OJEE PGAT 2025 Syllabus: The Odisha Joint Entrance Examination Board has released the OJEE PGAT Syllabus on its official website. Candidates appearing for the OJEE PGAT 2025 can check the subject-wise syllabus for the examination here. The syllabus plays a vital role in the aspirant’s preparation. The OJEE PGAT M.Tech syllabus contains all the information about the subjects and the key concepts covered in the examination. The OJEE MTech 2025 admit card is now available. Candidates appearing for the exam must know about the syllabus to strategise their study schedule. Read below to learn more about the OJEE PGAT exam syllabus.
- OJEE PGAT 2025 Exam Pattern
- OJEE PGAT 2025 Syllabus: Subject-Wise
- OJEE PGAT 2025 - Engineering Mathematics Syllabus
- OJEE PGAT 2025 Biotechnology Syllabus
- OJEE PGAT 2025 Civil Engineering Syllabus
- OJEE PGAT 2025 Computer Science/Information Technology Syllabus
- OJEE PGAT 2025 Electrical Engineering Syllabus
- OJEE PGAT Electronics Engineering Syllabus
- OJEE PGAT 2025 Mechanical Engineering Syllabus
OJEE PGAT 2025 Exam Pattern
With the OJEEB OJEE Syllabus, candidates must also be aware of the exam pattern. With the help of the OJEE PGAT M.Tech 2025 exam syllabus, candidates can figure out the exam scheme, marking process, duration, mode, and difficulty level of the exam. Here is the detailed OJEE PGAT 2025 exam pattern-
| Name of the exam |
OJEE PGAT |
| Mode of the OJEE PGAT 2025 exam |
Online |
| Duration of the OJEE PGAT 2025 exam |
Two Hours |
| Language of the Question Paper |
English |
| Format of the Questions |
Multiple-Choice Based Questions |
| OJEE PGAT 2025 Marking Scheme |
Four marks are rewarded for each correct answer, four marks are deducted for each incorrect response, and -1 mark is deducted. |
| OJEE PGAT 2025 Syllabus |
Analytical and Logical Reasoning - 10 questions | Engineering Mathematics - 20 questions | Branch subject-related - 60 questions |
OJEE PGAT 2025 Syllabus: Subject-Wise
Candidates can check the complete subject-wise syllabus for OJEE PGAT 2025 below. The subjects/disciplines that come under the OJEE PGAT 2025 for M.Tech admission are -
- Engineering Mathematics
- Biotechnology
- Chemical Engineering
- Civil Engineering
- Computer Science/Information Technology
- Electrical Engineering
- Electronics Engineering
- Environmental Engineering
- Mechanical Engineering
- Metallurgical Engineering
- Plastic Engineering
- Textile Engineering
OJEE PGAT 2025 - Engineering Mathematics Syllabus
| Units |
Topics |
|---|---|
| Ordinary Differential Equations |
Solution of the first-order | second-order, and higher-order differential equations (separable equation, exact differential equation, homogenous equation with constant co-efficient | Euler Cauchy equations | solution by undetermined coefficients and variations of parameters | |
| Linear Algebra |
Matrices | Determinants and Linear System of Equations |Vectors | Eigenvalue problems | Symmetric | Orthogonal Matrices |Complex matrices | Hermitian | Skew Hermitian and Unitary Matrices | Similarity of Matrices | |
| Fourier Series |
Fourier Series and Expansion of Functions of any period | Odd and Even Functions | Half-Range Expansion | |
| Laplace Transform |
Use of Laplace Transform for solving differential equations | Convolution and Integral Equations | |
| Complex Analysis |
Analytic Functions | Cauchy-Riemann Equations | Laurent’s Series | Singularities and Zeroes | |
| Numerical Methods |
Interpolation | Numerical Integration | Solution of First Order Ordinary Differential Equations | |
| Probability and Statistics |
Probability Distribution (discrete and continuous) | Sampling Distribution | Correlation and Regression Analysis| |
OJEE PGAT 2025 Biotechnology Syllabus
| Units |
Topics |
|---|---|
| Microbiology |
Prokaryotic and Eukaryotic cell structure | Microbial Nutrition | Growth | Microbial Metabolism (aerobic and anaerobic respiration, photosynthesis) | Nitrogen fixation | Chemical basis of mutation and mutagens | Microbial genetics (plasmids, transformation, transduction, conjunction) | viruses | bacteria | |
| Biochemistry |
Bio-molecules and their conformation | Weak inter-molecular interactions in bio macro molecules | Chemical and Functional nature of enzymes | Kinetics of Single Substrate and Bi-Substrate Enzyme-Catalyzed Reactions | Bioenergetics | Metabolism (Glycolysis, TCA, and Oxidative Phosphorylation) | Membrane Transport and Pumps | Cell Cycle and Cell Growth Control | |
| Molecular Biology and Genetics |
Molecular structure of genes and chromosomes | DNA replication and control | Transcription and its control | Translation processes | Mendelian inheritance | Linkage | Recombination and Chromosomal Variation | Molecular Basis of Genetic Diseases and Applications | |
| Process Biotechnology |
Bioprocess technology for the production of cell biomass and primary/secondary metabolites, such as baker’s yeast, ethanol, critic acid, amino acids, and antibiotics | Chromatographic and Membrane-based bioseparation methods | Immobilization of enzymes and cells and their application for bioconversion processes | Aerobic and Anaerobic biological processes for stabilisation of solid/liquid wastes | Bioremeditation | |
| Bioprocess Engineering |
Kinetics of Microbial Growth | Substrate Utilization and Product Formation | Simple Structured Models | Sterilization | Batch | Fed-Batch and Continuous Processes | Mass Transfer in Bio Reactors | Scale-up Concepts | Various Types of Microbial and Enzyme Reactors | Instrumentation in Bioreactors | |
| Plant and Animal Biotechnology |
Special features and organisation of plant cells | Totipotency | Regeneration of Plants | Autotrophic and Heterotrophic Growth | Plant Growth Regulators and Elicitors | Production of Secondary Metabolites by Plant Suspension Cultures | |
| Characteristics of Animal Cells |
Metabolism | Animal Cell Cultures | Kinetics of Cell Growth and Product Formation | Hybridoma Technology | Livestock Improvement | Cloning in Animals | Genetic Engineering in Animal Cell Culture | |
| Immunology |
The origin of immunology | Inherent Immunity | Humoral and Cell-Mediated Immunity | Antigen; B and T cells and Macrophages; Major histocompatibility complex (MHC); Antigen processing and presentation; Molecular basis of antibody diversity; Polyclonal and monoclonal antibody; Complement; Antigen-antibody reaction; Immune tolerance; Hypersensitivity; Autoimmunity. |
| Recombinant DNA Technology |
Restriction and Modification Enzymes | Vectors: Plasmid, Bacteriophage and other viral vectors | Cosmids | Tiplasmid | Yeast Artificial Chromosome | DNA and Genomic DNA Library | Gene Isolation | Gene Cloning | Expression of Cloned Gene | Transposons and Gene Targeting | DNA Labelling | DNA Sequencing | Polymerase Chain Reactions | DNA Finger Printing | Southern and Northern Blotting | In-situ Hybridization | RAPD | RFLP | Site-Directed Mutagenesis | Gene Transfer Technologies | Gene Therapy | |
| Bioinformatics |
Major Bioinformatics Resources | Sequence and Structure Databases | Sequence Analysis (Biomolecular Sequence File Formats, Scoring Matrices, Sequence Alignment, Phylogeny | DNA Microarrays | Molecular Modelling and Simulations | |
OJEE PGAT 2025 Civil Engineering Syllabus
| Units |
Topics |
|---|---|
| Structural Engineering |
Mechanics | Structural Analysis | Concrete Structures | Steel Structures | Construction Materials | |
| Geotechnical Engineering |
Soil Mechanics- Origin of soils, Soil Classification, Three-phase system, Fundamental definitions, relationships and interrelationships, permeability and seepage, effective stress principle, consolidation, compaction, and shear strength | Foundation Engineering - Sub-surface investigations-scope, drilling bore holes, sampling penetration tests, plate load test, Earth pressure theories, Effect Water Table, Layered soils, Stability of Slopes - Infinite slopes, finite slopes, foundation types, Shallow foundations, Deep foundations - pile types, dynamic and static formula, load capacity of piles in sands and clays, negative skin friction. |
| Water Resources Engineering |
Fluid Mechanics and Hydraulics | Hydrology | Irrigation | |
| Environmental Engineering |
Water Requirements | Air Pollution | Municipal Solid Wastes | Noise Pollution | |
| Transportation Engineering |
Highway Planning - Geometric design of highways, Testing and Specifications of Paving Materials, Design of Flexible and Rigid Pavements | Traffic Engineering - Traffic characteristics, theory of traffic flow, intersection design, traffic signs and signal design, highway capacity | Surveying - Principle of Surveying, Surveying by Chain, Compass and Theodolite, Levelling and Contouring, Tacheometry, and Total Station |
OJEE PGAT 2025 Computer Science/Information Technology Syllabus
| Units |
Topics |
|---|---|
| Digital Logic |
Logic functions | Minimization | Design and Synthesis of Combinational and Sequential Circuits | Number Representation and Computer Arithmetic (fixed and floating point) | |
| Computer Organisation and Architecture |
Machine instructions and addressing modes | ALU and data path | CPU control design | Memory interface (interrupt and DMA mode) | Instruction pipelining | Cache and main memory | Secondary storage | |
| Programming and Data Structures |
Programming in C | Functions | Recursion | Parameter passing | Scope Binding | Abstract data types | Arrays | Stacks | Queues | Linked Lists | Trees | Binary Search Trees | Binary Heaps | |
| Algorithms |
Analysis | Asymptotic Notation | Notions of Space and Time Complexity | Worst and Average Case Analysis | Design: Greedy Approach | Dynamic Programming | Divide and Conquer | Tree and Graph Traversals | Connected Components | Spanning Trees | Shortest Paths | Hashing | Sorting | Searching | Asymptotic Analysis (best, worst, and average cases) of time and space | upper and lower bounds | Basic concepts of complexity classes - P, NP, NP-hard, NP-complete | |
| Theory of Computation |
Regular languages and finite automata | Context-free languages | Push-down automata | Recursively enumerable sets and Turing machines | Undecidability | |
| Compiler Design |
Lexical Analysis, Parsing, Syntax-directed translation | Runtime environments | Intermediate and Target Code Generation | Basics of Code Optimization | |
| Operating System |
Processes | Threads | Inter-process communication | Concurrency | Synchronization | Deadlock | CPU Scheduling | Memory Management and Virtual Memory | File Systems | I/O Systems | Protection and Security | |
| Internet and Web Technology |
Internet and Web | IPV4 Vs IPV6 | Web Client & Server | HTML | |
| Networking |
OSI Layer | Protocols in various layers | Different Media in Physical Layer | TCP/IP | SMTP/Pop3 | FTP |
OJEE PGAT 2025 Electrical Engineering Syllabus
| Units |
Topics |
|---|---|
| Electrical Circuits and Fields |
Network graph | KCL, KVL, Node and Mesh Analysis, Transient Response of DC and AC networks | Sinusoidal Steady-State Analysis | Resonance | Basic Filter Concepts | Ideal Current and Voltage Sources | Thevenin’s | Norton’s and Superstition and Maximum Power Transfer Theorems | Two-port Networks | Three-Phase Circuits | Gauss Theorem | Electric Field and Potential due to point | Line, Plane, and Spherical Charge Distributions | Ampere’s and Bio-Savart’s Laws | Inductance | Dielectrics | Capacitance | Mutual Inductance | Tuned Coupled Circuit | |
| Signals and Systems |
Representation of Continuous and Discrete Time Signals | Shifting and Scaling Operations | Linear | Time-Invariant and Casual Systems | Fourier Series Representation of Continuous Periodic Signals | Sampling Theorems | Fourier, Laplace, and Z Transforms | Wavelet Analysis | |
| Electrical Machines |
Single Phase Transformer | Three Phase Transformers | Energy Conversion Principles | DC Machines | Three-Phase Induction Motors | Two-Reaction Theory Analysis | Regulation and Parallel Operation of Generators | Motor Starting | Characteristics and Applications of Servo and Stepper Motors | |
| Power Systems |
Basic Power Generation Concepts | Transmission Line Models and Performance | Mechanical Design | Voltage Control | Solid State Relays and Digital Protection | Circuit Breakers | System Stability Concepts | HDVC Transmission | Renewable Energy Power Generation (PV/Wind) |
| Control Systems |
Principles of Feedback | Transfer Function | Block Diagrams | Steady State Errors | Routh and Nyquist Techniques | Bode Plots | Lead and Lead-Lag Compensation | State Pole Zero Addition | Space Model | State Transition Matrix | Controllability and Observability | |
| Electrical and Electronic Measurements |
Bridges and Potentiometers | PMMC | Moving Iron | Dynamometer and Induction Type Instruments | Galvano Meters | Damping Scheme Measurement of Voltage, Current, Power, Energy and Power Factor | Instrument Transformer | Digital Voltmeters and Multimeters | Q-Meters | Oscilloscopes | Potentiometric Recorders and Error Analysis | |
| Analog and Digital Electronics |
Characteristics of Diodes | BJT | FET | Amplifiers - Biasing Equivalent Circuit and Frequency Response | Oscillators and Feedback Amplifiers | Operational Amplifiers - Characteristics and Applications | Simple Active Filters | VCOs and Timers | Combinational and Sequential Logic Circuits | Multiplexer and De-Multiplexer | Schmitttrigger | Multi-vibrators | Sample and hold circuits | A/D and D/A converters | 8051 microcontroller | Introduction to 8085/8086 microprocessor basics & architecture | Programming and interfacing of I/O devices | |
| Power Electronics and Drives |
Semiconductor power diodes | Transistors | Thyristors | Triacs | GTOs | MOSFETs and IGBTs - static characteristics and principles of operations | Triggering Circuits | Phase Control Rectifiers | Bridge Convertors -Fully controlled and Half-controlled | Principles of Choppers and Inverters | Basic concepts of adjustable speed dc and ac drives and variable frequency drive | Dual Convertors | |
OJEE PGAT Electronics Engineering Syllabus
OJEE PGAT 2025 Mechanical Engineering Syllabus
OJEE PGAT Exam
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