Master of Technology in Agriculture Engineering (M.Tech Agriculture)
Master of Technology in Agriculture Engineering Syllabus
The MTech Agricultural Engineering syllabus for 2025 is designed to impart advanced knowledge in agricultural machinery, irrigation systems, soil and water conservation, precision agriculture, and renewable energy applications in farming. The curriculum integrates theoretical concepts with practical learning through fieldwork, laboratory sessions, and research projects.
Aligned with the National Education Policy (NEP 2020), the syllabus emphasizes interdisciplinary education, sustainability, rural development, and modern technologies such as GIS, drones, and automation. Graduates are trained to contribute to agricultural modernization, smart farming solutions, and resource management.
Table of Contents
- Overview of Syllabus
- Semester-Wise Syllabus
- Key Subjects
- Core Subjects
- Electives
- Entrance Exam Syllabus
- Recommended Books
- Course Structure
- Project Work
- FAQs
Semester-Wise MTech Agricultural Engineering Syllabus 2025
The program spans two years across four semesters, covering both theoretical and applied engineering concepts.
Year 1 – Fundamental & Advanced Concepts
Semester 1
| Subjects |
|---|
| Advanced Farm Machinery & Power |
| Soil & Water Conservation Engineering |
| Agricultural Process Engineering |
| Research Methodology & Statistics |
| Laboratory: Machinery Design & Testing |
Semester 2
| Subjects |
|---|
| Irrigation & Drainage Engineering |
| Food & Post-Harvest Engineering |
| GIS & Remote Sensing |
| Renewable Energy Systems |
| Minor Research Project |
Year 2 – Applied Learning & Research
Semester 3
| Subjects |
|---|
| Precision Agriculture & Smart Sensors |
| Agricultural Automation & Robotics |
| Elective Subject |
| Seminar & Industrial Training |
Semester 4
| Subjects |
|---|
| Advanced Elective |
| Dissertation / Major Project |
| Field Internship / Industry Attachment |
Each semester includes hands-on labs, field visits, demonstrations, and software-based simulations.
FAQ: What is the focus of the MTech Agricultural Engineering syllabus in 2025?
The 2025 curriculum focuses on modernization of agriculture through automation, smart irrigation, soil and water management, and renewable technologies. It blends theoretical engineering with practical field exposure and research.
Important Subjects in MTech Agricultural Engineering 2025
Key areas covered include:
- Farm Machinery System Design
- Soil & Water Resource Management
- Irrigation & Drainage Systems
- Precision Farming & IoT
- GIS and Satellite Mapping
- Renewable Energy (Solar/Wind/Bio-Energy)
- Agricultural Automation & Robotics
- Food and Post-Harvest Technology
Core Subjects in MTech Agricultural Engineering
| Core Area | Key Topics |
|---|---|
| Farm Machinery | Engine systems, tractor design, automation |
| Soil & Water | Hydrology, conservation, watershed modeling |
| Irrigation | Micro-irrigation, canal design, pump systems |
| Process Engineering | Food preservation, storage, drying |
| GIS & Remote Sensing | Land mapping, decision systems |
| Renewable Energy | Solar irrigation, biofuel production |
| Research | Statistical tools, project methodology |
Elective Subjects in 2025
Electives allow students to specialize in niche areas of engineering:
| Category | Sample Subjects |
|---|---|
| Precision & Smart Farming | Sensors, GPS systems, drone tech |
| Water Resource & Hydraulics | Drainage systems, flood control |
| Food Engineering | Packaging, refrigeration, supply chain |
| Automation | Robotics, control systems |
| Renewable Energy | Solar design, bioenergy systems |
| Climate & Environment | Climate change, soil degradation |
MTech Agricultural Engineering Entrance Exam Syllabus
Entrance exams like GATE, ICAR AIEEA (PG), and CUET-PG typically assess:
- Engineering Mathematics
- Basics of Agricultural Engineering
- Fluid Mechanics & Thermodynamics
- Soil Science & Hydrology
- Farm Machinery fundamentals
- Reasoning and Aptitude
FAQ: How can students prepare for MTech Agricultural Engineering entrance exams?
Revision of undergraduate engineering subjects, solving GATE-pattern questions, and practicing numerical problems help strengthen preparation. Time management and mock tests are also essential strategies.
Recommended Books for MTech Agricultural Engineering
| Subject | Books & Authors |
|---|---|
| Farm Machinery | Principles of Farm Machinery – Ojha & Michael |
| Soil & Water Conservation | Soil and Water Conservation Engineering – Schwab |
| Irrigation Engineering | Irrigation Theory and Practice – A.M. Michael |
| Renewable Energy | Renewable Energy in Agriculture – Lal & Pratap |
| Food Process Engineering | Food Engineering Operations – Brennan |
| GIS | Remote Sensing and GIS – Lillesand & Kiefer |
FAQ: Are these books sufficient for exam preparation?
Yes, these books cover the core concepts of agricultural engineering, but students may also refer to research papers, software tutorials, and field manuals for practical understanding.
MTech Agricultural Engineering Course Structure 2025
Key Highlights:
- Duration: 2 Years (4 Semesters)
- Mode: Regular / Part-Time (select universities)
- Evaluation: Internal + External
- Components:
- Core subjects
- Electives
- Labs
- Seminars
- Field training
- Minor & major projects
Teaching & Assessment:
- Lab experiments
- CAD & simulation
- Field demonstrations
- Internships
- Viva-voce
- Dissertation work
Project Work in MTech Agricultural Engineering
Sample project topics:
- Solar-powered irrigation systems
- Automated crop monitoring using drones
- Smart greenhouse control systems
- Post-harvest storage solutions
- Watershed management models
- Biofuel & waste-to-energy conversion
Projects aim to solve real-world agricultural challenges.
FAQs about MTech Agricultural Engineering Syllabus & Subjects 2025
1. What is the duration of the MTech Agricultural Engineering course?
It is a two-year postgraduate program divided into four semesters. The curriculum combines theoretical subjects with practical fieldwork and research projects.
2. Are internships included in the syllabus?
Yes, most universities include industrial training or field internships in the third or fourth semester. These provide hands-on exposure to machinery units, irrigation projects, and agricultural firms.
3. When do students choose electives?
Electives are usually offered from the second year, allowing students to specialize in precision farming, automation, hydrology, or renewable energy based on career interests.
