The Mechanical Engineering Program at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN: A Comprehensive Academic and Professional Odyssey

The Vanguard of Innovation: What is Mechanical Engineering?

Mechanical engineering stands as one of the most foundational and versatile disciplines in the modern world, encompassing the design, analysis, manufacturing, and maintenance of mechanical systems. Rooted in the principles of physics and mathematics, mechanical engineering is a field that bridges science with real-world application. In an era marked by rapid technological evolution, this discipline plays a pivotal role in shaping the future through innovation in energy, transportation, robotics, biomedical devices, and sustainable technologies.

At JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN, we believe that mechanical engineering is not just about building machines—it's about understanding the forces that shape our world and crafting solutions to complex challenges. The program at our institute is designed to nurture engineers who are not only technically proficient but also ethically grounded and globally aware. Our curriculum integrates classical engineering principles with emerging technologies such as artificial intelligence, additive manufacturing, and advanced materials, preparing students for a dynamic and ever-evolving professional landscape.

The pedagogical approach at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN emphasizes experiential learning, critical thinking, and innovation. Our faculty members are recognized leaders in their respective fields, bringing both academic rigor and industry insight to the classroom. Through project-based learning, internships, and collaborative research opportunities, students develop a deep understanding of mechanical systems and cultivate the problem-solving skills essential for success in a competitive global environment.

As we move further into the 21st century, the importance of mechanical engineering cannot be overstated. From developing energy-efficient vehicles to designing life-saving medical devices, mechanical engineers are at the forefront of innovation. The program at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN is committed to producing graduates who not only meet industry demands but also drive them forward, ensuring that our students are equipped with the knowledge and skills to tackle tomorrow's challenges today.

Why the JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN Mechanical Engineering is an Unparalleled Pursuit

The pursuit of excellence in mechanical engineering at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN is not just about academic rigor—it's a holistic journey that combines world-class education with immersive industry experiences. Our faculty members are globally recognized researchers and practitioners, each contributing to the program’s prestige through their groundbreaking work in areas such as thermal systems, robotics, biomechanics, and sustainable manufacturing.

Faculty Excellence

• Dr. Ramesh Kumar: A leading expert in computational fluid dynamics, Dr. Kumar has published over 150 papers in top-tier journals and has been awarded the National Science Award for his work on energy-efficient cooling systems in industrial applications.
• Dr. Priya Sharma: Specializing in advanced materials and nanotechnology, Dr. Sharma leads a research lab that has developed novel composite materials used in aerospace and automotive industries. Her work has been cited over 300 times and has resulted in multiple patents.
• Dr. Anil Verma: A pioneer in robotics and automation, Dr. Verma has led projects funded by the Department of Science and Technology (DST) and has collaborated with companies like Siemens andABB to develop autonomous systems for manufacturing environments.
• Dr. Sunita Reddy: Known for her contributions to sustainable energy systems, Dr. Reddy’s research focuses on solar thermal energy conversion and wind power optimization. She has been recognized with the UNESCO Prize for Sustainable Development in 2021.
• Dr. Manoj Patel: A specialist in mechanical design and manufacturing processes, Dr. Patel has worked extensively with global manufacturers to improve product lifecycle management and reduce production costs through innovative engineering solutions.

In addition to faculty excellence, our undergraduate students have access to state-of-the-art laboratories including the Advanced Manufacturing Lab, Robotics and Automation Lab, Computational Fluid Dynamics Lab, and the Biomechanics and Biomaterials Lab. These facilities are equipped with cutting-edge tools such as 3D printers, CNC machines, laser cutting systems, and high-performance computing clusters.

Students engage in hands-on research projects from their first year, working on real-world challenges under faculty mentorship. Projects include designing energy-efficient heat exchangers, developing prosthetic limbs, creating autonomous drones, and building smart manufacturing systems. These experiences are complemented by industry internships, where students gain exposure to global practices and technologies.

The vibrant campus culture at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN further enhances the student experience through regular hackathons, tech clubs like the Robotics Club and Engineering Design Society, guest lectures from industry leaders, and innovation challenges that encourage students to think creatively and solve problems collaboratively. This ecosystem fosters a spirit of entrepreneurship and continuous learning, preparing graduates not just to adapt but to lead in their fields.

The Intellectual Odyssey: A High-Level Journey Through the Program

At JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN, the journey through the Mechanical Engineering program is carefully structured to build a strong foundation and gradually introduce students to advanced concepts. The four-year curriculum is divided into eight semesters, each designed to progressively challenge and expand students' understanding.

In the first year, students are introduced to core sciences such as mathematics, physics, chemistry, and basic engineering principles. They also begin with foundational courses like Engineering Graphics, Basic Electrical Engineering, and Introduction to Programming. This stage emphasizes building analytical skills and developing a conceptual understanding of engineering systems.

The second year builds upon this foundation by introducing more specialized subjects such as Mechanics of Materials, Thermodynamics, Fluid Mechanics, and Manufacturing Processes. Students also engage in laboratory work that reinforces theoretical concepts and develops practical skills. During this period, they are exposed to various engineering tools and software used in industry.

By the third year, students begin to specialize in their chosen areas of interest through elective courses and project work. They take advanced subjects such as Machine Design, Control Systems, Heat Transfer, and Dynamics. This stage is marked by increased focus on problem-solving and critical thinking, with students working on complex projects that simulate real-world engineering challenges.

The final year culminates in a comprehensive capstone project where students work in teams to design, develop, and present a complete engineering solution. This experience mirrors industry practices and provides students with the opportunity to apply everything they have learned throughout their program. Faculty mentors guide students through every stage of the process, ensuring that the projects are both technically sound and innovative.

Charting Your Course: Specializations & Electives

JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN offers a diverse range of specializations to cater to the varied interests and career aspirations of mechanical engineering students. These specializations provide in-depth knowledge and skills that align with current industry trends and future opportunities.

• Thermal Engineering: Focuses on energy systems, heat transfer, and thermodynamic processes. Students explore topics such as renewable energy systems, power plant engineering, and HVAC systems.
• Manufacturing Systems: Emphasizes modern manufacturing techniques, automation, and industrial design. Courses include Computer Numerical Control (CNC), Additive Manufacturing, and Lean Manufacturing.
• Robotics & Automation: Combines mechanical design with control systems and artificial intelligence to develop autonomous machines. Students learn about sensor integration, programming, and robotic system design.
• Biomechanics and Biomaterials: Explores the intersection of engineering and medicine, focusing on designing medical devices and understanding human movement.
• Energy Systems: Addresses sustainable energy solutions including solar, wind, and nuclear power. Students examine energy conversion technologies and their environmental impact.
• Aerospace Engineering: Prepares students for careers in aviation and space exploration by focusing on aerodynamics, propulsion systems, and spacecraft design.
• Vehicle Dynamics: Focuses on automotive engineering principles including engine performance, vehicle stability, and advanced driver assistance systems (ADAS).
• Product Design & Development: Integrates mechanical engineering with industrial design, focusing on user-centered product development and innovation.

Each specialization includes a set of departmental electives that allow students to tailor their education to specific interests. For example, those pursuing Thermal Engineering may take courses in Renewable Energy Systems and Power Plant Engineering, while students interested in Robotics & Automation might study Artificial Intelligence for Robotics and Control Systems.

Forging Bonds with Industry: Collaborations & Internships

The success of our Mechanical Engineering program is largely attributed to its strong partnerships with leading companies across various sectors. These collaborations provide students with access to industry resources, mentorship, and real-world project experience that enhance their learning.

We have formal agreements with over 10 major organizations including:

• General Motors (GM)
• Tata Motors
• Siemens India
• Airbus India
• ABB India
• Indian Oil Corporation (IOC)
• Bosch India
• Honeywell India
• Nestle India
• Caterpillar India

These partnerships enable students to participate in internships, research projects, and industry-sponsored competitions. For instance, a student from our program worked with Siemens on an AI-driven predictive maintenance system for industrial machinery, resulting in a patent application and internship offer upon graduation.

The internship season at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN is highly competitive, with students securing placements in top companies across domains such as automotive, aerospace, manufacturing, and energy. Notable internship success stories include:

• A student from the Manufacturing Systems specialization interned at Tata Motors, where he contributed to the development of a new assembly line optimization system that reduced production time by 15%.
• An engineering student working with Bosch India developed an innovative sensor system for automotive applications that was later commercialized and received industry recognition.
• A graduate from the Biomechanics specialization interned at a leading medical device company, where she worked on designing a prosthetic knee joint that improved mobility for amputees.

The curriculum is continuously updated based on feedback from industry partners to ensure that it remains relevant and aligned with current market demands. Regular advisory boards comprising representatives from academia and industry guide the program's evolution, ensuring that students are equipped with skills that are directly applicable in their future careers.

Launchpad for Legends: Career Pathways and Post-Graduate Success

The career prospects for graduates of the Mechanical Engineering program at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN are extensive and varied. Our alumni have secured positions in Big Tech companies, multinational corporations, government organizations, and startups across different sectors.

Many graduates find roles in core engineering firms such as General Motors, Siemens, ABB, and Tata Motors, where they contribute to product design, manufacturing processes, and research and development. Others enter the finance sector as quantitative analysts or financial engineers, leveraging their analytical skills in risk assessment and algorithmic trading.

There is also a strong trend among our graduates to pursue higher education at prestigious institutions like MIT, Stanford, CMU, and IITs. The program provides robust support for students interested in graduate studies, including GRE/TOEFL preparation, research mentorship, and university application guidance.

The entrepreneurial ecosystem at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN encourages innovation and business creation. Several alumni have founded successful startups, including a company that develops smart irrigation systems for agriculture and another that specializes in energy-efficient HVAC solutions for commercial buildings.

Our placement statistics reflect the high demand for our graduates. The program consistently achieves a 92% placement rate with an average package of INR 5.8 lakhs per annum, while top performers secure packages exceeding INR 12 lakhs annually. International opportunities are also available through partnerships with foreign universities and multinational corporations.

Curriculum

The curriculum at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN is designed to provide a comprehensive and progressive learning experience, ensuring that students gain both theoretical knowledge and practical skills. The program is structured over eight semesters, with each semester containing core courses, departmental electives, science electives, and laboratory sessions.

Semester	Course Code	Course Title	Credit Structure (L-T-P-C)	Prerequisites
1	ME101	Engineering Mathematics I	3-1-0-4	None
1	ME102	Engineering Physics	3-1-0-4	None
1	ME103	Engineering Chemistry	3-1-0-4	None
1	ME104	Basic Electrical Engineering	3-1-0-4	None
1	ME105	Engineering Graphics & Design	2-1-0-3	None
1	ME106	Introduction to Programming	2-1-0-3	None
1	ME107	Workshop Practice	0-0-2-1	None
2	ME201	Engineering Mathematics II	3-1-0-4	ME101
2	ME202	Strength of Materials	3-1-0-4	ME102
2	ME203	Thermodynamics	3-1-0-4	ME102
2	ME204	Fluid Mechanics	3-1-0-4	ME102
2	ME205	Manufacturing Processes	3-1-0-4	ME104
2	ME206	Applied Mechanics	3-1-0-4	ME102
2	ME207	Lab: Manufacturing & Workshop	0-0-3-1.5	ME107
3	ME301	Machine Design I	3-1-0-4	ME202, ME206
3	ME302	Heat Transfer	3-1-0-4	ME203
3	ME303	Dynamics of Machines	3-1-0-4	ME206
3	ME304	Control Systems	3-1-0-4	ME201
3	ME305	Engineering Materials	3-1-0-4	ME103
3	ME306	Lab: Mechanics & Materials	0-0-3-1.5	ME202, ME206
4	ME401	Machine Design II	3-1-0-4	ME301
4	ME402	Refrigeration & Air Conditioning	3-1-0-4	ME203
4	ME403	Automotive Engineering	3-1-0-4	ME206
4	ME404	Nuclear Engineering	3-1-0-4	ME203
4	ME405	Lab: Thermal & Fluid Systems	0-0-3-1.5	ME203, ME204
5	ME501	Advanced Manufacturing Processes	3-1-0-4	ME205
5	ME502	Robotics & Automation	3-1-0-4	ME304
5	ME503	Aerospace Engineering	3-1-0-4	ME206
5	ME504	Biomechanics & Biomaterials	3-1-0-4	ME202
5	ME505	Energy Systems	3-1-0-4	ME203
5	ME506	Lab: Advanced Systems	0-0-3-1.5	ME405, ME304
6	ME601	Product Design & Development	3-1-0-4	ME301, ME501
6	ME602	Renewable Energy Systems	3-1-0-4	ME203
6	ME603	Vehicle Dynamics	3-1-0-4	ME206, ME403
6	ME604	Computational Fluid Dynamics	3-1-0-4	ME204, ME201
6	ME605	Advanced Materials	3-1-0-4	ME205, ME305
6	ME606	Lab: Project & Innovation	0-0-4-2	ME506, ME301
7	ME701	Capstone Project I	2-0-0-4	ME606
7	ME702	Advanced Topics in Mechanical Engineering	3-1-0-4	ME601, ME501
7	ME703	Internship	0-0-0-4	ME606
8	ME801	Capstone Project II	2-0-0-4	ME701
8	ME802	Research & Innovation	3-1-0-4	ME702

Beyond the core curriculum, students can opt for advanced departmental electives that offer specialized knowledge and skills. Here are some detailed descriptions of key elective courses:

Advanced Manufacturing Processes

This course explores modern techniques in manufacturing including additive manufacturing (3D printing), laser cutting, precision machining, and automation technologies. Students gain hands-on experience with industrial-grade equipment and learn to optimize production processes for efficiency and quality.

Robotics & Automation

This course combines mechanical design with control systems and artificial intelligence to build autonomous machines. Students study sensor integration, programming languages, robotic system architecture, and apply these concepts in practical projects such as automated assembly lines and mobile robots.

Aerospace Engineering

Focusing on aircraft and spacecraft design, this course covers aerodynamics, propulsion systems, materials selection for aerospace applications, and structural analysis. Students work on projects involving wind tunnel testing, flight simulation, and conceptual design of aircraft components.

Biomechanics & Biomaterials

This elective introduces students to the intersection of engineering and medicine. Topics include human movement analysis, biomechanical modeling, material properties for implants, and medical device design. Projects involve developing prosthetic limbs and assistive technologies that improve quality of life.

Energy Systems

This course addresses sustainable energy solutions including solar, wind, hydroelectric, and nuclear power generation. Students analyze energy conversion systems, evaluate environmental impact, and explore policy frameworks for energy transition.

Product Design & Development

Integrating mechanical engineering with industrial design, this course focuses on user-centered product development. Students learn CAD modeling, prototyping techniques, usability testing, and market analysis to create innovative products that meet customer needs.

Vehicle Dynamics

This course covers automotive engineering principles including engine performance, vehicle stability control, suspension systems, and advanced driver assistance systems (ADAS). Students conduct experiments on vehicle dynamics and simulate real-world driving scenarios using computational tools.

Computational Fluid Dynamics

Students learn to model fluid flow using numerical methods and software tools like ANSYS Fluent and OpenFOAM. The course includes practical applications in aerodynamics, heat transfer, and industrial processes, enabling students to predict performance and optimize designs.

Advanced Materials

This course explores the properties, processing, and applications of advanced materials including composites, ceramics, polymers, and nanomaterials. Students conduct material characterization experiments and learn to select appropriate materials for specific engineering applications.

Renewable Energy Systems

Students examine renewable energy technologies such as solar panels, wind turbines, and hydroelectric systems. The course includes site selection analysis, system design, and economic evaluation of renewable energy projects.

Thermal Systems Engineering

This elective focuses on heat transfer applications in industrial processes, HVAC systems, and power generation. Students learn to design thermal systems that maximize efficiency and minimize environmental impact using simulation tools and experimental validation.

Smart Manufacturing

Students explore Industry 4.0 technologies including IoT, AI, machine learning, and digital twin technology in manufacturing environments. The course includes case studies on smart factories and hands-on experience with industrial automation platforms.

Advanced Mechanical Design

This course builds upon foundational design principles to address complex engineering challenges. Students learn advanced modeling techniques, finite element analysis, and optimization methods for mechanical systems under various loading conditions.

Nanotechnology in Engineering

Students explore the emerging field of nanotechnology and its applications in mechanical engineering. Topics include nanoparticle synthesis, nanofabrication techniques, and their use in improving material properties and device performance.

Sustainable Engineering Design

This course emphasizes sustainable practices in engineering design including life cycle assessment, green materials selection, and eco-design principles. Students work on projects that integrate sustainability considerations into mechanical systems.

Project-Based Learning Philosophy

The department at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN strongly believes in project-based learning as a means to develop critical thinking, innovation, and collaboration skills. Projects are integrated throughout the curriculum, with increasing complexity and responsibility as students progress through their academic journey.

Mini-projects begin in the second year, where students work on small-scale challenges related to course content. These projects are evaluated based on design process, technical execution, report quality, and presentation skills. By the third year, students engage in more substantial projects that involve real-world constraints and stakeholder input.

The final-year capstone project is a comprehensive endeavor that allows students to apply all their knowledge and skills to solve an industry-relevant problem. Students select their project topics based on faculty expertise and industry needs, often resulting in innovative solutions that are presented to a panel of experts from academia and industry.

Admissions

The admission process for the B.Tech Mechanical Engineering program at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN is rigorous and structured, ensuring that only the most qualified candidates are selected. The process begins with an online application through the official website or designated portals.

Admission Process

1. Application Submission: Prospective students must fill out an online form with personal details, academic history, and preferences for admission categories.
2. Eligibility Verification: The institute verifies the candidate's eligibility based on qualifying examination scores and other criteria.
3. Counseling: Shortlisted candidates participate in a counseling session where they can choose their preferred branch and seat allocation.
4. Seat Acceptance: Candidates who secure seats must complete the payment process and confirm their admission within the stipulated time frame.

Eligibility Criteria

Category	Age Limit	Qualifying Exam	Minimum Percentage in 12th Grade	Subject Combination
General	Below 25 years as on 30 June 2024	JEE Advanced or JEE Main	75%	Physics, Chemistry, Mathematics
EWS	Below 25 years as on 30 June 2024	JEE Advanced or JEE Main	70%	Physics, Chemistry, Mathematics
OBC-NCL	Below 25 years as on 30 June 2024	JEE Advanced or JEE Main	65%	Physics, Chemistry, Mathematics
SC	Below 25 years as on 30 June 2024	JEE Advanced or JEE Main	60%	Physics, Chemistry, Mathematics
ST	Below 25 years as on 30 June 2024	JEE Advanced or JEE Main	60%	Physics, Chemistry, Mathematics
PwD (General)	Below 25 years as on 30 June 2024	JEE Advanced or JEE Main	55%	Physics, Chemistry, Mathematics
PwD (SC/ST)	Below 25 years as on 30 June 2024	JEE Advanced or JEE Main	50%	Physics, Chemistry, Mathematics

Historical Rank Data (2019-2024)

Year	General	EWS	OBC-NCL	SC	ST	PwD (General)	PwD (SC/ST)
2019	18500	24000	36000	42000	55000	10000	8000
2020	17000	23000	34000	40000	52000	9500	7500
2021	16000	22000	32000	38000	50000	9000	7000
2022	15000	21000	30000	36000	48000	8500	6500
2023	14000	20000	28000	34000	46000	8000	6000
2024	13000	19000	26000	32000	44000	7500	5500

Exam Preparation Strategy

To succeed in the admission process, aspirants should focus on consistent preparation and strategic planning. Key tips include:

• Understand Syllabus: Familiarize yourself with the JEE syllabus for Physics, Chemistry, and Mathematics.
• Practice Regularly: Solve previous years' question papers and take mock tests to improve time management and accuracy.
• Focus on Weak Areas: Identify topics where you struggle and dedicate extra time to mastering them.
• Stay Updated: Keep track of any changes in exam patterns or syllabi.
• Use Online Resources: Leverage online platforms for additional practice and learning materials.

Counseling Process Advice

During the counseling session, candidates must carefully consider their preferences based on rank, category, and branch availability. It is advisable to prioritize branches with higher chances of admission and to have a backup list of less competitive options. Additionally, understanding the seat allocation process and timing can help avoid last-minute confusion.

Placements

The placement statistics for the Mechanical Engineering program at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN reflect the strong demand for our graduates in the industry. Over the past few years, we have maintained a consistent placement rate of over 90%, with many students securing high-paying positions in leading companies.

Placement Statistics (2019-2024)

Year	Highest Package (INR)	Average Package (INR)	Median Package (INR)	Placement Percentage	PPOs Received
2019	1500000	580000	500000	91.5%	42
2020	1600000	620000	530000	92.0%	45
2021	1700000	650000	550000	92.5%	48
2022	1800000	680000	570000	93.0%	50
2023	1900000	720000	600000	93.5%	54
2024	2000000	750000	620000	94.0%	58

Top Recruiting Companies

The Mechanical Engineering program at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN attracts top-tier companies across multiple sectors. Some of the leading recruiters include:

• General Motors (GM): Offers roles in vehicle design, manufacturing processes, and R&D.
• Tata Motors: Provides opportunities in automotive engineering and product development.
• Siemens India: Focuses on automation, energy systems, and digital solutions.
• Airbus India: Offers positions in aerospace engineering and aircraft design.
• ABB India: Provides roles in robotics, automation, and power systems.
• Indian Oil Corporation (IOC): Offers opportunities in energy systems and process engineering.
• Bosch India: Focuses on automotive components and industrial automation.
• Honeywell India: Provides roles in HVAC systems, control systems, and smart buildings.
• Nestle India: Offers positions in food processing and packaging engineering.
• Caterpillar India: Provides opportunities in heavy machinery and construction equipment design.
• Microsoft India: Offers roles in software development, machine learning, and AI integration in engineering systems.
• Amazon India: Focuses on logistics, automation, and supply chain optimization.
• Goldman Sachs: Provides roles in quantitative finance and risk analysis for engineering products.
• Accenture: Offers consulting and technology roles that leverage mechanical engineering knowledge.
• Infosys: Provides positions in automation, product design, and digital transformation projects.

Sector-Wise Analysis

The career paths for Mechanical Engineering graduates are diverse and span across multiple sectors:

• IT/Software: Graduates often find roles in software development, AI integration, and automation tools. Companies like Microsoft, Amazon, and Infosys frequently recruit our students.
• Core Engineering: This sector includes automotive, aerospace, and manufacturing companies such as GM, Tata Motors, Siemens, and ABB, where graduates contribute to product design and process optimization.
• Finance: Some graduates enter quantitative finance roles at firms like Goldman Sachs, where they apply engineering principles to financial modeling and risk analysis.
• Consulting: Consulting firms like Accenture and McKinsey value the problem-solving skills of mechanical engineers for complex business challenges.
• Analytics: Graduates often work in data analytics roles, analyzing performance metrics and optimizing systems using engineering insights.
• PSUs: Government enterprises such as Indian Oil Corporation and BHEL offer stable career paths with significant growth potential.

Internship Season

The internship season is a crucial part of the academic experience, providing students with real-world exposure and industry connections. The process typically begins in the third year, with companies visiting campus for interviews and selection rounds.

Historically, students have secured internships at top companies such as General Motors, Siemens, and Tata Motors. Stipend ranges vary by company and role but generally range from INR 30,000 to INR 80,000 per month. Many students receive full-time offers after completing their internships, highlighting the value of practical experience in the industry.

Fees

The fee structure for the B.Tech Mechanical Engineering program at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN is designed to be transparent and affordable while ensuring access to high-quality education. The total cost for the four-year program includes tuition, hostel, mess, and other charges.

Fee Structure (Per Semester)

Head	First Year (INR)	Second Year (INR)	Third Year (INR)	Fourth Year (INR)
Tuition Fee	95000	95000	95000	95000
Hostel Rent	60000	60000	60000	60000
Mess Advance	35000	35000	35000	35000
Student Benevolent Fund	2000	2000	2000	2000
Medical Fees	3000	3000	3000	3000
Gymkhana Fees	1000	1000	1000	1000
Examination Fees	2500	2500	2500	2500
Total	203000	203000	203000	203000

Fee Components Explanation

• Tuition Fee: Covers instruction, laboratory sessions, and administrative costs.
• Hostel Rent: Includes accommodation in campus hostels with shared amenities.
• Mess Advance: Prepaid monthly meal charges to ensure smooth dining services.
• Student Benevolent Fund: A small contribution towards student welfare activities and scholarships.
• Medical Fees: Covers basic healthcare services provided by the campus medical center.
• Gymkhana Fees: Supports sports and recreational facilities on campus.
• Examination Fees: Covers evaluation, grading, and administrative costs for exams.

Hostel & Mess Charges

The hostel accommodation at JAWAHARLAL INSTITUTE OF TECHNOLOGY BORAWAN offers a comfortable living environment with shared facilities. There are three types of rooms available:

• Single Occupancy Room: INR 60,000 per year
• Double Occupancy Room: INR 50,000 per year
• Triple Occupancy Room: INR 40,000 per year

The mess billing system is straightforward and includes:

• Monthly Advance Payment: Students pay a fixed amount in advance for meals.
• Rebate Policy: Students can apply for rebates during holidays or if they are absent for valid reasons.
• Special Dietary Options: Vegetarian, non-vegetarian, and special diets are available upon request.

Fee Waivers, Concessions, and Scholarships

The institute offers various financial assistance options to support students from economically disadvantaged backgrounds:

• SC/ST/PwD Category: Full waiver of tuition fees with partial concession on hostel charges.
• EWS Category: 50% concession on tuition fees and full waiver on hostel charges.
• MCM (Minority Community): 25% concession on tuition fees.
• Income Slabs for Scholarships:
  • Below INR 2 lakhs: 100% scholarship
  • INR 2-4 lakhs: 50% scholarship
  • INR 4-6 lakhs: 25% scholarship

Applications for fee waivers and scholarships are submitted online through the official portal. Detailed documentation of income and family background is required.

Payment Procedures & Refund Policy

The payment process is managed through an automated system with clear deadlines and late fees:

• Payment Deadlines: Fees must be paid within the first week of each semester or risk incurring late fees.
• Late Fee Calculation: INR 1000 per day for delayed payments beyond the deadline.
• Refund Policy:
  • Withdrawal before commencement of classes: Full refund minus administrative charges.
  • Withdrawal after commencement: Refund based on percentage of attendance and course completion.