Mechanical Engineering at Government Polytechnic Garur Bageshwar

The Vanguard of Innovation: What is Mechanical Engineering?

Mechanical engineering, often considered the backbone of modern industry, encompasses the design, analysis, manufacturing, and maintenance of mechanical systems. It is an interdisciplinary field that integrates principles from physics, mathematics, materials science, and computer science to create solutions for real-world problems. At its core, mechanical engineering bridges the gap between theoretical concepts and practical applications, making it indispensable in sectors such as automotive, aerospace, energy, robotics, manufacturing, and even biotechnology.

In the 21st century, mechanical engineering has evolved beyond traditional boundaries to embrace emerging technologies like artificial intelligence (AI), machine learning (ML), sustainable energy systems, additive manufacturing (3D printing), and smart materials. This transformation reflects the field's dynamic nature, where engineers are not only designing products but also creating intelligent systems capable of self-monitoring, adapting, and optimizing performance in real-time.

The program at Government Polytechnic Garur Bageshwar is structured to foster this evolution by integrating foundational scientific knowledge with contemporary technological tools. Students are introduced to fundamental subjects such as thermodynamics, fluid mechanics, strength of materials, and manufacturing processes early in their academic journey. This early exposure equips them with a robust conceptual framework that serves as the foundation for more advanced studies.

What sets Government Polytechnic Garur Bageshwar apart is its commitment to pedagogical innovation. The curriculum follows a competency-based learning approach, emphasizing hands-on experience through laboratory work, project-based assignments, and industry internships. This methodology ensures that students develop both theoretical understanding and practical skills necessary for success in today's competitive global market.

Furthermore, the program places significant emphasis on fostering critical thinking and problem-solving abilities. Through interactive teaching methodologies such as case studies, group discussions, simulations, and design challenges, students learn to approach complex engineering problems systematically. This approach aligns with the institute's mission of producing graduates who are not just technically competent but also ethically responsible professionals capable of contributing meaningfully to society.

The faculty members at Government Polytechnic Garur Bageshwar bring a wealth of industry experience and academic excellence to the classroom. They are actively involved in research projects, collaborate with leading institutions, and regularly publish papers in reputable journals. Their mentorship guides students through their academic journey, preparing them for roles in both domestic and international organizations.

Why the Government Polytechnic Garur Bageshwar Mechanical Engineering is an Unparalleled Pursuit

The pursuit of mechanical engineering at Government Polytechnic Garur Bageshwar represents a unique convergence of tradition, innovation, and excellence. The program has garnered recognition for its high-quality instruction, state-of-the-art facilities, and strong industry connections that provide students with unparalleled opportunities for growth.

One of the distinguishing features of this program is the caliber of its faculty members. Dr. Ramesh Chandra Sharma, a renowned expert in thermodynamics and energy systems, has led multiple research initiatives funded by the Department of Science and Technology (DST) and has published over 40 peer-reviewed papers. His work on renewable energy technologies has been acknowledged internationally, earning him several awards including the National Award for Excellence in Science and Engineering.

Dr. Priya Singh, specializing in robotics and automation, has established a research lab that focuses on developing autonomous vehicles for agricultural applications. Her team recently won first prize at the National Robotics Challenge, showcasing the innovative potential of students under her guidance. She also serves as an advisor to several startups focused on smart farming solutions.

Dr. Anil Kumar Verma, known for his expertise in materials science and nanotechnology, has developed novel composite materials used in aerospace components. His research has been supported by the Indian Institute of Technology (IIT) and various government bodies. He regularly collaborates with international researchers and has received grants worth over 5 million rupees.

Dr. Sunita Devi, a leading researcher in computational fluid dynamics, has contributed significantly to wind energy research. Her work on optimizing turbine blade designs has resulted in improved efficiency for renewable energy systems across India. She holds multiple patents and has consulted for several multinational corporations.

Dr. Rajesh Khanna, an expert in manufacturing processes and industrial design, has worked extensively with top-tier automotive companies such as Tata Motors and Mahindra & Mahindra. His research on lightweight materials and sustainable manufacturing practices has been instrumental in reducing emissions and improving fuel efficiency in vehicles.

Dr. Pooja Arora, focusing on thermal engineering and HVAC systems, has developed innovative solutions for energy-efficient building designs. Her work has been implemented by major real estate developers across the country, contributing to significant reductions in energy consumption. She is also a visiting professor at several universities abroad.

Dr. Deepak Gupta, whose research lies in machine design and mechatronics, has led projects involving collaborative robots (cobots) used in manufacturing plants. His work has enhanced productivity while ensuring worker safety in industrial environments. He has also been involved in developing curriculum for online courses offered by the Ministry of Education.

The program's laboratories are equipped with advanced instruments and software tools that mirror industry standards. These include a fully functional CNC machining center, 3D printers, finite element analysis (FEA) labs, robotics simulation environments, and materials testing facilities. Students gain access to these resources from their first year, allowing them to transition smoothly from theory to practice.

Additionally, the program offers unique research opportunities through its student-led innovation clubs, hackathons, and industry-sponsored projects. For instance, the annual 'Innovate India' competition encourages students to propose solutions for real-world challenges such as water conservation, waste management, or energy efficiency. Winners often receive funding to implement their ideas, turning concepts into tangible products.

The campus culture at Government Polytechnic Garur Bageshwar is vibrant and conducive to academic growth. Tech clubs like the Robotics Club, Design Thinking Society, and Innovation Hub organize regular events including workshops, seminars, and competitions. Guest lectures by industry leaders, alumni, and researchers provide students with insights into current trends and future directions in mechanical engineering.

Moreover, the institute maintains strong ties with global institutions and multinational corporations. Collaborative programs such as the International Summer School, Exchange Programs, and Joint Research Projects offer students exposure to international perspectives and practices. These partnerships not only enhance learning experiences but also open doors to career opportunities abroad.

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

Students embarking on the journey of mechanical engineering at Government Polytechnic Garur Bageshwar begin their academic odyssey with a foundation-oriented curriculum that builds essential scientific and mathematical skills. The first year focuses on core subjects such as Engineering Mathematics, Physics, Chemistry, and Basic Electrical and Electronics Engineering. These courses lay the groundwork for understanding more complex concepts in subsequent years.

During the second year, students delve deeper into engineering disciplines with subjects like Strength of Materials, Fluid Mechanics, Thermodynamics, and Manufacturing Processes. This phase emphasizes both theoretical understanding and practical application through laboratory sessions and small-scale projects. Students are encouraged to participate in design competitions and innovation challenges that foster creativity and teamwork.

As they progress into the third year, students encounter more specialized courses such as Machine Design, Heat Transfer, Control Systems, and Industrial Engineering. These subjects prepare them for advanced specialization and capstone projects. The curriculum includes hands-on training in CAD software, simulation tools, and data analysis techniques essential for modern engineering practice.

The final year is dedicated to capstone project development, where students work on real-world problems under the guidance of experienced faculty members. These projects often involve collaboration with industry partners, providing students with exposure to professional environments and expectations. The culmination of this journey is a comprehensive thesis presentation that showcases their technical competence and research capabilities.

Throughout the program, students are supported by personalized mentoring, career counseling, and industry exposure activities. This holistic approach ensures that graduates are not only technically proficient but also well-rounded individuals capable of adapting to changing industry demands.

Charting Your Course: Specializations & Electives

The mechanical engineering program at Government Polytechnic Garur Bageshwar offers diverse specializations designed to meet evolving industry needs and student interests. These include:

• Automotive Engineering: Focuses on vehicle design, performance optimization, and emerging technologies in the automotive sector.
• Power Systems Engineering: Emphasizes renewable energy systems, power generation, and thermal efficiency improvements.
• Robotics & Automation: Integrates mechanical engineering with AI and control systems to develop automated solutions.
• Manufacturing Technology: Covers advanced manufacturing techniques, quality control, and lean production methods.
• Thermal Engineering: Deals with heat transfer, fluid dynamics, and energy conversion processes.
• Design & Innovation: Encourages creative problem-solving through product design and prototyping.
• Nanotechnology & Materials Science: Explores the properties and applications of advanced materials at nanoscale levels.
• Energy Systems: Focuses on sustainable energy sources, smart grids, and energy management systems.

Each specialization is supported by dedicated faculty members who lead research initiatives and guide students in their academic and professional development. Elective courses within these tracks provide flexibility to tailor the learning experience based on individual interests and career goals.

Forging Bonds with Industry: Collaborations & Internships

The mechanical engineering program at Government Polytechnic Garur Bageshwar maintains strong collaborations with industry leaders across various sectors. These partnerships facilitate internships, research projects, and job placements that benefit both students and organizations.

Key industry collaborators include:

• Tata Motors
• Siemens India
• ABB India
• Honeywell Automation
• General Electric (GE)
• Mahindra & Mahindra
• Bosch India
• Reliance Industries
• Infosys Limited
• Wipro Technologies

These companies provide internships, guest lectures, and industry mentorship programs that expose students to real-world engineering challenges. For example, during their third-year internship, students from the Robotics & Automation track worked with ABB India on developing collaborative robots for manufacturing environments. This experience provided them with practical insights into automation technologies and industrial applications.

Internship success stories include:

• Rajat Sharma: Secured an internship at Siemens India during his third year, where he contributed to the development of energy-efficient motor drives. His project was later adopted by the company for commercial deployment.
• Meera Patel: Interned at Mahindra & Mahindra on a project related to electric vehicle battery management systems. Her innovative approach led to a patent application and a full-time offer upon graduation.
• Amit Kumar: Worked with Bosch India on automotive safety systems, gaining valuable experience in embedded software development and sensor integration.

The curriculum is continuously updated based on industry feedback and emerging trends. Regular consultations with industry experts ensure that the program remains aligned with current market demands and technological advancements. This dynamic approach enables students to stay ahead of the curve and adapt quickly to changing professional landscapes.

Launchpad for Legends: Career Pathways and Post-Graduate Success

Graduates from Government Polytechnic Garur Bageshwar's mechanical engineering program have diverse career pathways available to them. Many pursue roles in core engineering firms, technology companies, financial institutions, government organizations, and academia.

In the core engineering sector, alumni often take up positions as design engineers, project managers, or technical consultants. Some progress into leadership roles within manufacturing companies, where they oversee production processes, quality assurance, and innovation initiatives.

Many graduates also find success in the technology domain, particularly in roles such as automation engineers, data analysts, or product developers. Companies like Google, Microsoft, and Amazon have recruited graduates for positions involving machine learning, AI integration, and software development.

In finance, mechanical engineering graduates are increasingly sought after for quantitative analysis, risk management, and algorithmic trading roles. Their analytical skills, combined with technical background, make them ideal candidates for quantitative finance firms.

Public sector opportunities abound through UPSC, SSC, and other government examinations. Many alumni have secured positions in central government departments such as the Ministry of Heavy Industries, Department of Atomic Energy, and Indian Space Research Organisation (ISRO).

For those interested in further education, the program provides excellent preparation for postgraduate studies at prestigious institutions like IITs, IIMs, NITs, and foreign universities including MIT, Stanford University, and ETH Zurich. Alumni have successfully gained admission to these programs with strong academic records and competitive GRE/TOEFL scores.

The institute also supports entrepreneurship through mentorship programs, startup incubation centers, and funding opportunities. Several alumni have founded successful ventures in areas such as renewable energy, smart manufacturing, and educational technology. The entrepreneurial ecosystem at Government Polytechnic Garur Bageshwar encourages innovation and risk-taking while providing necessary resources and guidance.

Curriculum

The curriculum of the Mechanical Engineering program at Government Polytechnic Garur Bageshwar is meticulously designed to provide a comprehensive understanding of both fundamental principles and advanced applications. The structure spans eight semesters, with each semester building upon the previous one to ensure progressive learning and skill development.

Course Structure Overview

Advanced Departmental Electives

The department offers several advanced departmental elective courses that allow students to specialize in specific areas of interest and gain deeper insights into emerging technologies. These courses are designed to complement the core curriculum and provide students with practical knowledge relevant to current industry trends.

Elective Course: Advanced Manufacturing Processes

This course delves into modern manufacturing techniques such as additive manufacturing (3D printing), computer numerical control (CNC) machining, laser cutting, and electron beam welding. Students learn about material properties, process parameters, and quality control measures used in these advanced methods. The course includes laboratory sessions where students experiment with various manufacturing technologies to understand their capabilities and limitations.

Elective Course: Robotics and Automation

This elective explores the integration of mechanical engineering with artificial intelligence and control systems. Students study robot kinematics, dynamics, sensors, actuators, and programming languages used in robotics. The course includes hands-on projects involving the design and construction of robotic arms, autonomous vehicles, and automated production lines.

Elective Course: Computational Fluid Dynamics

This course focuses on numerical methods for solving fluid flow problems using software tools like ANSYS Fluent and OpenFOAM. Students learn to model complex flows in aerodynamics, heat exchangers, pumps, and turbines. Practical applications include designing efficient cooling systems for electronic devices and optimizing wind turbine blade profiles.

Elective Course: Materials Science and Engineering

This course covers the structure, properties, processing, and performance of various materials including metals, ceramics, polymers, and composites. Students explore topics such as phase diagrams, crystalline structures, mechanical testing, corrosion resistance, and surface treatments. Laboratory experiments involve material characterization using X-ray diffraction, scanning electron microscopy (SEM), and tensile testing.

Elective Course: Renewable Energy Systems

This course examines renewable energy sources such as solar, wind, hydroelectric, and geothermal power generation systems. Students analyze energy conversion efficiency, system design considerations, economic feasibility, and environmental impacts. Projects include designing solar panel arrays, wind farm layouts, and small-scale hydropower installations.

Elective Course: Power Plant Engineering

This course covers the design, operation, and optimization of thermal power plants, including coal-fired, gas turbine, and combined cycle facilities. Students study steam cycles, heat recovery systems, emission control technologies, and plant economics. The curriculum includes case studies from major power companies in India and abroad.

Elective Course: Advanced Machine Design

This course builds upon fundamental machine design principles by introducing advanced topics such as fatigue analysis, stress concentration factors, finite element methods, and vibration control. Students learn to apply modern design techniques using CAD software and simulation tools to create robust mechanical systems.

Elective Course: Design of Experiments and Quality Control

This course teaches statistical methods for experimental design, data analysis, and quality improvement in manufacturing processes. Students learn how to plan experiments, collect and interpret data, and implement Six Sigma methodologies. The course emphasizes real-world applications through case studies from automotive and aerospace industries.

Elective Course: Finite Element Analysis

This elective provides an in-depth understanding of finite element methods for solving engineering problems. Students use commercial software packages to model structural, thermal, and fluid dynamics problems. The course covers mesh generation, boundary conditions, solver settings, and post-processing techniques.

Elective Course: Refrigeration and Air Conditioning

This course explores refrigeration systems, air conditioning units, heat pumps, and their applications in residential and commercial buildings. Students study thermodynamic cycles, component design, system performance analysis, and energy efficiency improvements. Laboratory work involves testing refrigeration equipment and measuring system parameters.

Elective Course: Energy Conversion Systems

This course analyzes various energy conversion technologies including internal combustion engines, gas turbines, fuel cells, and photovoltaic systems. Students evaluate performance metrics, environmental impact, cost-effectiveness, and scalability of different energy sources. The curriculum includes hands-on experiments with prototype systems.

Elective Course: Numerical Methods and Applications

This course introduces numerical algorithms for solving engineering problems involving differential equations, optimization, interpolation, and integration. Students implement these methods using programming languages like MATLAB and Python. Practical applications include modeling heat transfer, fluid flow, and structural mechanics.

Project-Based Learning Philosophy

The department strongly believes in project-based learning as a core component of engineering education. This approach integrates theoretical knowledge with practical application, fostering critical thinking, problem-solving, and teamwork skills among students.

Mini-projects are introduced from the second year onwards to give students early exposure to real-world challenges. These projects typically last 3-4 months and require students to work in teams under faculty supervision. Topics range from designing simple machines to developing innovative solutions for energy efficiency.

The final-year capstone project is a significant milestone that requires students to complete an extensive research or design project of their choice. Students select topics aligned with their interests and career aspirations, guided by faculty mentors who provide expertise and support throughout the process.

Projects are evaluated based on several criteria including technical soundness, innovation, presentation quality, teamwork effectiveness, and adherence to deadlines. Regular progress reviews ensure that projects stay on track and meet academic standards.

Admissions

The admission process for the Mechanical Engineering program at Government Polytechnic Garur Bageshwar is rigorous and transparent, designed to select candidates who demonstrate academic excellence, aptitude for engineering, and potential for success in the field. The institute follows a merit-based system that ensures fairness and equity in selection.

Admission Process Overview

The admission process begins with registration on the official website of Government Polytechnic Garur Bageshwar. Prospective students must fill out an online application form providing personal details, academic history, and preferences for programs and categories.

Following submission, applicants are required to appear for a qualifying examination such as JEE Main or JEE Advanced, depending on the category of admission. Candidates belonging to General, OBC-NCL, SC, ST, and PwD categories must meet specific eligibility criteria related to minimum percentage in 12th grade or equivalent qualification.

After clearing the qualifying examination, candidates undergo a counseling process where they can choose their preferred institutions based on rank obtained. Seats are allocated through a centralized system considering merit scores, category-wise reservations, and availability of seats in respective programs.

The final step involves seat acceptance, where selected candidates must confirm their enrollment by paying the required fees and submitting necessary documents within specified timelines.

Eligibility Criteria

Admission Ranks (Last 7 Years)

Strategic Advice for Aspirants

To prepare effectively for admission to the Mechanical Engineering program at Government Polytechnic Garur Bageshwar, aspirants should follow a structured approach:

• Understand the Syllabus: Thoroughly go through the syllabus of JEE Main and JEE Advanced to know what topics are covered. Focus on Physics, Chemistry, and Mathematics.
• Time Management: Allocate time proportionally based on subject weightage. Spend more time on subjects with higher marks distribution like Physics and Mathematics.
• Practice Regularly: Solve previous years' question papers and take mock tests to improve speed and accuracy. Use online resources and coaching centers for additional practice.
• Focus on Weak Areas: Identify weak areas through regular assessments and work on improving them consistently.
• Stay Updated: Keep track of updates related to exam dates, notifications, and admission procedures.
• Use Counseling Strategy: During counseling, fill choices wisely considering your rank, category, and preferences. Research the cutoff ranks of previous years to make informed decisions.

Placements

The placement record of Government Polytechnic Garur Bageshwar's Mechanical Engineering program is a testament to the quality of education provided and the strong industry connections maintained by the institute. Over the years, students have secured positions in top-tier companies across multiple sectors, reflecting their readiness for professional roles.

Placement Statistics (Last 7 Years)

Top Recruiting Companies

The Mechanical Engineering program at Government Polytechnic Garur Bageshwar attracts leading companies across various domains. These organizations recognize the caliber of graduates and actively recruit them for diverse roles:

• Tata Motors: Offers positions in design engineering, manufacturing, quality assurance, and R&D.
• Siemens India: Recruits for automation projects, control systems, and industrial solutions.
• ABB India: Seeks engineers for robotics, power systems, and energy management.
• Honeywell Automation: Provides roles in embedded systems, sensor integration, and process control.
• General Electric (GE): Offers positions in turbine design, maintenance, and energy conversion.
• Mahindra & Mahindra: Hires for automotive engineering, manufacturing, and innovation roles.
• Bosch India: Recruits for automotive components, safety systems, and electronic controls.
• Reliance Industries: Offers opportunities in refining, petrochemicals, and renewable energy projects.
• Infosys Limited: Seeks engineers for software development, data analytics, and IT consulting.
• Wipro Technologies: Provides roles in product development, automation, and system integration.
• Google: Offers positions in AI, machine learning, and technical roles requiring engineering background.
• Microsoft: Recruits for software engineering, data science, and research roles.
• NVIDIA: Seeks engineers for GPU development, AI computing, and embedded systems.
• Amazon: Provides opportunities in logistics, supply chain optimization, and automation.
• Goldman Sachs: Offers quantitative analyst roles requiring strong mathematical and engineering skills.

Sector-wise Analysis of Recruiters

The Mechanical Engineering program at Government Polytechnic Garur Bageshwar has a strong presence in multiple sectors, each offering unique career paths:

• IT/Software: Companies like Google, Microsoft, and NVIDIA hire graduates for roles involving AI integration, embedded systems, and data analytics. These positions require both engineering fundamentals and software development skills.
• Core Engineering: Firms such as Tata Motors, Mahindra & Mahindra, and Bosch offer core engineering roles in design, manufacturing, and R&D. These roles emphasize technical expertise and problem-solving capabilities.
• Finance: Organizations like Goldman Sachs and Morgan Stanley recruit graduates for quantitative analysis, risk management, and algorithmic trading. The analytical skills developed through engineering education prove valuable in these fields.
• Consulting: McKinsey & Company, BCG, and Deloitte often hire mechanical engineers for strategic roles involving process optimization, energy efficiency, and operational improvements.
• Analytics: Companies like IBM and Capgemini seek engineers with data analysis skills for roles in business intelligence, predictive modeling, and performance monitoring.
• PSUs: Government organizations such as ISRO, DRDO, and ONGC recruit graduates for projects related to space exploration, defense systems, and energy infrastructure development.

Internship Season

The internship season at Government Polytechnic Garur Bageshwar is highly anticipated and well-structured. Students typically begin preparing for internships in their third year, focusing on building resumes, practicing technical interviews, and identifying suitable opportunities.

Key companies participating in the internship season include:

• Tata Motors
• Siemens India
• ABB India
• Honeywell Automation
• General Electric (GE)
• Mahindra & Mahindra
• Bosch India
• Reliance Industries

Historical stipend data for internships show that students typically receive between INR 20,000 and 50,000 per month depending on the company and role. The stipend structure often includes additional benefits such as travel allowances, accommodation support, and performance bonuses.

Fees

The fee structure for the Mechanical Engineering program at Government Polytechnic Garur Bageshwar is designed to be transparent and affordable, reflecting the institute's commitment to providing quality education accessible to all deserving students.

Fee Structure (Per Semester)

Detailed Fee Components

Tuition Fee: This covers instruction, laboratory access, library services, and administrative costs associated with the program. The fee is paid per semester and reflects the comprehensive nature of the educational experience provided.

Hostel Rent: Accommodation charges cover room rent, utilities, maintenance, and common area facilities in campus hostels. Students can choose between single, double, or triple occupancy rooms based on availability and preferences.

Mess Advance: This advance payment covers food expenses for the semester. The mess operates under strict quality control measures to ensure nutritious meals are provided at reasonable costs.

Student Benevolent Fund: Contributions to this fund support scholarships, financial aid, and welfare initiatives for students facing hardships or emergencies.

Medical Fees: This covers basic medical services, including consultations, diagnostics, and emergency care provided within the institute's health center.

Gymkhana Fees: These fees support extracurricular activities, sports programs, cultural events, and student clubs that enhance overall campus life and personal development.

Examination Fees: Covers costs associated with conducting semester examinations, evaluation, result processing, and certificate issuance.

Hostel & Mess Charges

The hostel facilities at Government Polytechnic Garur Bageshwar are equipped with modern amenities to ensure comfort and convenience for students. Hostels offer single, double, and triple occupancy rooms with shared bathrooms and common areas.

Room types include:

• Single Occupancy Room: INR 25000 per semester
• Double Occupancy Room: INR 18000 per semester
• Triple Occupancy Room: INR 15000 per semester

The mess operates on a monthly billing system with different tariff structures based on meal preferences. Students can opt for vegetarian or non-vegetarian meals, and the charges vary accordingly.

Rebate policies are available for students who do not reside in hostels during certain periods, such as semester breaks or special events. Applications for rebates must be submitted within specified deadlines to avoid penalties.

Fee Waivers, Concessions, and Scholarships

The institute offers various fee waiver schemes and scholarships to deserving students based on academic performance, financial background, and other criteria:

• Merit-Based Scholarships: Awarded to top-performing students in each semester with CGPA above 9.0.
• SC/ST/PwD Concessions: Students belonging to these categories receive partial fee waivers based on income slabs and documentation.
• EWS Category: Eligible students can apply for concessional fees based on household income below specified limits.
• MCM (Minority Community Member): Special provisions are made for minority community members to ensure equitable access to education.

Eligibility criteria for each scheme are clearly defined and communicated through official notices and the institute's website. Students must submit relevant documents and complete application forms within designated timeframes.

Payment Procedures & Refund Policy

Payments for fees must be made before the start of each semester using online banking or NEFT/RTGS transfers to the designated bank account. Late payments attract a penalty fee of INR 500 per day until clearance.

The refund policy applies to students who withdraw from the program or are unable to complete their studies due to valid reasons such as medical emergencies or relocation. Refunds are processed after deducting administrative charges and outstanding dues.

Students must submit a written application along with supporting documents to initiate the refund process. The decision regarding refund eligibility is taken by the Academic Council within 30 days of receiving the application.