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    support@collegese.com
    +91 88943 57155
    Pune, Maharashtra, India

    Duration

    4 Years

    Agriculture

    Marwadi University Rajkot
    Duration
    4 Years
     Agriculture UG OFFLINE

    Duration

    4 Years

    Agriculture

    Marwadi University Rajkot
    Duration
    Apply

    Fees

    ₹18,00,000

    Placement

    92.0%

    Avg Package

    ₹5,20,000

    Highest Package

    ₹9,80,000

    OverviewAdmissionsCurriculumFeesPlacements
    4 Years
    Agriculture
    UG
    OFFLINE

    Fees

    ₹18,00,000

    Placement

    92.0%

    Avg Package

    ₹5,20,000

    Highest Package

    ₹9,80,000

    Seats

    100

    Students

    300

    ApplyCollege

    Seats

    100

    Students

    300

    Curriculum

    Course Structure Overview

    The B.Tech Agriculture program at Marwadi University Rajkot is structured over eight semesters, with a carefully balanced mix of core subjects, departmental electives, science electives, and laboratory-based learning experiences. Each semester carries a total credit load that ensures adequate exposure to theoretical concepts while providing sufficient time for practical applications.

    Semester Course Code Course Title Credit Structure (L-T-P-C) Prerequisites
    I AG-101 Introduction to Agriculture 3-0-0-3 -
    AG-102 Plant Physiology 3-0-0-3 -
    AG-103 Soil Science 3-0-0-3 -
    AG-104 Mathematics for Agriculture 3-0-0-3 -
    AG-105 Chemistry for Agriculture 3-0-0-3 -
    AG-106 Biology for Agriculture 3-0-0-3 -
    AG-107 Physics for Agriculture 3-0-0-3 -
    AG-108 Computer Applications in Agriculture 2-0-2-3 -
    AG-109 Field Visit and Laboratory Practice 0-0-4-2 -
    AG-110 Introduction to Crop Production 3-0-0-3 -
    II AG-201 Crop Science and Management 3-0-0-3 AG-101, AG-102, AG-103
    AG-202 Plant Pathology and Entomology 3-0-0-3 AG-102
    AG-203 Agronomy and Irrigation Engineering 3-0-0-3 AG-103
    AG-204 Statistics for Agriculture 3-0-0-3 AG-104
    AG-205 Biotechnology Fundamentals 3-0-0-3 AG-106
    AG-206 Environmental Science 3-0-0-3 AG-105
    AG-207 Data Analysis and Visualization 2-0-2-3 AG-104
    AG-208 Field Research and Data Collection 0-0-4-2 -
    AG-209 Introduction to Agricultural Economics 3-0-0-3 -
    AG-210 Crop Physiology and Biochemistry 3-0-0-3 AG-102
    III AG-301 Plant Biotechnology and Genomics 3-0-0-3 AG-205
    AG-302 Sustainable Farming Systems 3-0-0-3 AG-201
    AG-303 Agricultural Economics and Policy 3-0-0-3 AG-209
    AG-304 Precision Agriculture Techniques 3-0-0-3 AG-207
    AG-305 Soil Fertility and Nutrient Management 3-0-0-3 AG-103
    AG-306 Agricultural Extension and Communication 3-0-0-3 -
    AG-307 Water Resources and Irrigation Engineering 3-0-0-3 AG-203
    AG-308 Food Processing and Quality Control 3-0-0-3 -
    AG-309 Research Methodology and Data Analysis 2-0-2-3 AG-204
    AG-310 Internship Preparation and Field Practice 0-0-4-2 -
    IV AG-401 Advanced Crop Production Systems 3-0-0-3 AG-302
    AG-402 Biotechnology in Agriculture 3-0-0-3 AG-301
    AG-403 Agro-Economics and Market Analysis 3-0-0-3 AG-303
    AG-404 Agricultural Policy and Governance 3-0-0-3 AG-303
    AG-405 Environmental Impact Assessment 3-0-0-3 AG-206
    AG-406 Digital Agriculture and IoT Applications 3-0-0-3 AG-304
    AG-407 Soil Health Management and Remediation 3-0-0-3 AG-305
    AG-408 Agricultural Entrepreneurship and Innovation 3-0-0-3 -
    AG-409 Agri-Tech Startups and Incubation 2-0-2-3 AG-408
    AG-410 Final Year Capstone Project 0-0-8-4 -

    Advanced Departmental Electives

    The department offers a variety of advanced elective courses designed to deepen students' understanding and provide specialized skills in specific areas of agriculture:

    • Plant Biotechnology and Genomics: This course delves into molecular techniques used in crop improvement, including genetic engineering, marker-assisted selection, and gene editing using CRISPR-Cas9. Students gain hands-on experience with DNA sequencing platforms and bioinformatics tools.
    • Precision Agriculture Techniques: Focused on the use of GPS, sensors, drones, and satellite imagery for optimizing crop management. The course includes practical sessions in data collection and analysis using specialized software.
    • Sustainable Farming Systems: Explores organic farming, conservation agriculture, integrated pest management, and climate-smart practices. Students learn to design sustainable production systems that balance productivity with environmental stewardship.
    • Agricultural Economics and Policy: Analyzes the economic principles underlying agricultural markets, including pricing mechanisms, subsidy policies, trade regulations, and rural development strategies.
    • Water Resources and Irrigation Engineering: Covers water conservation techniques, irrigation scheduling, and sustainable water use in agriculture. Practical components include design of drip systems and management of water resources.
    • Food Processing and Quality Control: Focuses on post-harvest handling, preservation techniques, food safety standards, and quality assurance processes in the food industry.
    • Agricultural Extension and Communication: Prepares students to communicate scientific knowledge effectively to farmers and stakeholders. Includes training in extension methodologies, public speaking, and community engagement strategies.
    • Environmental Impact Assessment: Teaches students how to assess the environmental consequences of agricultural practices and develop mitigation plans for sustainable development.
    • Digital Agriculture and IoT Applications: Introduces concepts of smart agriculture using Internet of Things (IoT) devices, mobile apps, and cloud computing. Students work on real-world projects involving sensor deployment and data analytics.
    • Agro-Economics and Market Analysis: Provides tools for analyzing market trends, price forecasting, risk management, and investment decisions in agricultural enterprises.

    Project-Based Learning Philosophy

    The department strongly believes in project-based learning as a core component of education. This approach encourages students to apply theoretical knowledge to real-world problems through structured projects that span multiple semesters.

    The program includes two types of projects:

    • Mini-Projects: These are smaller-scale assignments completed during the second and third years. Mini-projects typically last 4-6 weeks and involve solving specific agricultural challenges such as identifying soil issues or optimizing irrigation methods.
    • Final Year Thesis/Capstone Project: The capstone project is a comprehensive, multi-month endeavor that allows students to explore an area of interest in depth. Projects are selected in consultation with faculty mentors and often involve collaboration with industry partners or government agencies.

    Evaluation criteria for these projects include:

    • Research methodology and data analysis skills
    • Technical execution and problem-solving capabilities
    • Presentational quality and communication skills
    • Innovation and impact potential
    • Adherence to ethical standards and professional practices

    Students are encouraged to select projects that align with their interests or career goals. Faculty mentors guide students throughout the process, providing technical expertise, feedback, and support for publication or presentation at academic conferences.