A career in engineering education is a prestigious one that unites technical expertise with the joy of teaching. Whichever higher educational institute you aspire to, such as a polytechnic lecturer or any other job positions, clearing Kerala PSC exams is the way to achieve your dream. For an engineer in Kerala, more so in Trivandrum, EngineeringPSC provides the best possible platform to realize that dream. Why Choose Engineering Education? It’s not just a job but the chance to inspire the coming generations of engineers and engineering education. Teaching positions in polytechnics and colleges include: Government jobs are stable. Respect in the academic circles. Gives a sense of fulfillment in shaping minds that will innovate in the future. However, this comes at the cost of a competitive exam such as Kerala PSC. The Engineering PSC makes you stand out from the rest. How EngineeringPSC Boosts Your Professionally Here’s why aspiring engineering educators in Trivandrum, Kerala, rely on EngineeringPSC. In-depth PSC Exam PreparationThe website offers:• In-depth study materials for each subject. • Mock tests aligned with the pattern followed by Kerala PSC.• Solved previous question papers so that you understand the trend. These are designed exclusively for engineers targeting Kerala PSC exams so that you need not waste time and energy. 2. Vast Guidance and TipsPSC exams could be very tricky to navigate. EngineeringPSC brings you directly to experienced teachers and exam experts who provide: • Personalized tips to score the best. • Insights into common mistakes and how to avoid them. • Strategies for managing time during exams. 3. Concentrated on Kerala PSC Unlike other general coaching materials, the EngineeringPSC is specifically designed for Kerala PSC. All subjects and practice sessions are covered with what is required by the PSC for Engineers in Trivandrum, Kerala. 4. Flexible and Convenient Learning You can prepare anytime, anywhere because of online access. You may be an active working professional or a very recent fresh graduate, and its flexibility helps you to balance all your studies with other responsibilities. 5. Cheap Courses for All Aspirants Quality education should reach everywhere. Affordable courses by EngineeringPSC make sure that every engineering graduate from Kerala can prepare well without financial burden. Take Control of Your Career in Engineering Education Career-building in engineering education is a highly rewarding journey. The right preparation, however, will put the difference on your side. EngineeringPSC stands poised to take full advantage of focused resources, expert guidance, and commitment to success. Ready to take that step forward? Visit Engineering PSC today and begin your career growth journey in engineering education. Let EngineeringPSC guide you to a brighter future in engineering education.
Category: Kerala PSC
COMPUTER PROGRAMMER SYLLABUS- Kerala PSC 2025COMPUTER PROGRAMMER SYLLABUS- Kerala PSC 2025
Kerala Public Service Commission published notification for Programmer in 2021 under the department of universities in kerala. PATTERN OF EXAM Mode of exam: MCQ(100) Exam contains 100 questions Each correct answers carry one mark and 0.33 mark will deducted for wrong answers. Total time allotted:1hr 15 min PROGRAMMER DETAILED SYLLABUS Module 1 Digital computer principles: Number systems- Binary, Decimal, Octal and Hexadecimal Conversions, Arithmetic Operations, Boolean Algebra, Logic gates, SOP, POS, minterm and maxterms, Boolean expression, Simplifications, postulates and theorems, K-map, Combinational logic circuits- Adder, Subtractor, Multiplexer, Demultiplexer, Encoder, Decoder, Sequential Circuits-SR,JK,T,D flipflops, Shift registers, Asynchronous, Synchronous and Modulo n Counters. Computer Architecture: Multiprocessors and microcomputers, Assembly language, Assembler directives, Seminconductor memory-internal organization, SRAM, DRAM,SDRAM,Rambus memory, ROM technology, Cache memory, virtual memory, working of magnetic disks and tapes, optical disks, instruction sequencing, instruction execution, Hardwired control and microprogrammed control, micro instructions, Pipelining Demo Class : Microprocessors Internal architecture of 05 and 06, interfacing with peripheral devices, microcontrollers. Demo Class : Module 2 Set theory and statistics: Sets, relations, functions, groups, partial orders, lattices, algebraic structures, mathematical induction, The principle of inclusion-Exclusion, Probability theory:Sample spaces, Events and probability, Discrete Probability: Union,Intersection and Compliment of events, Conditional probability, Bayer’s theorem, Linear correlation coefficient, Linear regression, Non linear regression, Multiple correlation and Multiple regression, Theory of sampling and population. Theory of Computation Regular languages and finite automata, Context-free languages and pushdown automata, recursively enumerable sets and Turing machines, Undecidability. System Software and Operating Systems Compiler design, lexical analysis, parsing, syntax directed translation, code generationand optimization, Assemblers, linkers and loaders, macroprocessors, cpu scheduling, Deadlocks, Memory management, file systems, disk scheduling, process, threads and their synchronization, Real time os: clock synchronization and task scheduling, System initialization, booting and handling users accounts, Backup and restore, Bourne shell programming for linux Module 3 Computer Networks: Layered architecture, LAN technologies , wireless LAN, flow and error control, routing algorithms, congestion control, TCP/UDP and sockets, IPv4, IPv6, ICMP, DNS, SMTP, POP, FTP, HTTP, MIME, Hubs, switches, routers and gateways, public key and private key cryptography, digital signature, firewalls, wireless networks, 2G and 3G networks, Bluetooth. Distributed System: Characteristics, inter-process communication, distributed file systems Web technologies Two and three tier client server architecture , web servers, HTML and XML, Style sheets, client side scripting-java script and VB script: server side scripting-php, jsp, and ASP.NET programming for creating dynamic web pages using database, forms and sessions: AJAX and signalR Demo Class : Module 4 Data structures: Data structures: Linked list, stack, queue, priority queues, Hashing, Binary trees, Tree traversal, BST, AVL trees, Graphs-shortest paths, minimum spanning trees, sorting algorithms. Algorithms: Analysis, space and time complexity, Design-greedy approach, Dynamic programming, divide and conquer, sorting and searching , complexity classes-P, NP,NP-hard, NP-complete. Programming Concepts in C : Operators and expressions, control statements, storage structures, functions, arrays, strings, structures, pointers and dynamic memory management, file handling. Module 5 Database management system: Keys, E-R models, Normalization-1NF to 5NF:Relational algebra, SQL, Aggregate functions, Nested sub queries, views, joined Relations, Transaction –ACID properties: concurrency control, triggers, stored procedures. Software Engineering: System modelling, system engineering process, life cycle models, desing and implementation, validation, evolution, automated,process support-software requirements, SRS, feasibility studies-elicitation and analysis-validation-management-system models, context models, behaviour models, data models, object models, object-oriented design evolution, real time software design, critical system specifications-critical system development, software testing. STRATEGIES AND TIPS Know the Exam Pattern and Syllabus thoroughly… Prepare a Timetable to Ease Your Preparations…. Give Utmost Importance to Practices Previous year question Papers…. Never Overwork Yourself…. Refer to the Best Study Materials Available… Is it easy to get a role of computer programmer under government ? Yes. It all starts with a dream , a dream to become a government employee under kerala government with the right preparations, one can clear the exam for programmer in first attempt. Work hard , practice previous year question papers and cover the entire syllabus which makes your steps easier. Will only studying the topics from the syllabus enough to get a government job? NO. In previous years many questions are coming outside the syllabus for various technical exams. So give importance to practice more previous year question papers.
Assistant Professor in CIVIL ENGINEERING Syllabus Kerala PSC 2022Assistant Professor in CIVIL ENGINEERING Syllabus Kerala PSC 2022
Assistant professor in government engineering college exam published in 2022. The syllabus comprises of two parts as given below Mode of Exam: MCQ (OMR) Exam contains 100 Questions Each correct answer carry one mark & 0.33 detected for wrong answers Total time allotted : 1hr 15 min Do you believe that all questions comes from the syllabus ? NO, Thorough knowledge of subject is required since question from outside can be expected. In the recent years we can see a trend of deviation in questions in the technical exams conducted by the Kerala PSC. Will only studying topics in syllabus fetch me a GOVT Job? Do not blindly follow the syllabus rather have good technical knowledge of your subjects. If you check the previous year papers you could find out many questions coming outside the syllabus in all technical exams by Kerala PSC. Assistant Professor in COMPUTER SCIENCE ENGINEERING SYLLABUS *Non Technical portions has been omitted from the syllabus MATHEMATICS (ENGINEERING) Matrices: Rank, systems of linear equations, consistency, eigen values, eigen vectors, Cayley Hamilton Theorem, diagonalisation, linear dependence and independence of vectors. Demo Class : Click Here Partial Differentiation: Partial derivatives, Euler’s theorem on homogeneous functions, total derivatives, Jacobians, Taylor’s series (one and two variables) – Maxima and minima of functions of two variables – Lagrange’ s method. Vector Differentiation: Scalar and vector functions, differentiation of vector functions – velocity and acceleration – scalar and vector fields – operator Ñ – Gradient – Directional derivative – Divergence – Curl – irrotational and solenoidal fields – scalar potential. Laplace Transforms: Transforms of elementary functions, shifting property – inverse transforms – transforms of derivatives and integrals – transform of functions multiplied by t and divided by t – convolution theorem, solution of ordinary differential equations with constant coefficients using Laplace transforms. Ordinary Differential Equations: First Order ordinary differential equations, systems of linear first order ordinary differential equations, linear ordinary differential equations of higher order with constant coefficients, linear second order ordinary differential equations with variable coefficients (Cauchy and Legendre equations), Method of Laplace transforms for solving ordinary differential equations. Complex Analysis: Analytic functions, conformal mappings, bilinear transformations, complex integration, Cauchy’s integral theorem and formula, Taylor and Laurent’s series, residue theorem. Fourier Series: Fourier series of periodic functions of period 2 π and 2 ℓ, odd and even functions, Half range expansions. BASIC CIVIL ENGINEEERING Mechanics – statistics – Coplanar forces – conditions of equilibrium. Support reactions – Simply supported and overhanging beams. Friction – Laws of friction – applications. Centre of gravity and moment of inertia of plane areas. Dynamics – rectilinear motion – Newton’s laws of motion – curvilinear motion. Building materials – common building materials – stone, brick, cement, steel, aggregate, concrete, timber – properties, IS specification. Building construction – types and functions of the following structural components of buildings – foundations and superstructure. Surveying – principle of surveying – linear measurements using chain – levelling work – reduction of levels. Demo Class : Click Here BASIC MECHANICAL ENGINEERING Zeroth, first and second laws of thermodynamics, CI and SI Engines, properties of steam. Centrifugal and reciprocating pumps, hydraulic turbines, refrigeration and air conditioning, hydro-electric, thermal and nuclear power plants, mechanical power transmission systems such as belt, rope, chain and gear, manufacturing process – casting, forging, rolling, brazing, soldering, and welding, machining process – turning, shaping, drilling, grinding and milling. Conic sections and miscellaneous curves, orthographic, isometric and perspective projections. Demo Class : Click Here BASIC ELECTRICAL ENGINEERING Ohm’s law, Kirchoff’s laws – solution of series and parallel circuits with dc excitation. Magnetic circuits: MMF, field strength, flux density, reluctance, electromagnetic induction, Faraday’s laws, Lenz’s law, statically and dynamically induced emfs, self and mutual induction, co-efficient of coupling. Principle of generation of alternating current – waveforms – frequency, period, average and rms values, form factor. Generation of 3 phase ac voltage, star and delta connections, voltage & current relationships in star and delta (balanced system only). Principle of operation of dc motor & generator, single phase transformer and three phase induction motor. Types of lamps, necessity of earthing. BASIC ELECTRONICS ENGINEERING Devices – working principle of PN junction, Zener diode and BJT. Systems – Rectifiers : Half wave, Full wave and Bridge. Filters: Capacitors and Inductors. Amplifiers & Oscillators – Common Emitter RC coupled amplifier and its frequency response. Principles of Wein-bridge oscillator. Op-amps: Basics, inverting and non- inverting amplifier. Communication – Need for modulation, principles of AM and FM. Measurements – Working principles of CRO and Multimeter. BASIC COMPUTER SCIENCE Functional units of a computer. Programming in C – control structures, functions. Mechanics of Structures Simple stress and strain relationship: Stress and strain in two dimensions, principal stresses, Stress transformation, Mohr’s circle – Bending moment and shear force in statically determinate beams – Simple bending theory, flexural and shear stress – Thin walled pressure vessels, uniform torsion, buckling of column, combined and direct bending stresses. Analysis of statically determinate trusses, arches, beams, cables and frames – Deflection of beams, methods – Displacements in statically determinate structures and analysis of statically indeterminate structures by force / energy methods, analysis by displacement methods (slope deflection and moment distribution methods) – influence lines for determinate and indeterminate structures – Basic concepts of matrix methods of structural analysis. Demo Class : Click Here Structural design, Construction and Management Concrete Structures – Concrete technology – properties of concrete, mix design. Concrete design – working stress and limit state design concepts – analysis of ultimate load capacity and design of members subjected to flexure, shear, compression and torsion by limit state methods. Basic elements of pre-stressed concrete, analysis of beam sections (rectangular and I sections). Design of retaining walls and water tanks. Steel structures – Analysis and design of tension and compression members, beams, beam-columns, column bases. Connections – simple and eccentric beam column connections – plate girders and trusses – Plastic analysis of beams and frames. Construction Management – Construction, planning and scheduling – Bar chart, CPM, PERT – construction equipments
Assistant Professor in COMPUTER SCIENCEÂ ENGINEERING Syllabus Kerala PSC 2022Assistant Professor in COMPUTER SCIENCEÂ ENGINEERING Syllabus Kerala PSC 2022
Assistant professor in government engineering college exam published in 2022. The syllabus comprises of two parts as given below Mode of Exam: MCQ (OMR) Exam contains 100 Questions Each correct answer carry one mark & 0.33 detected for wrong answers Total time allotted : 1hr 15 min Do you believe that all questions comes from the syllabus ? NO, Thorough knowledge of subject is required since question from outside can be expected. In the recent years we can see a trend of deviation in questions in the technical exams conducted by the Kerala PSC. Will only studying topics in syllabus fetch me a GOVT Job? Do not blindly follow the syllabus rather have good technical knowledge of your subjects. If you check the previous year papers you could find out many questions coming outside the syllabus in all technical exams by Kerala PSC. Assistant Professor in COMPUTER SCIENCE ENGINEERING SYLLABUS *Non Technical portions has been omitted from the syllabus  MATHEMATICS   (ENGINEERING) Matrices: Rank, systems of linear equations, consistency, eigen values, eigen vectors, Cayley Hamilton Theorem, diagonalisation, linear dependence and independence of vectors. Demo Class : Click Here Partial Differentiation: Partial derivatives, Euler’s theorem on homogeneous functions, total derivatives, Jacobians, Taylor’s series (one and two variables) – Maxima and minima of functions of two variables – Lagrange’ s method. Vector Differentiation: Scalar and vector functions, differentiation of vector functions – velocity and acceleration – scalar and vector fields – operator Ñ – Gradient – Directional derivative – Divergence – Curl – irrotational and solenoidal fields – scalar potential. Laplace Transforms: Transforms of elementary functions, shifting property – inverse transforms – transforms of derivatives and integrals – transform of functions multiplied by t and divided by t – convolution theorem, solution of ordinary differential equations with constant coefficients using Laplace transforms. Ordinary Differential Equations: First Order ordinary differential equations, systems of linear first order ordinary differential equations, linear ordinary differential equations of higher order with constant coefficients, linear second order ordinary differential equations with variable coefficients (Cauchy and Legendre equations), Method of Laplace transforms for solving ordinary differential equations. Complex Analysis: Analytic functions, conformal mappings, bilinear transformations, complex integration, Cauchy’s integral theorem and formula, Taylor and Laurent’s series, residue theorem. Fourier Series: Fourier series of periodic functions of period 2 Ï€ and 2 â„“, odd and even functions, Half range expansions. BASIC CIVIL  ENGINEEERING Mechanics – statistics – Coplanar forces – conditions of equilibrium. Support reactions – Simply supported and overhanging beams. Friction – Laws of friction – applications. Centre of gravity and moment of inertia of plane areas. Dynamics – rectilinear motion – Newton’s laws of motion – curvilinear motion. Building materials – common building materials – stone, brick, cement, steel, aggregate, concrete, timber – properties, IS specification. Building construction – types and functions of the following structural components of buildings – foundations and superstructure. Surveying – principle of surveying – linear measurements using chain – levelling work – reduction of levels. Demo Class : Click Here      BASIC MECHANICAL ENGINEERING Zeroth, first and second laws of thermodynamics, CI and SI Engines, properties of steam. Centrifugal and reciprocating pumps, hydraulic turbines, refrigeration and air conditioning, hydro-electric, thermal and nuclear power plants, mechanical power transmission systems such as belt, rope, chain and gear, manufacturing process – casting, forging, rolling, brazing, soldering, and welding, machining process – turning, shaping, drilling, grinding and milling. Conic sections and miscellaneous curves, orthographic, isometric and perspective projections. Demo Class : Click Here  BASIC ELECTRICAL ENGINEERING Ohm’s law, Kirchoff’s laws – solution of series and parallel circuits with dc excitation. Magnetic circuits: MMF, field strength, flux density, reluctance, electromagnetic induction, Faraday’s laws, Lenz’s law, statically and dynamically induced emfs, self and mutual induction, co-efficient of coupling. Principle of generation of alternating current – waveforms – frequency, period, average and rms values, form factor. Generation of 3 phase ac voltage, star and delta connections, voltage & current relationships in star and delta (balanced system only). Principle of operation of dc motor & generator, single phase transformer and three phase induction motor. Types of lamps, necessity of earthing. BASIC  ELECTRONICS  ENGINEERING Devices – working principle of PN junction, Zener diode and BJT. Systems – Rectifiers : Half wave, Full wave and Bridge. Filters: Capacitors and Inductors. Amplifiers & Oscillators – Common Emitter RC coupled amplifier and its frequency response. Principles of Wein-bridge oscillator. Op-amps: Basics, inverting and non- inverting amplifier. Communication – Need for modulation, principles of AM and FM. Measurements – Working principles of CRO and Multimeter. BASIC  COMPUTER  SCIENCE Functional units of a computer. Programming in C – control structures, functions. Computer Organization & Architecture Digital Logic: Logic functions, minimization, design and synthesis of combinational and sequential circuits, number representation and computer arithmetic (fixed and floating point). Computer Organization: Machine instructions and addressing modes, ALU, CPU control design, memory interface, I/O interface, DMA, interrupts, pipelining, memory hierarchy, parallel computer models. Microprocessors: Internal architecture of 8085 and 8086, interfacing with peripheral devices, microcontrollers. Demo Class : Click Here Programming Languages & Information Systems Object Oriented Programming: Object oriented design concepts, programming in C++, Java. Databases: ER model, relational algebra, tuple calculus, database design, integrity constraints, normalization, SQL, B-trees, B+ – trees, transactions and concurrency control. Software Engineering: Software process models, planning and managing a software project, design, implementation, software testing, quality models and maintenance. Programming Language Concepts: Parameter passing, binding, scope, recursion, functional and logic languages. Data Structures & Algorithms Data Structures: Arrays, stacks, queues, linked lists, trees, binary search trees, binary heaps, graphs. Algorithms: Analysis, space and time complexity. Design – greedy approach, dynamic programming, divide-and-conquer, sorting and searching, complexity classes – P, NP, NP-hard, NP-complete. Graph Theory: Connectivity, covering, colouring, planarity, isomorphism. Computer Graphics: Line drawing, circle drawing, filling, hatching, 2D/3D transformations, projections, hidden surface removal. Demo Class : Click Here Computing and System Software Set Theory: Sets, relations, functions, groups, partial orders, lattice, algebraic structures. Theory of Computation: Regular languages and finite automata, context-free languages & pushdown automata, recursively enumerable sets & Turing machines, undecidability. System
Assistant Professor in MECHANICAL ENGINEERING Syllabus Kerala PSC 2025Assistant Professor in MECHANICAL ENGINEERING Syllabus Kerala PSC 2025
Assistant professor in government engineering college exam published in 2022. The syllabus comprises of two parts as given below Mode of Exam: MCQ (OMR) Exam contains 100 Questions Each correct answer carry one mark & 0.33 detected for wrong answers Total time allotted : 1hr 15 min Do you believe that all questions comes from the syllabus ? NO, Thorough knowledge of subject is required since question from outside can be expected. In the recent years we can see a trend of deviation in questions in the technical exams conducted by the Kerala PSC. Will only studying topics in syllabus fetch me a GOVT Job? Do not blindly follow the syllabus rather have good technical knowledge of your subjects. If you check the previous year papers you could find out many questions coming outside the syllabus in all technical exams by Kerala PSC. Assistant Professor in MECHANICAL ENGINEERING SYLLABUS *Non Technical portions has been omitted from the syllabus MATHEMATICS (ENGINEERING) Matrices: Rank, systems of linear equations, consistency, eigen values, eigen vectors, Cayley Hamilton Theorem, diagonalisation, linear dependence and independence of vectors. Demo Class : Click Here Partial Differentiation: Partial derivatives, Euler’s theorem on homogeneous functions, total derivatives, Jacobians, Taylor’s series (one and two variables) – Maxima and minima of functions of two variables – Lagrange’ s method. Vector Differentiation: Scalar and vector functions, differentiation of vector functions – velocity and acceleration – scalar and vector fields – operator Ñ – Gradient – Directional derivative – Divergence – Curl – irrotational and solenoidal fields – scalar potential. Laplace Transforms: Transforms of elementary functions, shifting property – inverse transforms – transforms of derivatives and integrals – transform of functions multiplied by t and divided by t – convolution theorem, solution of ordinary differential equations with constant coefficients using Laplace transforms. Ordinary Differential Equations: First Order ordinary differential equations, systems of linear first order ordinary differential equations, linear ordinary differential equations of higher order with constant coefficients, linear second order ordinary differential equations with variable coefficients (Cauchy and Legendre equations), Method of Laplace transforms for solving ordinary differential equations. Complex Analysis: Analytic functions, conformal mappings, bilinear transformations, complex integration, Cauchy’s integral theorem and formula, Taylor and Laurent’s series, residue theorem. Fourier Series: Fourier series of periodic functions of period 2 π and 2 ℓ, odd and even functions, Half range expansions. BASIC CIVIL ENGINEEERING Mechanics – statistics – Coplanar forces – conditions of equilibrium. Support reactions – Simply supported and overhanging beams. Friction – Laws of friction – applications. Centre of gravity and moment of inertia of plane areas. Dynamics – rectilinear motion – Newton’s laws of motion – curvilinear motion. Building materials – common building materials – stone, brick, cement, steel, aggregate, concrete, timber – properties, IS specification. Building construction – types and functions of the following structural components of buildings – foundations and superstructure. Surveying – principle of surveying – linear measurements using chain – levelling work – reduction of levels. Demo Class : Click Here BASIC MECHANICAL ENGINEERING Zeroth, first and second laws of thermodynamics, CI and SI Engines, properties of steam. Centrifugal and reciprocating pumps, hydraulic turbines, refrigeration and air conditioning, hydro-electric, thermal and nuclear power plants, mechanical power transmission systems such as belt, rope, chain and gear, manufacturing process – casting, forging, rolling, brazing, soldering, and welding, machining process – turning, shaping, drilling, grinding and milling. Conic sections and miscellaneous curves, orthographic, isometric and perspective projections. Demo Class : Click Here BASIC ELECTRICAL ENGINEERING Ohm’s law, Kirchoff’s laws – solution of series and parallel circuits with dc excitation. Magnetic circuits: MMF, field strength, flux density, reluctance, electromagnetic induction, Faraday’s laws, Lenz’s law, statically and dynamically induced emfs, self and mutual induction, co-efficient of coupling. Principle of generation of alternating current – waveforms – frequency, period, average and rms values, form factor. Generation of 3 phase ac voltage, star and delta connections, voltage & current relationships in star and delta (balanced system only). Principle of operation of dc motor & generator, single phase transformer and three phase induction motor. Types of lamps, necessity of earthing. BASIC ELECTRONICS ENGINEERING Devices – working principle of PN junction, Zener diode and BJT. Systems – Rectifiers : Half wave, Full wave and Bridge. Filters: Capacitors and Inductors. Amplifiers & Oscillators – Common Emitter RC coupled amplifier and its frequency response. Principles of Wein-bridge oscillator. Op-amps: Basics, inverting and non- inverting amplifier. Communication – Need for modulation, principles of AM and FM. Measurements – Working principles of CRO and Multimeter. BASIC COMPUTER SCIENCE Functional units of a computer. Programming in C – control structures, functions. Thermodynamics and Fluid Mechanics Thermodynamic processes, entropy, irreversibility and availability, basic thermodynamic cycles, behaviour of ideal and real gases, properties of pure substances, computation of work and heat, ideal processes, analysis of thermodynamic cycles related to energy conversion. Fluid mechanics: Fluid properties, fluid statics, manometry, buoyancy, control volume analysis of mass, momentum and energy, fluid acceleration, differential equations of continuity and momentum. Euler’s equation, Bernoulli’s equation, laminar flow through pipes, boundary layer displacement, momentum and energy thickness, flow through pipes, minor and major losses, dimensional analysis. Heat transfer: Modes of heat transfer, one dimensional heat conduction, thermal resistance, fins, free and forced convective heat transfer, dimensionless parameters, problems in convective heat transfer with the help of correlation, thermal boundary layer, radiation, black and grey surfaces, shape factors, network analysis. Mechanics of Solids: Stress-strain relationship and elastic constant, principal stress and strains, Mohr’s circle for plane stresses and plane strains, shear force and bending moment diagrams, bending of beams, torsion of circular shafts, Euler’s theory of columns, strain energy, thermal stresses. Theory of Machines Kinematic and dynamic analysis of planer mechanisms. Cams, Gears and gear trains. Flywheels, Governors, Balancing of rigid rotors and field balancing, Balancing of single and multi cylinder engines, free and forced vibrations of single degree of freedom systems, effect of damping, vibration isolation and transmissibility, resonance, Critical speeds and whirling of shafts. Design for static and dynamic loading, failure theories, fatigue strength
Assistant Professor in Electrical and Electronics Engineering Syllabus Kerala PSC 2025Assistant Professor in Electrical and Electronics Engineering Syllabus Kerala PSC 2025
Assistant professor in government engineering college exam published in 2022. The syllabus comprises of two parts as given below Mode of Exam: MCQ (OMR) Exam contains 100 Questions Each correct answer carry one mark & 0.33 detected for wrong answers Total time allotted : 1hr 15 min Do you believe that all questions comes from the syllabus ? NO, Thorough knowledge of subject is required since question from outside can be expected. In the recent years we can see a trend of deviation in questions in the technical exams conducted by the Kerala PSC. Will only studying topics in syllabus fetch me a GOVT Job? Do not blindly follow the syllabus rather have good technical knowledge of your subjects. If you check the previous year papers you could find out many questions coming outside the syllabus in all technical exams by Kerala PSC. Assistant Professor in Electrical and Electronics Engineering SYLLABUS *Non Technical portions has been omitted from the syllabus MATHEMATICS (ENGINEERING) Matrices: Rank, systems of linear equations, consistency, eigen values, eigen vectors, Cayley Hamilton Theorem, diagonalisation, linear dependence and independence of vectors. Demo Class : Click Here Partial Differentiation: Partial derivatives, Euler’s theorem on homogeneous functions, total derivatives, Jacobians, Taylor’s series (one and two variables) – Maxima and minima of functions of two variables – Lagrange’ s method. Vector Differentiation: Scalar and vector functions, differentiation of vector functions – velocity and acceleration – scalar and vector fields – operator Ñ – Gradient – Directional derivative – Divergence – Curl – irrotational and solenoidal fields – scalar potential. Laplace Transforms: Transforms of elementary functions, shifting property – inverse transforms – transforms of derivatives and integrals – transform of functions multiplied by t and divided by t – convolution theorem, solution of ordinary differential equations with constant coefficients using Laplace transforms. Ordinary Differential Equations: First Order ordinary differential equations, systems of linear first order ordinary differential equations, linear ordinary differential equations of higher order with constant coefficients, linear second order ordinary differential equations with variable coefficients (Cauchy and Legendre equations), Method of Laplace transforms for solving ordinary differential equations. Complex Analysis: Analytic functions, conformal mappings, bilinear transformations, complex integration, Cauchy’s integral theorem and formula, Taylor and Laurent’s series, residue theorem. Fourier Series: Fourier series of periodic functions of period 2 Ï€ and 2 â„“, odd and even functions, Half range expansions. BASIC CIVIL ENGINEEERING Mechanics – statistics – Coplanar forces – conditions of equilibrium. Support reactions – Simply supported and overhanging beams. Friction – Laws of friction – applications. Centre of gravity and moment of inertia of plane areas. Dynamics – rectilinear motion – Newton’s laws of motion – curvilinear motion. Building materials – common building materials – stone, brick, cement, steel, aggregate, concrete, timber – properties, IS specification. Building construction – types and functions of the following structural components of buildings – foundations and superstructure. Surveying – principle of surveying – linear measurements using chain – levelling work – reduction of levels. Demo Class : Click Here BASIC MECHANICAL ENGINEERING Zeroth, first and second laws of thermodynamics, CI and SI Engines, properties of steam. Centrifugal and reciprocating pumps, hydraulic turbines, refrigeration and air conditioning, hydro-electric, thermal and nuclear power plants, mechanical power transmission systems such as belt, rope, chain and gear, manufacturing process – casting, forging, rolling, brazing, soldering, and welding, machining process – turning, shaping, drilling, grinding and milling. Conic sections and miscellaneous curves, orthographic, isometric and perspective projections. Demo Class : Click Here BASIC ELECTRICAL ENGINEERING Ohm’s law, Kirchoff’s laws – solution of series and parallel circuits with dc excitation. Magnetic circuits: MMF, field strength, flux density, reluctance, electromagnetic induction, Faraday’s laws, Lenz’s law, statically and dynamically induced emfs, self and mutual induction, co-efficient of coupling. Principle of generation of alternating current – waveforms – frequency, period, average and rms values, form factor. Generation of 3 phase ac voltage, star and delta connections, voltage & current relationships in star and delta (balanced system only). Principle of operation of dc motor & generator, single phase transformer and three phase induction motor. Types of lamps, necessity of earthing. BASIC ELECTRONICS ENGINEERING Devices – working principle of PN junction, Zener diode and BJT. Systems – Rectifiers : Half wave, Full wave and Bridge. Filters: Capacitors and Inductors. Amplifiers & Oscillators – Common Emitter RC coupled amplifier and its frequency response. Principles of Wein-bridge oscillator. Op-amps: Basics, inverting and non- inverting amplifier. Communication – Need for modulation, principles of AM and FM. Measurements – Working principles of CRO and Multimeter. BASIC COMPUTER SCIENCE Functional units of a computer. Programming in C – control structures, functions. Electronic Circuits and Field Theory Node and Mesh analysis, transient response of dc and ac networks, sinusoidal steady state analysis, resonance, two port network, independent and dependent voltage and current sources, coupled circuits, tuned coupled circuits, Network theorems – superposition, reciprocity, substitution, compensation, Thevenin, Norton, Millman, Telligen and Maximum power transfer theorems. Analysis of Three phase circuits, symmetrical components, graph theory – analysis of network using cut-set and tri-set. Filters constant – K low pass, high pass and band-pass filters – m derived, low pass, high pass and band pass filters. Gauss’s law and applications, electric field, electric potential, electric field lines, electric dipoles, potential gradient, conductors, dielectrics, capacitance, polarisation, method of images, dielectric strength, Biot-Savart’s law, Ampere’s circuital law, Stoke’s theorem, scalar and vector magnetic potential, force between current carrying wires, Maxwell’s equation – wave equation – Poynting theorem. Electrical Machines Single phase Transformer – leakage reactance, equivalent circuit, losses and efficiency, voltage regulation, OC, SC and Sumpner’s tests, Distribution transformer, all day efficiency, autotransformer – saving of copper three phase transformer – connections, vector groupings, parallel operation. DC machines – Types of excitation, constructional features. DC generator – Emf equation, armature reaction & commutation, characteristics, voltage build up, applications. DC motor – Torque equation, characteristics of shunt, series & compound motors, necessity & types of starters, speed control, applications, Swinburne’s test, Hopkinson’s test. Synchronous machines: – constructional features, winding factor.Alternator: Types,
Assistant professor in Electronics and Communications Engineering Syllabus Kerala PSC 2025Assistant professor in Electronics and Communications Engineering Syllabus Kerala PSC 2025
Assistant professor in government engineering college exam published in 2022. The syllabus comprises of two parts as given below Mode of Exam: MCQ (OMR) Exam contains 100 Questions Each correct answer carry one mark & 0.33 detected for wrong answers Total time allotted : 1hr 15 min Do you believe that all questions comes from the syllabus ? NO, Thorough knowledge of subject is required since question from outside can be expected. In the recent years we can see a trend of deviation in questions in the technical exams conducted by the Kerala PSC. Will only studying topics in syllabus fetch me a GOVT Job? Do not blindly follow the syllabus rather have good technical knowledge of your subjects. If you check the previous year papers you could find out many questions coming outside the syllabus in all technical exams by Kerala PSC. ELECTRONICS AND COMMUNICATION / APPLIED ELECTRONICS & INSTRUMENTATION SYLLABUS MATHEMATICS (ENGINEERING) Matrices: Rank, systems of linear equations, consistency, eigen values, eigen vectors, Cayley Hamilton Theorem, diagonalisation, linear dependence and independence of vectors. Demo Class : Click Here Partial Differentiation: Partial derivatives, Euler’s theorem on homogeneous functions, total derivatives, Jacobians, Taylor’s series (one and two variables) – Maxima and minima of functions of two variables – Lagrange’ s method. Vector Differentiation: Scalar and vector functions, differentiation of vector functions – velocity and acceleration – scalar and vector fields – operator Ñ – Gradient – Directional derivative – Divergence – Curl – irrotational and solenoidal fields – scalar potential. Laplace Transforms: Transforms of elementary functions, shifting property – inverse transforms – transforms of derivatives and integrals – transform of functions multiplied by t and divided by t – convolution theorem, solution of ordinary differential equations with constant coefficients using Laplace transforms. Ordinary Differential Equations: First Order ordinary differential equations, systems of linear first order ordinary differential equations, linear ordinary differential equations of higher order with constant coefficients, linear second order ordinary differential equations with variable coefficients (Cauchy and Legendre equations), Method of Laplace transforms for solving ordinary differential equations. Complex Analysis: Analytic functions, conformal mappings, bilinear transformations, complex integration, Cauchy’s integral theorem and formula, Taylor and Laurent’s series, residue theorem. Fourier Series: Fourier series of periodic functions of period 2 π and 2 ℓ, odd and even functions, Half range expansions. BASIC CIVIL ENGINEEERING Mechanics – statistics – Coplanar forces – conditions of equilibrium. Support reactions – Simply supported and overhanging beams. Friction – Laws of friction – applications. Centre of gravity and moment of inertia of plane areas. Dynamics – rectilinear motion – Newton’s laws of motion – curvilinear motion. Building materials – common building materials – stone, brick, cement, steel, aggregate, concrete, timber – properties, IS specification. Building construction – types and functions of the following structural components of buildings – foundations and superstructure. Surveying – principle of surveying – linear measurements using chain – levelling work – reduction of levels. Demo Class : Click Here BASIC MECHANICAL ENGINEERING Zeroth, first and second laws of thermodynamics, CI and SI Engines, properties of steam. Centrifugal and reciprocating pumps, hydraulic turbines, refrigeration and air conditioning, hydro-electric, thermal and nuclear power plants, mechanical power transmission systems such as belt, rope, chain and gear, manufacturing process – casting, forging, rolling, brazing, soldering, and welding, machining process – turning, shaping, drilling, grinding and milling. Conic sections and miscellaneous curves, orthographic, isometric and perspective projections. Demo Class : Click Here BASIC ELECTRICAL ENGINEERING Ohm’s law, Kirchoff’s laws – solution of series and parallel circuits with dc excitation. Magnetic circuits: MMF, field strength, flux density, reluctance, electromagnetic induction, Faraday’s laws, Lenz’s law, statically and dynamically induced emfs, self and mutual induction, co-efficient of coupling. Principle of generation of alternating current – waveforms – frequency, period, average and rms values, form factor. Generation of 3 phase ac voltage, star and delta connections, voltage & current relationships in star and delta (balanced system only). Principle of operation of dc motor & generator, single phase transformer and three phase induction motor. Types of lamps, necessity of earthing. BASIC ELECTRONICS ENGINEERING Devices – working principle of PN junction, Zener diode and BJT. Systems – Rectifiers : Half wave, Full wave and Bridge. Filters: Capacitors and Inductors. Amplifiers & Oscillators – Common Emitter RC coupled amplifier and its frequency response. Principles of Wein-bridge oscillator. Op-amps: Basics, inverting and non- inverting amplifier. Communication – Need for modulation, principles of AM and FM. Measurements – Working principles of CRO and Multimeter. BASIC COMPUTER SCIENCE Functional units of a computer. Programming in C – control structures, functions. Networks and Devices Network theorems: superposition, Thevenin and Norton’s maximum power transfer, time domain analysis of simple RC, RL and RLC circuits, solution of network equations using Laplace transform: frequency domain analysis of RL, RC and RLC circuits, 2-port network parameters: driving point and transfer functions. Electronic Devices: Energy bands in silicon, carrier transport in silicon, diffusion current, drift current, mobility and resistivity, generation and recombination of carriers, working principles of p-n junction diode, Zener diode, tunnel diode, BJT, JFET, MOSFET, LED and photo diode. Analog and Digital Circuit Simple diode circuits: clipping & clamping, biasing and bias stability of BJTs and MOSFETs, small signal equivalent circuits of BJTs and MOSFETs. Amplifiers: single stage, differential, feedback and power. Frequency response of amplifiers. Op- amp circuits: Inverting, non-inverting, Integrator and Comparator. Sinusoidal Oscillators: criterion for oscillation, single transistor and op-amp configurations. Boolean algebra, minimization of Boolean functions, logic gates, combinational Circuits: arithmetic circuits, code converters, multiplexers and decoders, sequential circuits: latches and flip-flops, counters and shift registers, ADCs and DACs, microprocessor (8085): architecture and programming. Demo Class : Click Here Signals and Systems Introduction to signals and systems, Linear Time-invariant (LTI systems): definitions and properties, causality, stability, impulse response and convolution, continuous-time and discrete-time Fourier series, continuous-time and discrete-time Fourier Transform Z-transform: definition, properties and inverse, stability analysis using pole-zero plot, difference equation solution using unilateral Z-transform, DFT and its properties, FFT: radix 2 and composite radix algorithm, sampling theorem, realization of