BTech in Aerospace Engineering

Bachelor of Technology (B.Tech.) - Aerospace Engineering

The B.Tech. in Aerospace Engineering is a four-year undergraduate programme that deals with aircraft and spacecraft development. It consists of two primary branches, aeronautical engineering and astronautical engineering. Aeronautical engineering at DBUU, one of the top Aerospace Engineering Colleges in Dehradun deals with aircraft; on the other hand, astronautical engineering deals with spacecraft. B.Tech. Aerospace Engineering involves learning and practicing physical science and mathematics to conduct research. The significant areas of specialization for a unit of aerospace engineers include thermodynamics, control system, aerodynamics, propulsion, celestial mechanics, and electronics, and the programme makes sure to familiarize students with all the areas.

Dev Bhoomi Uttarakhand University (DBUU), rated under top Aerospace Engineering colleges in Dehradun Uttarakhand through the advanced and comprehensive course curriculum of B.Tech. in Aerospace Engineering, aims to provide students the understanding of core concepts, including Fluid Mechanics, Structural Technicians, Aerodynamics, Fundamental and Applied Thermodynamics, Material Science, Propulsion Systems, Electronics, Control and Stability, and Fundamental Computational Methods to help them emerge as the potent professional in the domain. Accordingly, the student-centric approach also ensures to impart fundamental knowledge to the students and correspondingly expand their skillsets through practical training in well-equipped laboratories to prepare the motivated, creative, and innovative graduates to suffice the roles of aerospace engineers who can analyze, conceptualize, develop and construct mechanical systems to satisfy the contemporary requirements.

Salient Features

  • 17+ years of academic excellence
  • Focus on student-centered learning
  • Problem-based learning and industry-relevant curriculum
  • Best placement opportunities to get placed in high-end and reputed companies
  • Industrial training in reputable firms and organizations
  • The privilege of 100% placement guidance and support
  • Department-organized tech fests and hackathons
  • Industry visits, seminars, workshops, and guest lectures by eminent researchers and industry practitioners
  • Active student clubs and bodies
  • The multi-cultural and vibrant teaching environment

Duration & Eligibility

4 Years

Candidates must have passed Class 10+2 exam from a recognised board with Physics, Chemistry and Mathematics as core subjects (with 50% aggregate marks in core subjects)

Fee Structure

Course Fee Structure

Course Total Fees
Academic fee ( Per semester) ₹ 62,500/-

One Time Fee Structure

Application Fees ₹ 1,200 (Non-Refundable)
Admission Fees ₹ 5,000 (Non-Refundable)
Caution Money ₹ 1,500 (Refundable)
University Enrolment Fees ₹ 2,000 (Non-Refundable)

Program Educational Objectives (PEO's)


PEO-1 To train students to recognize the demand for innovative derivatives essential for the survival, security, and convenience of the community and adjust to technological innovations
PEO-2 To teach them to use the modern analytical, computational, and simulation tools and the numerous contrary strategies to manage the challenges faced in aeronautical and allied engineering domains
PEO-3 To train students to communicate effectively and disseminate ideas utilizing creative engineering instruments and display leadership skills
PEO-4 To prepare students to get hired as successful engineers in aeronautical and allied enterprises, become entrepreneurs, and further even be capable enough to seek higher studies if they desire
PEO-5 To instill in them the professional ethics, abilities to work in multicultural environments, promote social harmony, engage in community service, and contribute to improving and sustaining the green environment

Program Specific Objectives (PSO's)


PSO-1 To apply the understanding of structures, thermal sciences, aerodynamics, and control systems for the growth of aircraft techniques and subsystems
PSO-2 To impart the knowledge to use the apt engineering tools to model, investigate and unravel complex problems in the field of aeronautical engineering
PSO-3 To associate the understanding from the courses related to manufacturing, design, and management to function as an individual or authority in multidisciplinary groups and project implementations
PSO-4 To exhibit the capability to propose cost-effective optimized explanations for the aerospace sector utilizing a simulated environment of computer-aided manufacturing, computer-aided design, and computer-aided engineering
PSO-5 To effectively construct and disseminate the solutions formulated utilizing understandings from fundamental aerospace engineering, basic sciences, mathematics, and computational skills and tools

Job Opportunities The Course Might Lead To


After completing the Aerospace Engineering degree from the university, the graduates can select from an expansive range of professions, along with the positions in Design & Development, Marketing, Research, Field Service, Software Development & Teaching. The different profiles on which the aspirants can work are:

  • Design Engineer
  • Projects Engineer
  • Test Engineer
  • Structural Engineer
  • Aerospace Engineer
  • Aeronautical Engineer
  • Systems Integration Engineer etc.
ADMISSION 2022
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Admission 2022-23