HomeEngineering and Architecture ExamsSRM Joint Engineering Entrance Examination PG

SRMJEEE PG 2025 Exam – Date, Registration, Syllabus, Eligibility, Pattern, Question Paper, Cutoff

Ongoing Event
SRMJEEE PG Application Date : 28 Nov' 2024 - 10 Mar' 2025
Updated on 29th November, 2024 by Samridhi Mishra

About SRMJEEE PG 2025

SRMJEEE PG 2025 - SRMIST has commenced the SRMJEEE PG 2025 registration on November 28, 2024. The SRMJEEE PG application form 2025 link is updated on the official website, srmist.edu.in. Eligible candidates must apply for the SRMJEEE PG 2025 exam before the last date. The last date for SRMJEEE PG registration 2025 for phase 1 is March 10, for phase 2 is May 12 and phase 3 is June 30, 2025. The SRMJEEE PG exam 2025 will be held in three phases as a remote proctored test. The authority has announced the SRMJEEE PG 2025 exam dates online. The SRMJEEE PG 2025 exam date for phase 1 is March 15, 2025, phase 2 is May 17 while for phase 3 is July 5, 2025. 

The authority has released the SRMJEEE PG exam syllabus and pattern online. Candidates must check the SRMJEEE PG 2025 paper pattern and syllabus to prepare for the test. The SRMJEEE PG Exam is conducted for admission into various M.Tech programmes at the institute. The authorities will release the SRMJEEE PG 2025 eligibility criteria online. Candidates must note that the eligibility criteria vary for each discipline. Candidates have to clear the B.Tech from a recognized university to be eligible for admission to SRM PG courses.

SRMJEEE PG 2025 latest news and updates

  • SRMJEEE PG 2025 application form released.

  • SRMIST has announced the SRMJEEE PG 2025 exam dates online.

  • SRM Institute of Science and Technology has released the SRMJEEE PG 2025 exam syllabus and pattern on the official website.

The result of the SRMJEEE PG entrance test will be declared in the form of ranks and scores obtained by the candidates. Candidates will be able to check their SRMJEEE PG 2024 results from the official website. 

The authorities will release the SRMJEEE PG cutoff 2025 on the official website. The cutoff of SRMJEEE PG 2025 will comprise the minimum scores required for admission. The SRMJEEE PG cutoff is based on factors such as the number of seats available, the number of applicants appearing for the SRMJEEE PG entrance test, difficulty levels of the exam as well as previous year cutoff trends. 

About SRMJEEE PG exam 2025

SRM University conducts the SRMJEEE PG exam to offer admission to PG engineering courses. The institute offers various M.Tech courses through the SRM Joint Engineering Examination like M.Tech in Civil Engineering, Computer Science Engineering, Electronics, Electrical, Food processing, etc.

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SRMJEEE PG 2025 Highlights

Full Exam Name
SRM Joint Engineering Entrance Examination PG
Short Exam Name
SRMJEEE PG
Conducting Body
SRM University
Frequency Of Conduct
Thrice a year
Exam Level
University Level Exam
Languages
English
Mode Of Application
online
Application Fee
Online : 1400
Mode Of Exam
online
Mode Of Counselling
online
Participating Colleges
4
Exam Duration
2 Hours 30 Minutes

SRMJEEE PG Important Dates

SRMJEEE PG SRM Joint Engineering Entrance Examination PG (session 2025)

28 Nov' 2024 - 10 Mar' 2025 . OnlineOn Going
Application Date
Phase 1
15 Mar' 2025 - 15 Mar' 2025 . Online
Exam Date
Phase 1
12 May' 2025 - 12 May' 2025 . Online
Application Date
Last date to submit the application for phase 2

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The authority released the SRMJEEE PG 2025 application form on the official website, srmist.edu.in. Applicants who meet the eligibility criteria can submit the application form for SRMJEEE PG 2025. The application process consists of filling and submitting the application form and application fee payment. Candidates who wish to appear for the SRMJEEE PG exam have to submit the SRMJEEE PG application form before the last date. The authority has announced the last date for the SRMJEEE PG 2025 registration for all three phases. The process for SRMJEEE PG registration is provided below. 

Steps to register for SRMJEEE PG 2025 application form

The following steps have to be followed to fill the application procedure of SRMJEEE PG 2025. 

Step 1: Online Registration - Firstly, candidates will have to register online by entering the required details like name, contact details, city, and state, password and more.

SRMJEEE_PG_application_form

Step 2:- Filling up the application form - After successful registration, the application form needs to be filled by the candidates. Details such as personal details, academic details, etc have to be provided in the online application form. 

Step 3: Documents upload - The scanned images of the photograph and signature will have to be uploaded in the prescribed format.

Step 4: SRMJEEE PG application fee payment - The application fee can either be paid online by using a debit card/credit card or net banking.

Step 5: Application form submission - Once the fee payment is completed, candidates will have to submit the application form of SRMJEEE PG. In case a candidate pays the application fee in offline mode, then the candidate will have to take a print out of the form and send it along with the demand draft in favour of SRM university. 

Civil Engineering

 Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Civil Engineering

The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.

  • The candidate should have a degree of B.E / B.Tech. in Civil / Civil Infrastructure Engineering. / Architectural Engineering with a minimum aggregate of 50%

  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG.

  • The candidate should have a degree of B.E / B.Tech. in Civil / Civil Infrastructure Engineering. / Architectural Engineering with a minimum aggregate of 50%.


Mechanical Engineering

Candidates must note that it is mandatory to fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Mechanical Engineering before applying for the exam. The detailed eligibility criteria are given below:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Mechanical Engineering

  • The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Candidate should have a degree of B.E / B.Tech. in Mechanical Engineering with a minimum aggregate of 50%

  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Electrical Engineering

Candidates must ensure that they fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Electrical Engineering before applying for the exam. The detailed eligibility criteria are given below for reference:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Electrical Engineering

  • Candidate should have a degree of B.E / B.Tech. in Electrical Engineering or equivalent with a minimum aggregate of 50%
  • The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Electronics Engineering

Candidates must check the eligibility criteria given below to ensure that they fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Electronics Engineering before applying for the exam.

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Electrical Engineering

  • Candidate should have a degree of B.E / B.Tech. in Electronics Engineering or equivalent with a minimum aggregate of 50%
  • The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Instrumentation Engineering

Candidates must ensure that they fulfill the eligibility criteria off SRMJEEE 2024 for M.Tech Instrumentation Engineering before applying for the exam. The detailed eligibility criteria is given below for reference:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Instrumentation Engineering

  • Candidate should have a degree of B.E / B.Tech. in Instrumentation Engineering or equivalent with a minimum aggregate of 50%
  • The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Computer Science Engineering

Candidates must ensure that they fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Computer Science Engineering before applying for the exam. The detailed eligibility criteria are given below for reference:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Computer Science Engineering

  • Candidate should have a degree of B.E / B.Tech. in CSE / IT / SWE / ECE / EEE / EIE & ICE 
  • Candidates having a degree of MCA or M.Sc in CS / CST / IT / SW are also eligible to apply.
  • The candidate applying should be an Indian National. 
  • Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Chemical Engineering

It is mandatory to fulfill the eligibility criteria of SRMJEEE PG 2024 for M.Tech Chemical Engineering to apply for the programme. Candidates must refer to the eligibility criteria given below to ensure that they are eligible to apply.

Eligibility Criteria of SRMJEEE PG 2024 for M.Tech Computer Science Engineering

  • The candidate should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Candidates must have a degree of B.E / B.Tech. in Chemical Engineering / Electrochemical Engineering. / Petrochemical Engineering with a minimum aggregate of 50%.

Biotechnology

Candidates must ensure that they fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Biotechnology before applying for the exam. The detailed eligibility criteria are given below:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Biotechnology

  • The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Candidate should have a degree of B.E / B.Tech. in Chemical Engineering / Bio-Technology  / Bio-Chemical Engineering / Genetic Engineering / Bioinformatics / Biomedical Engineering / Biomedical & Instrumentation Engineering / Bioprocess Engineering/ Food  Process Engineering

  • Candidates having a degree of B.Pharm or M.Sc. in any branch  of Life Sciences / Biotechnology are also eligible to apply

  • Candidates should have scored a minimum aggregate of 50% in any of the courses mentioned above.

  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

GIS

Candidates are advised to check the eligibility criteria of M.Tech GIS for SRMJEEE PG 2024 to make sure that they are eligible to apply. The detailed eligibility criteria are given below:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech GIS

  • The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Candidate should have scored a minimum of 50% aggregate in B.E / B.Tech. in Civil / Civil Infrastructure / Architectural Engg. / Geo Informatics / CSE / ECE / EEE / IT / Agricultural Engg / Urban  & Regional Planning or B.Sc. (4 years) in Agriculture  / Forestry  / Horticulture / Geography or M.Sc. / M.A in Geology / Applied Geology / Geo Physics / Geography / Geo Informatics / Physics / Maths / Oceanography / Environmental Science

  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Environmental Engineering

Candidates must check the eligibility criteria given below to ensure that they fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Environmental Engineering before applying for the exam.

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Environmental Engineering

  • Candidate should have a degree of B.E / B.Tech. in Civil / Civil Infrastructure / Architecture  Engg. / Chemical / Biotechnology or equivalent with a minimum aggregate of 50%
  • Candidates having a degree of M.Sc in Environmental Science / Ecology / Environmental Ecology / Environmental Chemistry with at least a 50% aggregate are also eligible to apply.
  • The candidate applying should be an Indian National. Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Food Processing

Candidates must ensure that they fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Food Processing before applying for the exam. The detailed eligibility criteria are given below for reference:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Food Processing

  • Candidate should have a degree of B.E / B.Tech. Food  Process / Chemical / Biotechnology / Agricultural Engineering/ Food Processing and Preservation Technology/ Food Technology or equivalent with a minimum aggregate of 50%
  • The candidate applying should be an Indian National. 
  • Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Materials Science

Candidates must ensure that they fulfill the eligibility criteria of SRMJEEE 2024 for M.Tech Materials Science before applying for the exam. The detailed eligibility criteria are given below for reference:

Eligibility Criteria of SRMJEEE PG 2024 - M.Tech Materials Science

  •  Candidate should have a degree of B.E / B.Tech in Materials Science or equivalent with a minimum aggregate of 50%
  • The candidate applying should be an Indian National. 
  • Resident Indian, Non-Resident Indian (NRI), holder of PIO or OCI Card issued by Government of India will also be eligible for admissions.
  • Those candidates who have qualified TANCET or GATE examination will also be eligible for admissions on the basis of their secured scores with an exemption to appear in SRMJEEE PG

Biomedical Engineering

Candidates must have qualified 4-year Bachelor's degree in Engineering, M.Sc Degree (or) MBBS / BPT / BOT (or) its equivalent with a minimum aggregate of 50% marks from a recognised university.

Biomedical Engineering

Candidates must have qualified 4-year Bachelor's degree in Engineering, M.Sc Degree (or) MBBS / BPT / BOT (or) its equivalent with a minimum aggregate of 50% marks from a recognised university.

Biomedical Engineering

Candidates must have qualified 4-year Bachelor's degree in Engineering, M.Sc Degree (or) MBBS / BPT / BOT (or) its equivalent with a minimum aggregate of 50% marks from a recognised university.

SRMJEEE PG Sample/Question Papers

Candidates can download SRMJEEE PG Sample/Question Papers from here.

Free Download
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SRM University has released the SRMJEEE PG 2025 exam pattern in online mode on the official website. Candidates must check the SRMJEEE PG paper pattern to know the format of the question paper. The SRMJEEE PG exam pattern 2025 consists of the type of questions asked, the total number of questions asked, the marking scheme, exam duration and more. The following table is updated with the SRMJEEE PG 2025 exam pattern.

SRMJEEE PG Exam Pattern 2025

Particulars

Details

Exam Duration

2.5 hours

Mode of the exam

Online

Language

English

Total number of questions

100

Type of questions

Multiple-choice questions

Marking Scheme

1 mark will be rewarded for every correct answer. There is no negative marking for the wrong responses.

Mandatory Section

There will be ten questions from Mathematics which will be compulsory to attend except in Bio-Technology and Food Processing.

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SRMJEEE PG 2025 Syllabus

SRMJEEE PG Civil Engineering Syllabus

Structural engineering: Unit 01


Strength of materials, structural analysis and design
  • Bending moment and shear force in statically determinate beams, simple stress and strain relationship stress and strain in two dimensions, principal stresses, stress transformation, Mohr’s circle, simple bending theory, flexural and shear stresses
  • Unsymmetrical bending, shear centre, thin-walled pressure vessels, uniform torsion, buckling of column, combined and direct bending stresses, analysis of statically determinate trusses, arches, beams, cables and frames
  • Displacements in statically determinate structures and analysis of statically indeterminate structures by force/energy methods, analysis by displacement methods (slope deflection method and moment distribution method)
  • Influence lines for determinate and indeterminate structures, basic concepts of matrix methods of structural analysis, method of superposition

Structural engineering: Unit 02


Design of RC and steel elements
  • Concrete technology-properties of concrete, basics of mix design, concrete design-basic 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 prestressed concrete, analysis of beam and design of sections at transfer and service loads of elements, analysis and design of torsion and compression members, beams and bam columns
  • Column bases, connections simple and eccentric, beam-column connections, plate girders and trusses, plastic analysis of beams and frames

Geotechnical engineering: Unit 01


Geotechnical engineering
  • Origin of soils, soil classification, three-phase system, fundamental definitions, relationship and interrelationships, permeability and seepage, effective stress principle, consolidation, compaction, shear strength, index properties
  • Unified and Indian standard soil classification system, quicksand condition, Mohr’s circle, stress-strain characteristics of clays and sand-stress paths, subsurface investigation-scope, drilling bore holes, sampling, penetration tests, plate load test
  • Earth pressure theories, effect of water table, layered soils, stability of slopes-infinite slopes, finite slopes, foundation type foundation design requirements, shallow foundation bearing capacity, effect of shape, water table and other factors
  • Stress distribution, settlement analysis in sands and clays, deep foundations-pile types, dynamic and static formulae, load capacity of piles in sands and clays, negative skin friction, standard penetration and cone penetration tests, Rankine and Coulomb
  • Bishop’s method, Boussinesq’s theory, shallow foundations-Terzaghi’s and Meyerhof's bearing capacity theories, combined footing and raft foundation

Water resources engineering: Unit 01


Fluid mechanics and hydraulics
  • Properties of fluids, fluid statics, principle of conservation of mass, momentum, energy and corresponding equations, potential flow, applications of momentum and Bernoulli’s equation, laminar and turbulent flow, flow in pipes, pipe networks
  • Concept of boundary layer and its growth, uniform flow, critical flow and gradually varied flow in channels, specific energy concept, hydraulic jump, forces on immersed bodies, flow measurements in channels, tanks and pipes
  • Dimensional analysis and hydraulic modeling, kinematics of flow, velocity triangles and specific speed of pumps and turbines, concept of lift and drag

Water resources engineering: Unit 02


Hydrology and irrigation
  • Hydrologic cycle, rainfall, evaporation, infiltration, stage discharge relationships, unit hydrographs, flood estimation, reservoir capacity, reservoir and channel routing, well hydraulics
  • Irrigation design of lined and unlined canals, waterways, head works, gravity dams and spillways, design of weirs on permeable foundation, types of irrigation system-methods, water logging and drainage, cross drainage structure
  • Surface and groundwater resources-reservoir, capacity; channel routing; surface runoff models; surface water management; rainwater harvesting and storage. aquifers; vadose and saturated zones; types and their parameters-porosity, permeability
  • Transmissivity and storage coefficient; Darcy’s law and applications; steady state well hydraulics

Environmental engineering: Unit 01


Air and water pollution
  • Air pollution: Types, sources and impacts, air pollution meteorology, air pollution control, air quality standards and limits. global effects of air pollution – greenhouse gases, global warming, climate change, urban heat islands, acid rain, ozone hole
  • Water pollution: Ground and surface water pollution, soil contamination and leaching of contaminants into groundwater, pollution control, water quality, quality standards, basic unit processes and operations for water treatment. Drinking water standards
  • Water pollution: Surface water treatment, treatment of wastewater, sludge disposal, effluent discharge standards, quality of characteristics of domestic wastewater, primary and secondary treatment unit operations and unit processes of domestic wastewater
  • Water pollution: Sludge disposal

Environmental engineering: Unit 02


Waste management
  • Hazardous waste management: Municipal solid wastes-characteristics, generation, collection and transportation of solid wastes, engineered systems for solid waste management (reuse/ recycle, energy recovery
  • Treatment and disposal-management of biomedical waste, plastic waste and e-waste: Sources, generation and characteristics; waste management practices including storage, collection and transfer environmental law and policy-objectives
  • Polluter pays principle, precautionary principle; the water and air acts with amendments; The Environment (Protection) Act (EPA) 1986; National Green Tribunal Act, 2010; National Environment Policy
  • Principles of international law and international treaties

Transportation engineering: Unit 01


Transportation infrastructure
  • Geometric design of highways-cross-sectional elements, sight distances, horizontal and vertical alignments
  • Geometric design of railway track-speed and cant., concept of airport runway length, calculations and corrections; taxiway and exit taxiway design

Transportation engineering: Unit 02


Highway pavements and traffic engineering
  • Highway materials-desirable properties and tests; desirable properties of bituminous paving mixes; design factors for flexible and rigid pavements; design of flexible and rigid pavement using IRC codes
  • Traffic engineering: Traffic studies on flow and speed, peak hour factor, accident study, statistical analysis of traffic data; microscopic and macroscopic parameters of traffic flow, fundamental relationships; traffic signs
  • Traffic engineering: Signal design by Webster’s method; types of intersections; highway capacity

Geomatics engineering: Unit 01


Surveying and mapping
  • Principles-errors and their adjustment; maps-scale, coordinate system; distance and angle measurement-levelling and trigonometric levelling; traversing and triangulation survey; total station; horizontal and vertical curves
  • Mapping-importance to engineering projects, types-scales and uses, plotting accuracy, coordinate systems-map projections, Datum-MSL, geoid, spheroid, WGS-84
  • GPS-GNSS principle, components of GNSS, data collection methods, DGPS, errors in observations and corrections

Geomatics engineering: Unit 02


Remote sensing and GIS
  • Basics of aerial remote sensing
  • Types of aerial photographs, flying height and scale, relief (height) displacement, stereoscopy, 3D model, height determination using parallax bar, digital elevation model (DEM), slope
  • Satellite remote sensing-basic concepts, electromagnetic spectrum, spectral signature, resolutions-spectral, spatial, temporal and radiometric, platforms and sensors, remote sensing data products-PAN, multispectral, microwave, thermal, hyperspectral
  • Visual interpretation and digital image characteristics: Image processing
  • Geographical information system-data sources, data models and data structures, DBMS, spatial and non-spatial database generation, various spatial and non-spatial analysis
SRMJEEE PG Mechanical Engineering Syllabus

Mechanics and machine design: Unit 01


Mechanics and machine design
  • Trusses and frames; free body diagrams and equilibrium, virtual work; impulse and momentum (linear and angular), kinematics and dynamics of particles & of rigid bodies in plane motion and energy formulations, collisions
  • Design for static and dynamic loading, failure theories, fatigue strength and the s-n diagram, gears, shafts, rolling and sliding contact bearings, springs, brakes and clutches, principles of the design of machine elements like riveted
  • Bolted and welded joints

Material science and metallurgy: Unit 01


Material science and metallurgy
  • Constitution of alloys and phase diagrams, steels, cast iron, TTT diagram, heat treatment of ferrous and nonferrous metal, surface modification techniques, non-metallic materials, mechanical properties and testing
  • Crystal defects and strengthening mechanisms, conducting and semiconducting materials, magnetic and dielectric materials, engineering ceramics, engineering and commodity polymers

Thermodynamics: Unit 01


Thermodynamics
  • Basic concepts, zeroth, first and second laws of thermodynamics; thermodynamic system and processes; Carnot cycle. irreversibility and availability; behaviour of ideal and real gases, thermodynamic relations, properties of pure substances
  • Calculation of work and heat in ideal processes; analysis of thermodynamic cycles related to energy conversion, fuel and combustion

Refrigeration and air conditioning: Unit 01


Refrigeration and air conditioning
  • Vapor compression cycle effects of condenser and evaporator pressure on COP-multi-pressure system and low temperature refrigeration
  • Working principles of vapour absorption systems and adsorption cooling systems
  • Air conditioning loads: Outside and inside design conditions; heat transfer through structure, solar radiation, electrical appliances, infiltration and ventilation

Production technology: Unit 01


Production technology
  • Foundry technology, hot and cold working, metal forming processes, metal joining processes, welding metallurgy, welding defects, metal cutting, center lathe and special purpose lathe, drilling, milling, grinding, gear cutting
  • Broaching unconventional machining processes

Automotive engines: Unit 01


Automotive engines
  • Development in biofuels and hydrogen as engine fuels
  • Emission standards
  • Electronic injection systems methods of using all the fuels in SI and CI engines
  • Performance, emission and combustion behaviour of the fuels in SI and CI engines

Automotive transmission: Unit 01


Automotive transmission
  • Construction and operation of friction clutches
  • Different types of gear boxes
  • Fluid couplings and torque converters
  • Wilson gear box
  • Hydrostatic drive systems
  • Electric drive
  • continuously variable transmission (CVT) types of car bodies’ classification of bus bodies

Strength of materials: Unit 01


Strength of materials
  • Stress and strain, stress-strain relationship and elastic constants, Mohr’s circle for plane stress and plane strain, thin cylinders; shear force and bending moment diagrams; bending and shear stresses; deflection of beams
  • Thermal stresses; stress concentration factor; fatigue strength and S-N curve; failure theories

Metrology and measurements: Unit 01


Metrology and measurements
  • Linear and angular measurements, interferometry-laser interferometers-types, computer aided inspection, basic concept of CMM-types of CMM, machine vision, form measurement-straightness, flatness, roundness, surface finish measurement
  • Measurement of power, flow and temperature

Engineering materials, processing of plastics and computer aided manufacturing: Unit 01


Engineering materials, processing of plastics and computer aided manufacturing
  • Dual phase steels, high strength low alloy steel, transformation included plasticity steel, maraging steel, smart materials, WC, TiC, TaC, Al2O3, SiC, Si3N4, CBN, diamond-different types of polymer and plastic processing operations and engineering aspects
  • Axis measuring system-turn mill center-CNC, multi axis (5 and 6 axis) machines with live tools-manual part programming for CNC turning and machining centre

Product design, process planning and cost estimate, design of jigs and fixtures: Unit 01


Product design, process planning and cost estimate, design of jigs and fixtures
  • Integrating product and process design, manufacturing analysis and CAD/CAM integration, design methodology for automated manufacture-project coordination, sorting out the projects and work breakdown structure
  • Determination of material cost, labour cost-determination of labour cost, estimation in forging shop, estimation of machining time
  • Classification of jigs and fixtures, fundamental principles of design of jigs and fixtures

Operations research: Unit 01


Operations research
  • Graphical method-solutions to LPP using simplex algorithm-two phase method, Big M method, transportation problems: Northwest corner rule, least cost method, MODI method
  • Assignment problem, Hungarian algorithm, travelling salesman problem
  • PERT and CPM method in project estimation

Operations management: Unit 01


Operations management
  • Delphi techniques
  • Market research
  • Nominal group technique-moving average methods, exponential smoothing methods
  • Monitoring and control of forecasts
  • Procedure for developing MPS, MRP, lot sizing methods of MRP, tools for capacity planning, capacity requirement planning
  • Objectives and activities of production activity control, job shop control

Quality control reliability and maintenance: Unit 01


Quality control reliability and maintenance
  • Construction and application of X bar, R and S charts
  • Cp, Cpk and Cpm estimation
  • Time to failure distributions-probability plotting: Exponential, Weibull-goodness of fit tests, survival graphs
  • Reliability testing: Failure terminated test. Time terminated test. Upper and lower MTBFs
  • Sequential Testing. Reliability growth monitoring. Reliability allocation
SRMJEEE PG Electrical Engineering Syllabus

Electric circuits: Unit 01


Electric circuits
  • Network elements: Ideal voltage and current sources, dependent sources, R, L, C, M elements; network solution methods: KCL, KVL, Node and Mesh analysis; network theorems: Thevenin’s, Norton's, superposition and maximum power transfer theorem
  • Transient response of DC and AC networks, sinusoidal steady-state analysis, resonance, two port networks, balanced three phase circuits, star-delta transformation, complex power and power factor in AC circuits

Electromagnetic fields: Unit 01


Electromagnetic fields
  • Coulomb’s law, electric field intensity, electric flux density, Gauss’s law, divergence, electric field and potential due to point, line, plane and spherical charge distributions, effect of dielectric medium, capacitance of simple configurations
  • Biot-Savart’s law, Ampere’s law, Curl, Faraday’s law, Lorentz force, inductance, magnetomotive force, reluctance, magnetic circuits, self and mutual inductance of simple configurations

Signals and systems: Unit 01


Signals and systems
  • Representation of continuous and discrete time signals, shifting and scaling properties, linear time invariant and causal systems, Fourier series representation of continuous and discrete time periodic signals, sampling theorem
  • Applications of Fourier transform for continuous and discrete time signals, Laplace transform and Z transform. R.M.S. value, average value calculation for any general periodic waveform

Electrical machines: Unit 01


Electrical machines
  • Single phase transformer: Equivalent circuit, phasor diagram, open circuit and short circuit tests, regulation and efficiency; three-phase transformers: Connections, vector groups, parallel operation; auto-transformer
  • Electromechanical energy conversion principles; DC machines: Separately excited, series and shunt, motoring and generating mode of operation and their characteristics, speed control of DC motors
  • Three-phase induction machines: Principle of operation, types, performance, torque-speed characteristics, no-load and blocked-rotor tests, equivalent circuit, starting and speed control; operating principle of single-phase induction motors
  • Synchronous machines: Cylindrical and salient pole machines, performance and characteristics, regulation and parallel operation of generators, starting of synchronous motors; types of losses and efficiency calculations of electric machines

Power systems: Unit 01


Power systems
  • Basic concepts of electrical power generation, AC and DC transmission concepts, models and performance of transmission lines and cables, economic load dispatch (with and without considering transmission losses), series and shunt compensation
  • Electric field distribution and insulators, distribution systems, per-unit quantities, bus admittance matrix, Gauss-Seidel and Newton-Raphson load flow methods, voltage and frequency control, power factor correction, symmetrical components
  • Symmetrical and unsymmetrical fault analysis, principles of over-current, differential, directional and distance protection; circuit breakers, system stability concepts, equal area criterion

Control systems: Unit 01


Control systems
  • Mathematical modelling and representation of systems, feedback principle, transfer function, block diagrams and signal flow graphs, transient and steady-state analysis of linear time invariant systems
  • Stability analysis using Routh-Hurwitz and Nyquist criteria, bode plots, root loci, lag, lead and lead-lag compensators; P, PI and PID controllers; state space model, solution of state equations of LTI systems

Electrical and electronic measurements: Unit 01


Electrical and electronic measurements
  • Bridges and potentiometers, measurement of voltage, current, power, energy and power factor; instrument transformers, digital voltmeters and multimeters, phase, time and frequency measurement; oscilloscopes, error analysis

Analog and digital electronics: Unit 01


Analog and digital electronics
  • Simple diode circuits: Clipping, clamping, rectifiers; amplifiers: biasing, equivalent circuit and frequency response; oscillators and feedback amplifiers; operational amplifiers: Characteristics and applications; single stage active filters
  • Active filters: Butterworth, VCOs and timers, combinatorial and sequential logic circuits, multiplexers, demultiplexers, Schmitt triggers, sample and hold circuits, A/D and D/A converters

Power electronics: Unit 01


Power electronics
  • Static V-I characteristics and firing/ gating circuits for thyristor, MOSFET, IGBT; DC to DC conversion: Buck, boost and buck-boost converters; single and three-phase configuration of uncontrolled rectifiers
  • Voltage and current commutated thyristor based converters; bidirectional AC to DC voltage source converters; magnitude and phase of line current harmonics for uncontrolled and thyristor based converters
  • Power factor and distortion factor of AC to DC converters; single-phase and three-phase voltage and current source inverters, sinusoidal pulse width modulation
SRMJEEE PG Electronics Engineering Syllabus

Networks: Unit 01


Networks
  • Circuit elements, nodal and mesh analysis-networks theorems: Thevenin, norton’s, superposition, maximum power transfer resonance, coupled circuits, AC steady state and transient analysis

Electronic devices: Unit 01


Electronic devices
  • Energy bands in intrinsic and extrinsic semiconductors, charge carriers in semiconductors-semiconductor junctions, semiconductor diodes and its types-transistors, FET, SCR, IGBT, DIAC, TRIAC, UJT, power supplies

Analog and digital circuits: Unit 01


Analog and digital circuits
  • Biasing methods and small signal models-transistor amplifier and analysis
  • Op-amp circuits: Amplifiers, summers, differentiators, integrators, active filters, Schmitt triggers, and oscillators
  • Boolean algebra, logic gates, logic families, sequential and combinational circuits-comparators, timers, multivibrators, sample and hold circuits
  • ADC and DAC

Digital electronics: Unit 01


Digital electronics
  • Logic families-TTL, MOS, CMOS; flip flop and timing circuits-set-reset laches, D-flipflop, R-S flip-flop, J-K Flipflop, master slave flip flop, edge triggered flip-flop, T flip-flop: Registers and counters-synchronous/ asynchronous counter operation
  • Up/down synchronous counter, application of counter, serial in/serial out shift register, parallel in/ parallel out shift register, bi-directional register

Microprocessor and microcontroller: Unit 01


Microprocessor and Microcontroller
  • Intel 8085 microprocessor, Intel 8086/8088 microprocessor, Intel 8031/8051 microcontroller, programmable interfacing devices-applications

Analog and digital communication: Unit 01


Analog and digital communication
  • Analog modulation and demodulation-AM, FM and PM, random signals, noise, noise temperature and noise figure, concepts of information theory, error detection and correction
  • Digital modulation and demodulation-PCM, ASK, FSK, PSK, BPSK, QPSK and QAM, TDM, FDM, multiple access techniques, optical communication-optical sources and detectors, optical fibers-attenuation and dispersion characteristics

Control systems: Unit 01


Control systems
  • Open loop and closed loop control system, block Diagram reduction techniques, transfer function and signal flow diagram, frequency response and system analysis: Bode plot, polar plot, Nyquist plot
  • Stability criterion: Routh-Hurwitz, Root Locus and Nyquist stability, On-off controller, proportional (P), proportional-integral (PI), proportional-derivative (PD), PID controllers

Signals and systems: Unit 01


Signals and systems
  • Signals and classifications, systems and classifications, continuous time signal analysis-Fourier series, Fourier transform and properties, Laplace transform and properties, discrete time signal analysis-DTFT and properties, Z-transform and properties
  • Linear time invariant continuous and discrete systems-series and parallel

Electromagnetics: Unit 01


Electromagnetics
  • Elements of vector calculus (gradient, divergence and curl), Gauss and Stokes theorem, Maxwell equations and uniform plane waves: Wave propagation in dielectrics and conductors, skin effect, normal incidence. transmission lines, Smith chart
  • Impedance matching, transients and pulse propagation on transmission line
  • Rectangular and circular waveguides, light propagation in optical fibres, dipole and monopole antennas, linear antenna arrays
SRMJEEE PG Instrumentation Engineering Syllabus

Networks: Unit 01


Networks
  • Circuit elements, laws and theorems, resonance, coupled circuits, AC steady state and transient analysis

Devices: Unit 01


Devices
  • Energy bands, charge carriers in semiconductors, semiconductor junctions, semiconductor diodes and its types, transistors, FET, SCR, IGBT, DIAC, TRIAC, UJT, power supplies

Electronic circuits: Unit 01


Electronic circuits
  • Biasing methods and small signal models, transistor amplifier and analysis, feedback amplifiers and oscillators, large signal and tuned amplifiers, frequency response and wave shaping circuits

Digital: Unit 01


Digital
  • Number systems, Boolean algebra, logic gates, logic families, gate level minimization and combinational logic, synchronous and asynchronous sequential logic, memory

Microprocessor: Unit 01


Microprocessor
  • Intel 8085 microprocessor, Intel 8086/8088 microprocessor, Intel 8031/8051 microcontroller, programmable interfacing devices, applications

Control system: Unit 01


Control system
  • Transfer function, mathematical modeling, block diagram reduction, control system components, transient and steady-state analysis, stability analysis, frequency domain analysis

Transducers and industrial instrumentation: Unit 01


Transducers and industrial instrumentation
  • Basic methods of measurement, mathematical model of transducer, strain gauges, resistance strain gauge, inductive sensor, capacitive transducers, Hall effect transducer, digital transducers, flow meters, piezoresistive pressure sensor
  • Resonator pressure sensor, thermocouples, accelerometers, solid level measurement, RTD-types of RTDs, bolometers, density measurement

Biomedical instrumentation: Unit 01


Biomedical instrumentation
  • ECG-EMG-EEG-EOG measurement, measurement of blood pH, pCO2, pO2, bio-potential electrodes, blood flow measurement, endoscopy, X-ray, MRI, micro and macro shock hazards

Electrical and electronic measurements and instrumentation: Unit 01


Electrical and electronic measurements and instrumentation
  • Galvanometer and its applications, PMMC instruments, Power measurement, AC & DC bridges, Schering’s bridge, Wien’s bridge, resistance measurement-Megger, Digital Storage Oscilloscope (DSO), AC & DC potentiometers, instrument transformers
  • Digital frequency meter & digital voltmeter, spectrum analyzers, calibration of practical instruments

Process control: Unit 01


Process control
  • Process variables and dynamics, PI, PD, PID control, pneumatic actuators, electric actuators, electronic valve positioner, control valves, damped oscillation method, Z-N open loop tuning technique, continuous cycling method, multi-loop control schemes
  • Model predictive control, internal model control (IMC), adaptive control
SRMJEEE PG Computer Science Engineering Syllabus

Programming methodology & software engineering: Unit 01


General concepts
  • Modular approach, clarity and simplicity of expressions, use of proper names for identifiers, comments, indentation; running and debugging programs, syntax errors, run, time errors, logical errors

Programming methodology & software engineering: Unit 02


Problem solving methodologies
  • Understanding and solution for the problem, writing code to optimizing execution time and memory storage, breaking down solution into simple steps, control structure, conditional control and looping
  • Software life, cycle models, software requirements specification, object oriented design, UML, design patterns, user interface design, coding and unit testing, integration and systems testing, debugging techniques

Data structure and algorithm: Unit 01


Data structure and algorithm
  • Arrays, sparse matrix, linked list, queue , priority and circular queues, stack, applications of stack, tree, traversal techniques of tree, binary search trees, expression trees, AVL trees, minimum spanning trees, shortest path algorithms
  • Recurrence relations, sorting and searching algorithm analysis, analysis of algorithms based on greedy, dynamic, backtracking and branch and bound techniques, knapsack using greedy, dynamic and branch and bound techniques, randomized quick sort, hashing

Database systems: Unit 01


Data structure and algorithm
  • P, NP, NP, complete and NP, hard

Database systems: Unit 02


Introduction
  • : Database, Data Management System, Data models: ER, Relational Hierarchical, Functional components of DBMS, Data abstraction

Database systems: Unit 03


ER Design
  • Attributes, entity, relationship, weak entity, specialization, generalization aggregation, conversion rules from ER to tables, design issues

Database systems: Unit 04


SQL
  • Basic SQL commands, DDL, DML, DCL, built in functions, joins, subqueries: Single row and multiple row subqueries, PL/SQL, Triggers

Database systems: Unit 05


Normalization
  • Functional dependencies, Types: 1,2,3 and BCNF, fourth and fifth normal forms, closure set of attributes, canonical cover

Database systems: Unit 06


Transaction and recovery
  • Transaction properties, states of transaction, concurrency control techniques: Lock based techniques, time based protocols, recovery mechanism: Log based recovery, shadow paging techniques, check points

Operating system: Unit 01


Operating system
  • Process, threads, inter process communication, process synchronization, coy scheduling, deadlocks, memory management, paging, segmentation, virtual memory, demand paging, page fault, page replacement algorithms, thrashing, working set model
  • Disc scheduling, files and directories

Computer networks: Unit 01


Computer networks
  • OSI model, data transmission models, topologies, IPV4, IPV6, classful and classless addressing, subnetting, supernetting, RIPv1 and RIPv2, framing and flow control, CSMA, CSMA/CD, interdomain and intra, domain routing
  • NAT, BGP, ICMP, IGMP, ARP, RARP, TCP, UDP, SCTP, DNS TelNet, full duplex, half duplex, FTP, TFTP, HTTP, DHCP, HTTP, SMTP, POP3, auto configuration, renumbering, tunnelling, atm communication using HDLC, PPP services

Computer architecture and organization: Unit 01


Computer architecture and organization
  • Boolean algebra
  • Combinational and sequential circuits
  • Minimization
  • Number representations and computer arithmetic (fixed and floating point)
  • Machine instructions and addressing modes
  • ALU, data-path and control unit
  • Instruction pipelining, pipeline hazards
  • Memory hierarchy: Cache, main memory and secondary storage; I/O interface (interrupt and DMA mode)
SRMJEEE PG Chemical Engineering Syllabus

Process calculations: Unit 01


Process calculations
  • Unit and standards, material balance calculation, energy balance calculations, saturation and humidity, and combustion calculations

Fluid mechanics: Unit 01


Fluid mechanics
  • Fluid statics, fluid flow, flow meters, transportation of fluids, flow past immersed bodies

Mechanical operations: Unit 01


Mechanical operations
  • Size analysis, size reduction, size separation, filtration, and agitation

Thermodynamics: Unit 01


Thermodynamics
  • Energy and its transformation, reversible and irreversible processes, first law of thermodynamics, pvt relationship, second law of thermodynamics, refrigeration, thermodynamics relations, flow processes, solution thermodynamics, phase equilibrium
  • Reaction equilibrium

Heat transfer: Unit 01


Heat transfer
  • Conduction, convection, boiling, condensation, heat exchangers, evaporation, and radiation

Mass transfer: Unit 01


Mass transfer
  • Diffusion, convective mass transfer, gas-liquid contractors, tray efficiencies, absorption, distillation, and drying

Reaction engineering: Unit 01


Reaction engineering
  • Reaction kinetics, design of reactors, non-isothermal reactors, heterogeneous reactions, catalytic reactions

Process control: Unit 01


Process control
  • Laplace transforms, qualitative response of system, open-loop response of dynamics systems, dynamics of controllers, stability analysis of feedback systems

Process economics and design: Unit 01


Process economics and design
  • Cost estimation, depreciation, interest and investment costs, mechanical design of process equipment

Chemical technology: Unit 01


Chemical technology
  • Construction material for the process industries, safety tips, water conditioning, fuel gases, sulfuric acid, chlor-alkali industries, petroleum processing, and fertilizers
SRMJEEE PG Biotechnology Syllabus

Biotechnology: Unit 01


Cell structure, function
  • Eukaryotic vs prokaryotic cell; structure and function- plasma membrane, cell wall; cytoplasm, nucleus & nucleolus, endoplasmic reticulum, Golgi apparatus, ribosomes, mitochondria, chloroplast, lysosome, microbodies, vacuoles
  • Extracellular matrix & cell junction; cytoskeleton; flagella & cilia; plant vs animal cell

Biotechnology: Unit 02


Properties of nucleic acids, protein synthesis
  • Nucleic acids, DNA & RNA-types, structure, physical & chemical properties, and replication; transcription and post-transcriptional modifications in prokaryotes & eukaryotes; translation and post-translational modification in prokaryotes & eukaryotes
  • Protein folding, sorting and transport; protein degradation

Biotechnology: Unit 03


Gene manipulation, transgenic microbes
  • Vector systems; promoters, terminators, and regulatory elements; selectable markers and reporter genes; gene transfer methods; selection of recombinants; transgenic microbes- gems in bioremediation; bioterrorism; healthcare; industry; agriculture
  • Concern and safety measures

Biotechnology: Unit 04


Plants and animals
  • Plant-classification; transport of minerals and water; transpiration; photorespiration; plant nutrition & photosynthesis; plant hormones; photo morphogenesis and vernalization; seed physiology; nitrogen metabolism
  • Animals-classification; nervous system; sense organs; blood vascular system; endocrine system; lymphatic system; respiratory system; digestive system; excretory system and reproductive system.

Biotechnology: Unit 05


Metabolism and bio-energetic
  • Food and fuel; metabolic pathways with oxidation-reduction reactions; free energy changes in metabolic reactions; glucose, glycogen, and their metabolic regulation; nitrogen-amino acid and fatty acid metabolism; photosynthesis in plants
  • Biosynthesis of amino acids, lipids, and nucleotides

Biotechnology: Unit 06


Gene regulation
  • Overview of the regulation of gene expression; prokaryotic gene regulation; eukaryotic gene regulation; nucleic acid replication, transcription, translation, and their regulatory mechanisms in prokaryotes and eukaryotes; epigenetic, transcriptional
  • Post-transcriptional, translational, posttranslational control of gene expression; mechanism of alternative splicing and its regulation

Biotechnology: Unit 07


Enzyme kinetics, fermentation process, production of commercially important enzymes
  • Classification of enzymes; mechanism of enzyme action; kinetics of single substrate reactions; estimation of Michaelis-Menten parameters, multi-substrate reactions- mechanisms and kinetics; turnover number; types of inhibition & models-substrate & product
  • Allosteric regulation of enzymes and Monod Changeux Wyman model; effects of pH and temperature on enzyme action & deactivation kinetics
  • Industrial production of enzymes; application of enzymes in food processing, pharmaceutical, and textile industries

Biotechnology: Unit 08


Recombinant proteins
  • Protein production and characterization; recombinant protein expression in bacteria; restriction and modification enzymes; chromatography method used in protein purification; sequencing, blotting, electrophoresis and labelling
  • Therapeutic recombinant proteins production in bacteria and plants; applications of recombinant proteins

Biotechnology: Unit 09


Microbial growth kinetics
  • Modes of microbial cell division; cell cycle and its phases; kinetic studies on cell growth; Monod equation and its importance; Michaelis-Menten equation; Lineweaver-Burk plot
  • Hybrid logistic-Monod and Luedeking-Piret equation; factors affecting cell growth; environmental influence on microbial growth

Biotechnology: Unit 10


Biosafety, bioethics and intellectual property rights
  • Biosafety-levels of biosafety, risk factors and types, and mechanism of handling. biosafety considerations for large-scale production of microorganisms; ethical issues in food, agricultural and animal biotechnology
  • Bioethics and intellectual property; types of intellectual property; patents; scope and nature of patenting; purpose and advantages of patent laws; industrial designs, trademarks, trade secret, geographical indications and copyrights
  • Publishing vs patenting

Biotechnology: Unit 11


Bio conversion
  • Biomass sources and classification; biomass property for conversion process; biomass conversion processes (biological, thermal, chemical and hybrid conversions); various types of biofuels and organic commodity chemicals from biomass; algae biorefineries
  • Integrated biorefinery process and products; life cycle assessment; techno-economic evaluation

Biotechnology: Unit 12


Fermentation kinetics, bioreactors
  • Chemical engineering principles applied to biological system; principle of reactor design; ideal and non-idea multiphase bioreactors; mass and heat transfer; rheology of fermentation fluids; aeration and agitation; media formulation and optimization
  • Kinetics of microbial growth, substrate utilization and product formation; sterilization of liquid media and air and kinetics; batch, fed-batch and continuous processes; various types of microbial and enzyme reactors
  • Instrumentation control and optimization; unit operations in solid-liquid separation and liquid-liquid extraction; process scale up, economics and feasibility analysis

Biotechnology: Unit 13


Genomics and proteomics
  • Introduction to structural organization of genome in prokaryotes and eukaryotes; DNA sequencing principles and translation to large scale projects; tools for genome analysis; genome sequencing projects of microbes, plants and animals
  • Protein analysis (includes measurement of concentration, amino acid composition, N-terminal sequencing); peptide fingerprinting; characterization and identification of proteome using mass spectrometry
  • MALDI-TOF, tandem mass spectrometry; protein sequencing by Edman degradation and analysis); pharmacogenetics high throughput screening in the genome for drug discovery identification of gene targets
  • Functional genomics and proteomics analysis of microarray data (protein and peptide microarray based technology; PCR-directed protein in situ arrays; structural proteomics)

Biotechnology: Unit 14


Computer application in biotechnology
  • Major bioinformatic resources and search tools; sequence and structure database; sequence analysis (bio molecular sequence file formats, scoring matrices, sequence alignment, phylogeny); data mining and analytical tools for genomic and proteomic studies
  • Molecular dynamics and simulations (basic concepts including force fields, protein-protein, protein-nucleic acid, protein-ligand interaction)

Biotechnology: Unit 15


Nano biotechnology
  • Functional principles of nanobiotechnology; self-assembling nanostructures; protein and peptide-based nanostructures-S-layers-chemistry and structure; DNA-based nanostructures, DNA-protein nanostructures; basic characterization techniques
  • Pharmaceutically important nanomaterial, drug nanoparticles

Biotechnology: Unit 16


Application of biotechnology system biotechnology
  • Introduction and basic concepts in biological systems; system microbiology and developmental systems biology; genotype-phenotype mapping; enzyme kinetics and noise in gene expression; gene expression networks; optimality and robustness
  • Tools for system biology; next generation sequencing (NGS) and its applications; metabolic networks and flux analysis
SRMJEEE PG GIS Syllabus

Geographic information system: Unit 01


Remote sensing: Physics of remote sensing

    Geographic information system: Unit 02


    Photogrammetry: Photogrammetry

      Geographic information system: Unit 03


      Surveying: Surveying techniques

        Geographic information system: Unit 04


        Electronic surveying

          Geographic information system: Unit 05


          GIS: Terminology

            Geographic information system: Unit 06


            Geology: Geological remote sensing

              Geographic information system: Unit 07


              Agriculture and forestry

                Geographic information system: Unit 08


                Environment and disaster studies: EIA

                  Geographic information system: Unit 09


                  Urban and regional planning: Urban planning
                    SRMJEEE PG Environmental Engineering Syllabus

                    Environmental: Unit 01


                    Environmental pollution

                      Environmental: Unit 02


                      Environmental biotechnology

                        Environmental: Unit 03


                        Thermodynamics

                          Environmental: Unit 04


                          Ecology

                            Environmental: Unit 05


                            Environmental conservation

                              Environmental: Unit 06


                              Water resources

                                Environmental: Unit 08


                                Remote sensing

                                  Environmental: Unit 09


                                  Energy and environmental

                                    Environmental: Unit 10


                                    Environmental impact assessment

                                      Environmental: Unit 13


                                      Natural hazards
                                        SRMJEEE PG Food Processing Syllabus

                                        Bioprocess engineering: Unit 01


                                        Bioprocess engineering
                                        • Properties of vapors and gases
                                        • Energy balances/conservation of energy; entropy; ideal gas mixtures and psychometrics
                                        • Steady-state heat transfer; one-dimensional heat conduction; heat transfer through a composite wall; conduction, forced convection; overall heat transfer coefficient; heat exchangers; radiation heat transfer
                                        • Basic bioprocess engineering and reactor concepts; stoichiometry, mass and energy balances; fluid flow and mixing in bioreactors; heat transfer in bioprocesses; mass transfer in bioprocess; reaction and cell growth kinetics
                                        • Downstream processing unit operations
                                        • Process instrumentation

                                        Food engineering: Unit 01


                                        Food engineering
                                        • Dimensions and units, evaporation, crystallization, distillation, mechanical separations, size reduction and mixing, properties of food, blanching, pasteurization, sterilization, extrusion, aseptic processing, drying, material handling
                                        • Dairy plant engineering, cereal processing, fat and oil processing, sugar cane processing, food preservation, storage, non-thermal food processing, bakery and confectionary, meat and poultry processing, food safety and waste management
                                        • Food packaging technology

                                        Biochemistry and nutrition: Unit 01


                                        Biochemistry and nutrition
                                        • Enzymes, coenzymes, cofactors, elements of carbohydrates, fat and protein metabolism, elements of photosynthesis, food requirements, vitamins and their functions in the body, minerals and their functions in body
                                        • Elements in protein biosynthesis-nucleic acids and their importance

                                        Microbiology: Unit 01


                                        Microbiology
                                        • Microorganism, isolation of microorganism, identification, stains and staining techniques, growth, nutrition and physiology of microorganism, diseases and control, microbial genetics, microbial spoilage in food, beneficial microorganism
                                        • Probiotic and prebiotic
                                        • Fermentation-process, types, design, fermented food products
                                        • Enzymes-production, primary and secondary metabolites, application in food industry
                                        SRMJEEE PG Materials Science Syllabus

                                        Quantum mechanics, atomics and molecular physics: Unit 01


                                        Quantum mechanics, atomics and molecular physics
                                        • Black body radiation, photoelectric effect, wave-particle duality of radiation, De-Broglie hypothesis of matter waves, Heisenberg’s uncertainty principle, Schrödinger’s wave equation, physical interpretation of wave function-eigenvalues and eigenfunctions
                                        • Particle in a box, simple harmonic oscillator, motion in a central potential, orbital angular momentum, particle in a square-well potential, potential barrier, spectra of one and many electron atoms, LS and JJ coupling-fine structure
                                        • Spectroscopic terms and selection rules, hyperfine structure, exchange symmetry of wave function, Pauli's exclusion principle, Zeeman and Stark effects, X-ray, Auger transitions, Compton effect-basic principles
                                        • Rotational and vibrational spectra of diatomic molecules, electronic transition in diatomic molecules, Franck-Condon principle, Raman effect, NMR, ESR, nuclear properties and forces, radioactivity-alpha, beta and gamma radiation

                                        Solid state physics: Unit 01


                                        Solid state physics
                                        • Crystal structure, Bravais lattices and its basis, miller indices, crystal symmetry, point group and space group elements, crystal diffraction and reciprocal lattice, elementary ideas about point defects and dislocations (edge and screw)
                                        • Physical properties of materials, lattice vibrations, phonons, specific heat of solids, thermal and electrical conductivity, di-electrics behavior, polarization mechanisms, Clausius-Mossotti equation, piezo, pyro and ferroelectricity
                                        • Free electron theory of metals, Fermi energy and density of states, energy levels in one dimension, Fermi-Dirac distribution, effect of temperature on the Fermi-Dirac distribution, free electron gas in three dimension-origin of energy bands
                                        • Elements of band theory, electrons motion in periodic potential, concept of holes and effective mass, Hall effect, different types of materials: Metals, semiconductors, composite materials, ceramics, alloys, polymers

                                        Lasers: Unit 01


                                        Lasers
                                        • Basic principle of laser, threshold condition, Einstein coefficients, condition for light amplification, line shape function, optical resonators, CW operation of laser; critical pumping rate
                                        • Population inversion and photon number in the cavity around threshold; output coupling of laser power, optical resonators, cavity modes, three level and four level systems
                                        • Solid state lasers, Ruby and Nd-YAG laser, gas lasers, He-Ne and Co2 lasers, semiconductor lasers, heterojunction lasers, liquid dye lasers, Q switching and mode locking
                                        • Application of laser in industry, medical applications, holography, theory of recording and reconstruction, application of holography

                                        Electricity and magnetism: Unit 01


                                        Electricity and magnetism
                                        • Electrostatics; Coulomb’s law, Gauss’s law and its applications, Laplace and Poisson equations, boundary conditions conductors, capacitors, dielectrics, dielectric polarization, volume and surface charges, electrostatic energy, magnetostatics
                                        • Biot‐Savart law, Ampere’s law, Faraday’s law of electromagnetic induction, Maxwell’s equations and static and time varying equations, Poynting theorem, Lorentz force and motion of charged particles in electric and magnetic fields
                                        • Energy and momentum of electromagnetic waves, radiation from a moving charge
                                        • Electromagnetic waves in free space, dielectrics, and conductors, reflection and refraction, polarization, Fresnel’s law, interference, coherence, and diffraction, dia, para and ferromagnetism, Langevin’s theory of paramagnetism

                                        Thermodynamics: Unit 01


                                        Thermodynamics
                                        • Thermodynamic system, path and process, zeroth law of thermodynamics, concept of temperature, first law of thermodynamics, isothermal and adiabatic processes, second law of thermodynamics, reversible and irreversible processes, Carnot's engine
                                        • Thermodynamic substance of pure substances, kinetic theory of gases, law of equipartition energy, ideal and real gases, equation of state, thermodynamic relation, Tds relation, Maxwell’s equation, phase transitions, Gibbs phase rule
                                        • Van’t Hoff's equation

                                        Material chemistry: Unit 01


                                        Material chemistry
                                        • Atomic structure, Bohr’s theory, exclusion principle, Hund’s rule, Aufbau principle, periodic law and arrangement of elements, bonding structure, ionic, covalent, metallic, weak bonds, acids and bases, chemical periodicity
                                        • Structure and bonding in homo- and heteronuclear molecules (VSEPR theory), allotropes of carbon: Graphite, diamond, C60. synthesis and reactivity of inorganic polymers of SI and P, hydrocarbons, IUPAC nomenclature, hybridization
                                        • Aromaticity, Huckel’s rule, tautomerism, stereochemistry, electrochemistry, electrochemical cells; standard electrode potentials: Applications, corrosion and energy conversion

                                        Biology and health sciences: Unit 01


                                        Biology and health sciences
                                        • Anatomy: Cardiovascular system, respiratory system, excretory system
                                        • Physiology: Chemical composition of the body, neurons & membrane potentials
                                        • Basic cell biology: Cell components, cell membrane structure, DNA structure
                                        • Genetics: DNA replication, transcription and translation, bacteriology: Bacterial cell-structure and function
                                        • Virology: Bacteriophage, microbes-types
                                        • Common infectious diseases: Hepatitis, malaria, HIV/ AIDS
                                        • Cancers: Types and classification
                                        • Biochemistry: Amino acids, carbohydrates, lipids
                                        • Immunology: Components and response to foreign body

                                        Electronics: Unit 01


                                        Electronics
                                        • Semiconductors: Intrinsic and extrinsic semiconductors, Fermi level, P-N junction diodes, bipolar junction transistors and its applications, field effect transistors, JFET, MOSFET, MESFET, MOSFET and CCD: Various structures and their functioning
                                        • I-V characteristic studies and applications, transistor circuits in CE, CB, CC modes, amplifier circuits with transistors, operational amplifier and its applications: Inverting, non-inverting, adder, sub tractor, differentiator, waveform generator
                                        • Comparator, filters (LPF, BPF, HPF), Schmitt trigger, the 555 timer-gates, flip flops, switches, registers, counters, multivibrators, principles of A/D and D/A converters, applications of A/D and D/A converters, regulators

                                        Microelectronic and microsystem technology: Unit 01


                                        Microelectronic and microsystem technology
                                        • Silicon-semiconductor technology, wafer processing, oxidation, epitaxial, deposition, photo lithography, ion implantation and diffusion, n-well CMOS process, p-well CMOS process, twin tub CMOS process and silicon on insulator, microsystems
                                        • MEMS/NEMS fundamentals, fabrication techniques mems materials, bulk micromachining , surface micromachining, applications of MEMS/NEMS-sensors and transducers: Mechanical, chemical, biological, thermal, light and magnetic transducers
                                        SRMJEEE PG Biomedical Engineering Syllabus

                                        Electrical Circuits: Unit 01


                                        Electrical circuits
                                        • Circuit elements, laws and theorems, resonance and coupled circuits

                                        Signals and systems: Unit 01


                                        Signals and systems
                                        • Continuous and discrete signal and systems, sampling theorem, Laplace and Fourier transforms, transfer function, convolution, correlation, impulse response, frequency response, basics of f IIR and FIR filters

                                        Electronic devices and circuits: Unit 01


                                        Electronic devices and circuits
                                        • Characteristics and applications of diode, BJT and MOSFET, characteristics and applications of operational amplifiers, logic circuits, principles of ADC and DAC, microprocessor-architecture, interfacing memory and input-output devices

                                        Sensors and measurements: Unit 01


                                        Sensors and measurements
                                        • Sensors-resistive, capacitive, inductive, piezoelectric, Hall effect, electro chemical, optical; signal conditioning circuits

                                        Human anatomy and physiology: Unit 01


                                        Human anatomy and physiology
                                        • Homeostasis; basics of organ systems-musculoskeletal, respiratory, circulatory, excretory, endocrine, nervous, gastro-intestinal and reproductive

                                        Biomaterials: Unit 01


                                        Biomaterials
                                        • Properties of biomaterials, fundamental characteristics of implants, biomaterial characterization techniques

                                        Biomechanics: Unit 01


                                        Biomechanics
                                        • Kinematics of muscles and joints-forces and stresses in joints, hard and soft tissue mechanics

                                        Medical imaging techniques: Unit 01


                                        Medical imaging techniques
                                        • Instrumentation and image formation techniques in medical imaging modalities such as X-ray, computed tomography, magnetic resonance imaging, ultrasound

                                        Biomedical instrumentation: Unit 01


                                        Biomedical instrumentation
                                        • Principles of measuring blood pressure, body temperature, respiratory measurements and cardiac output measurement, operating principle of medical equipment-sphygmomanometer, ventilator, cardiac pacemaker, defibrillator, pulse oximeter, hemodialyzer

                                        Control system: Unit 01


                                        Control system
                                        • Transfer function, mathematical modeling, block diagram reduction, control system components, transient and steady state analysis, stability analysis, frequency domain analysis

                                        The exam authorities release the SRMJEEE PG mock test in online mode on the official website, srmist.edu.in. SRMJEEE PG mock tests must be practised to self-evaluate the preparation level and have a quick revision of the topics which have been covered. Solving previous year question papers and sample papers along with the mock tests gives a clear idea about the questions which have a high frequency of occurring in the examination.

                                        The authority will issue the SRMJEEE PG 2025 admit card online. Candidates will have to use their application number and date of birth to download the SRMJEEE PG admit card. The admit card for SRMJEEE PG 2025 will contain he candidate's details, exam timings, the login ID and password for the remote proctored test and the guidelines. Candidates are advised to carefully check the details mentioned on the SRMJEEE PG hall ticket and contact the authorities in case of any incorrect information.

                                        How to download the SRMJEEE PG hall ticket 2025? 

                                        Candidates can follow the steps below to download the hall ticket of SRMJEEE PG 2025 -

                                        • Go to the SRMJEEE PG official website- srmist.edu.in
                                        • Click on the SRMJEEE PG hall ticket link available on the home page.
                                        • Enter the application number and Date of birth in the required field.
                                        • SRMJEEE PG 2025 hall ticket will appear on the display.
                                        • Preview and then download the SRMJEEE PG hall ticket and take a printout of the same.

                                        SRMJEEE 2025 admit card- Details mentioned

                                        The following details will be mentioned in the SRMJEEE hall ticket 2025:

                                        • Name of the candidate
                                        • Personal details
                                        • Exam name and subject name
                                        • photograph
                                        • name and address of the exam centre
                                        • date and timings of the exam.

                                        SRM Institute of Science and Technology will conduct the SRMJEEE PG 2025 slot booking in online mode. Candidates will have to complete the SRMJEEE PG slot booking before downloading the admit card. Through the SRMJEEE PG slot booking 2025, candidates can book their preferred time slots to take the test. The authority will announce the SRMJEEE PG slot booking dates online. Candidates can check the steps for SRMJEEE PG slot booking below. 

                                        SRMJEEE PG slot booking steps:

                                        • Visit SRMJEEE official website - srmist.edu.in
                                        • Click on the SRMJEEE PG slot booking 2025 link 
                                        • Enter the application number and date of birth in the required fields.
                                        • The centres and timings along with the online test dates will be displayed on the screen.
                                        • Select the preferred slot and centre according to your preference and availability. 
                                        • Finally, click on the confirm button to book a slot.

                                        SRMIST will release the result of SRMJEEE PG 2025 in online mode at the official website, srmist.edu.in. Candidates can check the marks secured and their rank with the help of the result of SRMJEEE PG 2025. Those candidates who will be declared qualified as per the SRMJEEE PG results 2025 will be considered for the counselling process. 

                                        How to download SRMJEEE PG 2025 Result? 

                                        Candidates have to follow the below-mentioned steps to download SRMJEEE 2025 PG rank card: 

                                        • Visit the SRMJEEE official website - srmist.edu.in
                                        • Click on SRMJEEE PG 2025 result download link
                                        • Enter their application number, date of birth, and the programme applied for.
                                        • The result of SRMJEEE PG 2025 will be displayed on the screen.
                                        • Download the SRMJEEE PG result and take a printout for future reference.

                                        The SRM Institute of Science and Technology will release the SRMJEEE PG 2025 cut off on its official website. The cutoff for SRMJEEE 2025 will be determined on various factors such as the number of seats available, the number of applicants appearing for the SRMJEEE PG entrance test, difficulty levels of the exam as well as past year cutoff trends. 

                                        SRM University will announce the SRMJEEE PG counselling dates on the official website. All the qualified candidates will be called for the counselling of SRMJEEE PG 2025 on the basis of the marks secured in the entrance exam. The SRMJEEE PG counselling 2025 will comprise option entry, seat allotment and fee payment. The authorities will conduct the SRMJEEE PG counselling based on the ranks secured in the exam. However, each candidate will have to fulfil the SRMJEEE PG admission criteria. Candidates who will be allotted seats will have to pay the admission fee to confirm their admisison.

                                        Documents Required at SRMJEEE PG 2025 counselling

                                        SRM Joint Engineering Entrance Examination PG 2025

                                        • Counselling call letter
                                        • SRMJEEE PG admit card
                                        • SRMJEEE PG rank card
                                        • Photographs
                                        • Admission fee receipt
                                        • Marksheet of graduation

                                        General Information

                                        Contacts

                                        4427417000 , 4447437500

                                        Relevant Links

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                                        Frequently Asked Questions

                                        1. How candidates will be shortlisted for SRMJEEE PG counselling 2025?

                                        On the basis of SRMJEEE PG results 2025, candidates will be invited to participate in the counselling process.

                                        2. What is the marking scheme of SRMJEEE PG exam 2025?

                                        Candidates will be allotted 1 mark for each correct answer and there is no negative marking.

                                        3. What is the application fee of SRMJEEE PG 2025 exam?

                                        Candidates need to pay the application fee of Rs 1400 in online mode through internet banking or credit/debit card.

                                        4. Do I need to give SRMJEEE PG 2025 exam, If I have valid GATE score?

                                        Yes, candidates with valid GATE scores are required to appear for the SRMJEEE PG test.

                                        5. How to download SRMJEEE PG admit card 2025?

                                        After the completion of the SRMJEEE PG 2025 slot booking process, candidates will have to log in to the portal with valid credentials to download the admit card of SRMJEEE PG exam 2025.

                                        6. What is the SRMJEEE PG 2025 eligibility criteria?

                                        As per the SRMJEEE PG eligibility criteria 2025, candidates should have passed B.E/B.Tech in the appropriate stream as per the course applied with a minimum of 60% marks.

                                        7. Can I apply for SRMJEEE PG entrance exam in offline mode?

                                        No, candidates can fill out the SRMJEEE PG 2025 application form in online mode only.

                                        8. Is there any age limit for SRMJEEE PG programmes?

                                        There is no age limit for the SRMJEEE PG programmes.

                                        9. How will the SRMJEEE PG 2025 application form be issued?

                                        The SRMJEEE PG 2025 application form is available only in online mode on the official website, srmist.edu.

                                        Colleges Accepting SRMJEEE PG

                                        Questions related to SRMJEEE PG

                                        Have a question related to SRMJEEE PG ?

                                        Dear aspirant !!

                                        Hope you are doing well ! We don't know about which question paper you are asking about. If you find anything wrong we are sorry but we will help you in every possible way just tell us for which exam you are asking the question paper. Do the same in comments section below.

                                        Thank you

                                        The question paper for your regional language (Bengali in this case) in CUET will most likely be only in Bengali.  The regional language section of CUET assesses your proficiency in your chosen regional language. Bengali questions in Bengali allow for a more accurate evaluation of your Bengali language skills.

                                        CUET offers regional language options to cater to students from diverse linguistic backgrounds. Having the question paper in the chosen regional language ensures a fair assessment for everyone.

                                        https://university.careers360.com/download/ebooks/all-about-cuet

                                        I hope it helps!

                                        CUET is a standardized test used for admission to various Undergraduate and postgraduate programs in some universities in India.

                                        It is always better to refer previous year question papers with answers PDF to understand the pattern of the CUET exam.

                                        To download CUET PG previous year question papers, click on the below link.

                                        https://university.careers360.com/articles/cuet-pg-question-papers



                                        Hello aspirant,
                                        To succeed in the Manipal Entrance Exam 2024, applicants should engage in thorough preparation, striving for strong performance to qualify for the MET 2024. Before commencing their studies, candidates can review the MET syllabus. As part of their preparatory approach, individuals can make effective use of MET 2024 sample papers, which serve as valuable study materials. By solving these Manipal entrance exam sample papers, candidates become acquainted with the MET question paper format and the expected difficulty level. Utilizing MET previous year papers with solutions in PDF format is crucial, and integrating MET 2024 sample papers extensively into their study routine will contribute significantly to enhancing their performance in the examination.

                                        To get pyq and sample papers please visit the following link:

                                        https://engineering.careers360.com/articles/met-sample-papers

                                        Thank you

                                        Hope it helps you.

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