodynamics and chemical equilibrium: 

Chemical potential in terms of Gibbs energy and other thermodynamic state functions and its variation with temperature and pressure. Gibbs-Duhem equation; fugacity of gases and fugacity coefficient. Thermodynamic conditions for equilibrium, degree of advancement. vant Hoff’s reaction isotherm. Equilibrium constant and standard Gibbs energy change. Definitions of KP, KC and Kx; vant Hoff’s reaction isobar and isochore. Activity and activity coefficients of electrolytes / ions in solution. Debye-Hückel limiting law. 

4. Chemical kinetics and catalysis: 

Second order reactions. Determination of order of reactions. Parallel and consecutive reactions. Temperature dependence of reaction rate, energy of activation. Collision Theory and Transition State Theory of reaction rates. Enthalpy of activation, entropy of activation, effect of dielectric constant and ionic strength on reaction rate, kinetic isotope effect. 

Physisorption and chemisorption, adsorption isotherms, Freundlich and Langmuir adsorption isotherms, BET equation, surface area determination; colloids, electrical double layer and colloid stability, electrokinetic phenomenon. Elementary ideas about soaps and detergents, micelles, emulsions. 

5. Electrochemistry: 

Types of electrochemical cells, cell reactions, emf and Nernst equation, ᐃG, ᐃH and ᐃS of cell reactions. Cell diagrams and IUPAC conventions. Standard cells. Half-cells / electrodes, types of reversible electrodes. Standard electrode potential and principles of its determination. Concentration cells. Determination of ᐃGo, Ko, Ksp and pH. 

Basic principles of pH metric and potentiometric titrations, determination of equivalence point and pKa values. 6. Quantum chemistry: 

Eigenfunctions and eigenvalues. Uncertainty relation, Expectation value. Hermitian operators. Schrödinger time-independent equation: nature of the equation, acceptability conditions imposed on the wave functions and probability interpretation of wave function. Schrödinger equation for particle in a one-dimensional box and its solution. Comparison with free particle eigenfunctions and eigenvalues. Particle in a 3-D box and concept of degeneracy. 

7. Basic principles and applications of spectroscopy: 

Electromagnetic radiation, interaction with atoms and molecules and quantization of different forms of energies. Units of frequency, wavelength and wavenumber. Condition of resonance and energy of absorption for various types of spectra; origin of atomic spectra, spectrum of hydrogen atom. 

Rotational spectroscopy of diatomic molecules: Rigid rotor model, selection rules, spectrum, characteristic features of spectral lines. Determination of bond length, effect of isotopic substitution. 

Vibrational spectroscopy of diatomic molecules: Simple Harmonic Oscillator model, selection rules and vibration spectra. Molecular vibrations, factors influencing vibrational frequencies. Overtones, anharmonicity, normal mode analysis of polyatomic molecules. 

Raman Effect: Characteristic features and conditions of Raman activity with suitable illustrations. Rotational and vibrational Raman spectra. 

8. Photochemistry: 

Franck-Condon principle and vibrational structure of electronic spectra. Bond dissociation and principle of determination of dissociation energy. Decay of excited states by radiative and non-radiative paths. Fluorescence and phosphorescence, Jablonski diagram. Laws of photochemistry: Grotthus-Draper law, Stark-Einstein law of photochemical equivalence; quantum yield and its measurement for a photochemical process, actinometry. Photostationary state. Photosensitized reactions. Kinetics of HI decomposition, H2-Br2 reaction, dimerisation of anthracene. 

 

Chemistry : Paper-III (Analytical and Organic) 

PART-A (Analytical Chemistry) 

A1. Errors in quantitative analysis: 

Accuracy and precision, sensitivity, specific standard deviation in analysis, classification of errors and their minimization, significant figures, criteria for rejection of data, Q-test, t-test, and F-test, control chart, sampling methods, sampling errors, standard reference materials, statistical data treatment. 

A2. Separation Methods: 

Chromatographic analysis: Basic principles of chromatography (partition, adsorption and ion exchange), column chromatography, plate concept, plate height (HETP), normal phase and reversed phase concept, thin layer chromatography, frontal analysis, principles of High Performance Liquid Chromatography (HPLC) and Gas Liquid Chromatography (GLC), and Ion- exchange chromatography. 

Solvent extraction: Classification, principle and efficiency of the technique, mechanism of extraction, extraction by solvation and chelation, qualitative and quantitative aspects of solvent extraction, extraction of metal ions from aqueous solutions. 

A3. Spectroscopic methods of analysis: 

Lambert-Beer’s Law and its limitations. 

UV-Visible Spectroscopy: Basic principles of UV-Vis spectrophotometer, Instrumentation consisting of source, monochromator, grating and detector, spectrophotometric determinations (estimation of metal ions from aqueous solutions, determination of composition of metal complexes using Job’s method of continuous variation and mole ratio method). 

Infra-red Spectrometry: Basic principles of instrumentation (choice of source, monochromator and detector) for single and double beam instruments, sampling techniques. 

Flame atomic absorption and emission spectrometry: Basic principles of instrumentation (choice of source, monochromator, detector, choice of flame and burner design), techniques of atomization and sample introduction, method of background correction, sources of chemical interferences and methods of removal, techniques for the quantitative estimation of trace level metal ions. Basic principles and theory of AAS. Three different modes of AAS – Flame-AAS, VG-AAS, and GF-AAS. Single beam and double beam AAS. Function of Hollow Cathode Lamp (HCL) and Electrode Discharge Lamp (EDL). Different types of detectors used in AAS. Qualitative and quantitative analysis. 

A4. Thermal methods of analysis: 

Theory of thermogravimetry (TG), basic principle of instrumentation, techniques for quantitative analysis of Ca and Mg compounds. 

A5. X-ray methods of Analysis: 

Introduction, theory of X-ray generation, X-ray spectroscopy, X-ray diffraction and X-ray fluorescence methods, instrumentation and applications. Qualitative and quantitative measurements. Powder diffraction method. 

A6. Inductively coupled plasma spectroscopy: 

Theory and principles, plasma generation, utility of peristaltic pump, sampler– skimmer systems, ion lens, quadrupole mass analyzer, dynode / solid state detector, different types of interferences- spectroscopic and non-spectroscopic interferences, isobaric and molecular interferences, applications. 

A7. Analysis of geological materials: 

Analysis of minerals and ores- estimation of (i) CaCO3, MgCO3 in dolomite (ii) Fe2O3, Al2O3, and TiO2 in bauxite (iii) MnO and MnO2 in pyrolusite. Analysis of metals and alloys: (i) Cu and Zn in brass (ii) Cu, Zn, Fe, Mn, Al and Ni in bronze (iii) Cr, Mn, Ni, and P in steel (iv) Pb, Sb, Sn in ‘type metal’. 

Introduction to petroleum: constituents and petroleum fractionation. Analysis of petroleum products: specific gravity, viscosity, Doctor test, aniline point, colour determination, cloud point, pour point. Determination of water, neutralization value (acid and base numbers), ash content, Determination of lead in petroleum. 

Types of coal and coke, composition, preparation of sample for proximate and ultimate analysis, calorific value by bomb calorimetry. 

PART B (Organic chemistry) 

B1. Unstable, uncharged intermediates: 

Structure and reactivity of carbenes and nitrenes and their rearrangements (Reimer-Tiemann, Hoffman, Curtius, Lossen, and Schimdt,). 

B2. Addition reactions: 

Addition to C-C multiple bonds: Mechanism of addition involving electrophiles, nucleophiles and free radicals (polymerization reactions of alkenes and substituted alkenes), Ziegler-Natta catalyst for polymerization, polyurethane, and conducting polymers; addition to conjugated systems (Diels-Alder reaction), orientation and reactivity (on simple cis- and trans- alkenes). 

Addition to carbon-heteroatom multiple bonds: Addition to C=O double bond, structure and reactivity, hydration, addition of ROH, RSH, CN-, bisulphite, amine derivatives, hydride ions. 

B3: Reactions at the carbonyl group: 

Cannizzaro, Aldol, Perkin, Claisen ester, benzoin, benzil-benzilic acid rearrangement, Mannich, Dieckmann, Michael, Strobe, Darzen, Wittig, Doebner, Knoevenagel, Reformatsky reactions. 

B4. Oxidation and Reduction: 

Reduction of C=C, Meerwein-Pondorf reaction, Wolff-Kishner and Birch reduction. 

Oxidation of C=C, hydration, hydroxylation, hydroboration, ozonolysis, epoxidation, Sharpless epoxidation. 

B5. Electrocyclic Reactions: 

Molecular orbital symmetry, frontier orbitals of ethylene, 1,3-butadiene, 1,3,5- hexatriene, allyl system, FMO approach, pericyclic reactions, Woodward- Hoffman correlation diagram method and perturbation molecular orbital (PMO) approach for the explanation of pericyclic reactions under thermal and photochemical conditions. Simple cases of Norrish type-I and type-II reactions. Conrotatory and disrotatory motions of (4n) and (4n+2) polyenes with emphasis on [2+2] and [4+2] cycloadditions, sigmatropic rearrangements- shift of H and carbon moieties, Claisen, Cope, Sommerlet-Hauser rearrangement. 

B6. Spectroscopic methods of analysis: 

Infrared spectroscopy: Characteristic frequencies of organic molecules and interpretation of spectra. Modes of molecular vibrations, characteristic stretching frequencies of O-H, N-H, C-H, C-D, C=C, C=N, C=O functions; factors affecting stretching frequencies. 

Ultraviolet spectroscopy: Chromophores, auxochromes. Electronic transitions (σ−σ*, n-σ*, π-π* and n-π*), relative positions of λmax considering conjugative effect, steric effect, solvent effect, red shift (bathochromic shift), blue shift (hypsochromic shift), hyperchromic effect, hypochromic effect (typical examples). Woodward rules. Applications of UV spectroscopy to conjugated dienes, trienes, unsaturated carbonyl compounds and aromatic compounds. 

Nuclear Magnetic Resonance Spectrometry: (Proton and Carbon-13 NMR) Nuclear spin, NMR active nuclei, principle of proton magnetic resonance, equivalent and non-equivalent protons. Measurement of spectra, the chemical shift, shielding / deshielding of protons, upfield and downfield shifts, intensity of NMR signals and integration factors affecting the chemical shifts: spin-spin coupling to 13C IH-IH first order coupling: some simple IH-IH splitting patterns: the magnitude of IH-IH coupling constants, diamagnetic anisotropy. 

Mass spectrometry: Basic Principles, the mass spectrometer, isotope abundances; the molecular ion, metastable ions. McLafferty rearrangement. 

SYLLABUS AND EXAMINATION PLANING FOR COMBINED DEFENSE SERVICE EXAMINATION

UNION PUBLIC SERVICES COMMISSION, DELHI

SYLLABUS AND EXAMINATION PLANNING COMBINED DEFENSE SERVICE EXAMINATION

 

Union Public Service Commission (UPSC) is going to conducts Combined Defence Services (CDS) Examination for recruitment of various vacancies under Indian Military Academy, Indian Naval Academy, Air Force Academy and Officers Training Academy.

EXAMINATION PATTERN:

However, the exam pattern is given in the below table, check and prepare according to it for the exam.

WRITTEN EXAM:

  1. Written Exam consists of Objective Type questions and time duration 02 hrs and maximum marks is 100 for each subject.
  2. For the candidates who are appearing for Indian Military Academy, Naval Academy, Air force Academy written test comprising of English, General Knowledge and Elementary mathematics subjects and for candidates who are appearing for officers training academy the written test comprising of English and General Knowledge.

iii. Candidates who are declared successful in the written exam will be detailed for intelligence and personality test at the Service Selection Board based on their preference, by the respective service HQ.

CDS EXAM PATTERN 2020: 

FOR ADMISSION TO INDIAN MILITARY ACADEMY, INDIAN NAVAL ACADEMY AND AIR FORCE ACADEMY:

Subjects

Marks

Duration

English

100

2 Hrs

General Knowledge

100

2 Hrs

Elementary Mathematics

100

2 Hrs

Total

300

6 Hrs

 

CDS EXAM PATTERN FOR OFFICER TRAINEE ACADEMY:

Subjects

Marks

Duration

English

100

2 Hrs

General Knowledge

100

2 Hrs

Total

200

4 Hrs

  • Maximum Marks for both written and Interview are 300 for three Academies and 200 for OTA.
  • The Question Paper (GK and Maths) will be in both Hindi and English Languages.
  • No Negative Marking.
  • Pen Paper Mode of Examination
  • Question Paper will be Objective Type Multiple Choice Questions.

 

INTELLIGENCE & PERSONALITY TEST:

The candidates who are selected in written test are called for interview. The SSB procedure consists of two stage selection process-Stage I and Stage II. Only those candidates who clear the stage I are permitted to appear for Stage II.

  1. Stage I comprises of Officers Intelligence Rating (OIR) tests are Picture Perception                   Description Test (PP&DT). The candidates will be shortlisted based on combination of performance in OIR Test and PP&DT.
  2. Stage II comprises of Interview, Group Testing Officers Tasks, Psychology Tests and the conference. These testes are conducted over 4 days .

The personality of candidate is assessed by three different assessors viz. the interviewing Officer (IO), Group Testing Officer (GTO) and the Psychologist. There are no separate weightage for each test. The marks are allotted by assessors only after taking into consideration the performance of the candidate holistically in all the test.

 

:SYLLABUS OF EXAMINATION:

Union Public Service Commission (UPSC) is going to conducts Combined Defence Services (CDS ) Examination for recruitment of various vacancies under Indian Military Academy, Indian Naval Academy, Air Force Academy and Officers Training Academy. The CDS syllabus details is given below.

PAPER – 1: ENGLISH:

The question paper will be designed to test the candidates’ understanding of English and workmanlike use of words.

PAPER – 2: GENERAL KNOWLEDGE:

General Knowledge including knowledge of current events and of such matters of everyday observation and experience in their scientific aspects as may be expected of an educated person who has not made a special study of any scientific subject. The Paper will also include questions on History of India and Geography of a nature which Candidate should be able to answer without special study.

PAPER – 3: ELEMENTARY MATHEMATICS: 

Arithmetic: Number System-Natural numbers, Integers, Rational and Real numbers. Fundamental Operations addition, subtraction, multiplication, division, Square roots, Decimal fractions. Unitary method, time and distance, time and work, percentages, applications to simple and compound interest, profit and loss, ratio and proportion, variation.

Elementary Number Theory- Division algorithm. Prime and composite numbers. Tests of divisibility by 2, 3, 4, 5, 9 and 11. Multiples and factors. Factorization Theorem. H.C.F. and L.C.M. Euclidean algorithm, Logarithms to base 10, laws of logarithms, use of logarithmic tables.

Syllabus for English

  • Usage of words.
  • Grammar.
  • Vocabulary.
  • Antonyms & Synonyms.
  • Parts of Speech.
  • Direct & Indirect Speech.
  • Idioms & Phrases.
  • Active & Passive Voice etc.

Syllabus for General Knowledge

  • Indian History.
  • Indian Geography.
  • Current Events – National & International.
  • Indian Culture & Heritage.
  • Indian Economy.
  • General Polity.
  • Indian Constitution.
  • Science and Technology etc.

Syllabus for Elementary Mathematics

Arithmetic Ability

  • Number System
  • Fundamental operations
  • Unitary method
  • time and distance
  • time and work
  • percentages
  • applications to simple and compound interest
  • profit and loss
  • ratio and proportion
  • variation
  • Elementary Number Theory
  • Division algorithm
  • Prime and composite numbers
  • Tests of divisibility
  • Factorization Theorem
  • H.C.F. and L.C.M
  • Euclidean algorithm
  • Logarithms

Trigonometry

  • Simple trigonometric identities
  • Use of trigonometric tables.
  • Simple cases of heights and distances.

Algebra

  • Basic Operations
  • Simple factors
  • Remainder Theorem
  • H.C.F. & L.C.M.
  • Theory of polynomials
  • Solutions of quadratic equations
  • analytical and graphical solutions
  • Simultaneous linear inequations
  • Practical problems – simultaneous
  • linear equations or inequalities
  • Rational expressions
  • conditional identities
  • Laws of indices

Mensuration

  • Areas of squares, rectangles, parallelograms, triangles, and circles.
  • Areas of figures
  • Surface area and volume of cuboids
  • lateral surface and volume of right circular cones and cylinders
  • surface area and volume of spheres.

Geometry

  • Lines and angles
  • Plane and plane figures
  • Theorems on (i) Properties of angles at a point
    (ii) Parallel lines
    (iii) Sides and angles of a triangle
    (iv) Congruence of triangles
    (v) Similar triangle
    (vi) The concurrence of medians and altitudes
    (vii)Properties of angles, sides & diagonals of a parallelogram, rectangle, and square.
    (viii) Circles and its properties including tangents and normals, (ix) Loci.

Statistics

  • Collection and tabulation of statistical data
  • Graphical representation frequency polygons, histograms, bar charts, pie charts, etc.
  • Measures of central tendency.

Numbers System

  • Natural numbers
  • Integers
  • Rational and Real numbers

Syllabus Intelligence & Personality Test

Stage I

  • Officer Intelligence Rating (OIR)Test: Picture Perception & Description Test (PP&DT).

Stage II

  • Interview
  • Group Testing Officer Tasks
  • Psychology Tests
  • Conference.

Elementary Mathematics

  • Number System
  • Geometry
  • Mensuration
  • Trigonometry

General Knowledge

  • Science
  • Politics
  • History
  • Geography

English

  • Reading Comprehension
  • Sentence Improvement
  • Spot the Error
  • Cloze Test

SYLLABUS AND EXAMINATION PLANING FOR COMBINED MEDICAL SERVICES EXAMINATION

UNION PUBLIC SERVICES COMMISSION, DELHI

SYLLABUS AND EXAMINATION PLANNING THE COMBINED MEDICAL SERVICES EXAMINATION

The examination shall be conducted according to the following plan:‐

PART NO. OF QUESTIONS MARKS
COMPUTER BASED EXAMINATION 240 500
PERSONALITY TEST 100

EXAMINATION PATTERN 2020:

COMPUTER BASED EXAMINATION

The candidates will take the Computer based examination in two Papers, each Paper carrying a maximum of

250 marks. Each Paper will be of two hours duration.

PAPER NO. OF QUESTIONS MARKS

PAPER I

General Medicine and Paediatrics

120 (96 from General Medicine + 24 from Paediatrics) 250
PAPER II 

(a) Surgery

(b) Gynaecology & Obstetrics

(c) Preventive & Social Medicine

120 (40 questions from each part) 250

Part‐II

Personality Test: 

Personality test carrying 100 marks of such of the candidates who qualify on the results of the Computer based

examination.

:SYLLABUS OF EXAMINATION:

Syllabus of Paper‐I

(a) General Medicine including the following:

(i) Cardiology

(ii) Respiratory diseases

(iii) Gastro‐intestinal

(iv) Genito‐Urinary

(v) Neurology

(vi) Hematology

(vii) Endocrinology

(viii) Metabolic disorders

(ix)Infections/Communicable Diseases

                       (a) Virus (b) Rickets (c) Bacterial (d) Spirochetal (e) Protozoan (f) Metazoan (g) Fungus

(x) Nutrition/Growth

(xi)Diseases of the skin (Dermatology)

(xii) Musculoskeletal System

(xiii) Psychiatry

(xiv) General

(xv) Emergency Medicine

(xvi) Common Poisoning

(xvii) Snake bite

(xviii) Tropical Medicine

(xix) Critical Care Medicine

(xx) Emphasis on medical procedures

(xxi) Patho physiological basis of diseases

(xxii) Vaccines preventable diseases and Non vaccines preventable diseases

(xxiii) Vitamin deficiency diseases

(xxiv) In psychiatry include – Depression, psychosis, anxiety, bipolar disease and schizophrenia.

 

(b) Paediatrics including the following ‐

(i)Common childhood emergencies,

(ii) Basic newborn care,

(iii) Normal developmental milestones,

(iv) Accidents and poisonings in children,

(v) Birth defects and counseling including autism,

(vi) Immunization in children,

(vii) Recognizing children with special needs and management, and

(viii) National programmes related to child health.

 

Syllabus of Paper ‐ II

(a) Surgery (Surgery including ENT, Ophthalmology, Traumatology and Orthopaedics)

(I) General Surgery

(i) Wounds

(ii) Infections

(iii) Tumours

(iv) Lymphatic

(v) Blood vessels

(vi) Cysts/sinuses

(vii) Head and neck

(viii) Breast

(ix) Alimentary tract

(a) Oesophagus (b) Stomach (c) Intestines (d) Anus (e) Developmental

(x) Liver, Bile, Pancreas

(xi) Spleen

(xii) Peritoneum

(xiii) Abdominal wall

(xiv) Abdominal injuries

(II) Urological Surgery

(III) Neuro Surgery

(IV) Otorhinolaryngology E.N.T.

(V) Thoracic surgery

(VI) Orthopedic surgery

(VII) Ophthalmology

(VIII) Anesthesiology

(IX) Traumatology

(X) Diagnosis and management of common surgical ailments

(XI) Pre‐operative and post operative care of surgical patients

(XII) Medicolegal and ethical issues of surgery

(XIII) Wound healing

(XIV) Fluid and electrolyte management in surgery

(XV) Shock patho‐physiology and management.

 

(b) GYNAECOLOGY & OBSTETRICS

(I) OBSTETRICS

(i) Ante‐natal conditions

(ii) Intra‐natal conditions

(iii) Post‐natal conditions

(iv) Management of normal labours or complicated labour

(II) GYNAECOLOGY

(i) Questions on applied anatomy

(ii) Questions on applied physiology of menstruation and fertilization

(iii) Questions on infections in genital tract

(iv) Questions on neoplasia in the genital tract

(v) Questions on displacement of the uterus

(vi) Normal delivery and safe delivery practices

(vii) High risk pregnancy and management

(viii) Abortions

(ix) Intrauterine growth retardation

(x) Medicolegal examination in obgy and Gynae including Rape.

(III) FAMILY PLANNING

(i) Conventional contraceptives

(ii) U.D. and oral pills

(iii) Operative procedure, sterilization and organization of programmes in the urban and rural surroundings

(iv) Medical Termination of Pregnancy

(c) PREVENTIVE SOCIAL AND COMMUNITY MEDICINE

I. Social and Community Medicine

II. Concept of Health, Disease and Preventive Medicine

III. Health Administration and Planning

IV. General Epidemiology

V.. Demography and Health Statistics

VI. Communicable Diseases

VII. Environmental Health

VIII. Nutrition and Health

IX. Non‐communicable diseases

X. Occupational Health

XI. Genetics and Health

XII. International Health

XIII. Medical Sociology and Health Education

XIV. Maternal and Child Health

XV. National Programmes

XVI. Management of common health problems

XVII. Ability to monitor national health programmes

XVIII. Knowledge of maternal and child wellness

XIX. Ability to recognize, investigate, report, plan and manage community health problems including malnutrition and emergencies.

(B) PERSONALITY TEST :

Candidates who qualify in the computer based examination will be called for Interview/Personality Test to be conducted by the Union Public Service Commission. The Interview/Personality Test will carry 100 marks. 

The Interview for Personality Test will be intended to serve as a supplement to the computer based examination for testing the General Knowledge and ability of the candidates in the fields of their academic study and also in the nature of a personality test to assess the candidate’s intellectual curiosity, critical powers of assimilation, balance of judgement and alertness of mind, ability for social cohesion, integrity of character, initiative and capability for leadership.

×

Hello!

Click one of our representatives below to chat on WhatsApp or send us an email to info@vidhyarthidarpan.com

×