BS in Aerospace Engineering

Undergraduate Entry Requirements

Application Fee: $85

Academic Requirements: Prospective undergraduate students are required to have a minimum academic achievement of 80% or above in their previous educational qualifications.

English language proficiency:

• IELTS Requirement: An overall IELTS score of 6.5 is required.
• TOEFL Requirement: A minimum overall score of 79 is often required.
• PTE Requirement: A minimum overall score of 53 is often required.

Students must provide:

• academic marksheets & transcripts
• letters of recommendation
• a personal statement - SOP
• passport
• other supporting documents as required by the university.

It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.

The University of Kansas (KU) in the United States is fostering a diverse and inclusive academic community, and this dedication extends to providing scholarship opportunities for international students. These scholarships aim to support and recognize the academic achievements and contributions of students from around the world.

Global Jayhawk Scholarship: The Global Jayhawk Scholarship is specifically designed for incoming undergraduate international students. This merit-based scholarship takes into account academic achievements, leadership qualities, and a cultural diversity. The award amounts vary, and recipients are selected based on a competitive application process.

International Excellence Award: The International Excellence Award is another notable scholarship program at KU. It is open to both undergraduate and graduate international students across various disciplines. This scholarship recognizes outstanding academic achievements, leadership potential, and the ability to contribute to the university community. Recipients may receive partial to full tuition coverage.

OIP Scholarships: The Office of International Programs (OIP) at KU administers several scholarships to support international students. These scholarships may cover tuition, living expenses, or research-related costs. OIP scholarships often emphasize cultural exchange, community engagement, and academic excellence.

Departmental Scholarships: Many academic departments within the University of Kansas offer department-specific scholarships for international students. These scholarships are often tied to academic performance, research endeavors, or contributions to the department's goals. Prospective students are encouraged to check with their intended academic departments for available opportunities.

Graduates of the Bachelor of Science (BS) program in Aerospace Engineering from the University of Kansas are well-equipped with the knowledge and skills needed to pursue diverse and rewarding careers in the aerospace industry. The program's emphasis on rigorous education, hands-on experience, and a STEM-designated curriculum prepares graduates for a range of exciting career options within the field of aerospace engineering.

Aerospace Engineer: One of the primary career paths for BS in Aerospace Engineering graduates is becoming an aerospace engineer. Aerospace engineers design, develop, and test aircraft, spacecraft, and related systems. They work on projects ranging from designing new aircraft components to developing propulsion systems and ensuring compliance with safety standards.

Aeronautical Engineer: Graduates can pursue careers as aeronautical engineers, focusing on the design and development of aircraft. Aeronautical engineers may work on improving aerodynamics, designing wings, and optimizing aircraft structures to enhance performance and fuel efficiency.

Avionics Engineer: For those interested in the electronic systems of aircraft, graduates can become avionics engineers. Avionics engineers design and oversee the installation of electronic systems, including navigation systems, communication systems, and control systems, ensuring the efficient and safe operation of aircraft.

Propulsion Engineer: Individuals with a specific interest in aircraft propulsion can specialize as propulsion engineers. Propulsion engineers work on developing and improving propulsion systems, such as jet engines or rocket engines, to enhance efficiency, power, and environmental sustainability.

Spacecraft Systems Engineer: Graduates can pursue careers as spacecraft systems engineers, contributing to the design and development of systems for spacecraft and satellites. They may work on mission planning, payload integration, and ensuring the functionality of systems in the unique conditions of space.

Structural Engineer - Aerospace: For those interested in the structural integrity of aircraft and spacecraft, graduates can become aerospace structural engineers. These professionals focus on designing and analyzing the structural components of aerospace vehicles, ensuring they meet safety and performance standards.

Flight Test Engineer: Flight test engineers play a crucial role in assessing the performance and safety of aircraft. Graduates can work in flight testing, conducting experiments, collecting data, and analyzing results to ensure that aircraft meet design specifications and regulatory requirements.

Systems Integration Engineer: Systems integration engineers work on integrating various components and subsystems to ensure the seamless operation of aerospace systems. Graduates in this role may oversee the integration of avionics, propulsion, and structural systems in aircraft or spacecraft.

Research and Development Engineer: Those interested in pushing the boundaries of aerospace technology can pursue careers as research and development engineers. These professionals work on innovative projects, exploring new technologies, materials, and design concepts to advance the field of aerospace engineering.

Manufacturing Engineer - Aerospace: Graduates can contribute to the production of aerospace vehicles by becoming manufacturing engineers. Manufacturing engineers focus on optimizing production processes, ensuring quality control, and implementing cost-effective manufacturing methods for aerospace components.

Flight Simulation Engineer: Flight simulation engineers develop and maintain flight simulation systems used for pilot training and aircraft testing. Graduates in this role may work on creating realistic simulations to train pilots and simulate various flight scenarios.

Space Mission Planner: For those interested in space exploration, graduates can become space mission planners. Space mission planners are involved in planning and coordinating the logistics of space missions, considering factors such as trajectory, payload deployment, and mission objectives.

Air Traffic Controller: While not directly tied to engineering, some graduates may choose to become air traffic controllers. Air traffic controllers play a critical role in ensuring the safe and efficient movement of aircraft within airspace, using communication and radar systems to manage air traffic.

Project Manager - Aerospace: Project managers in the aerospace industry oversee the planning and execution of aerospace projects. Graduates in this role may coordinate teams, manage budgets, and ensure that projects are completed on time and within specifications.

Consultant - Aerospace Engineering: Graduates can leverage their expertise as consultants in the aerospace engineering field. Consultants may work with aerospace companies, government agencies, or research institutions, providing specialized advice on engineering projects, regulatory compliance, and technological advancements.

Entrepreneur in Aerospace Technology: For those with entrepreneurial aspirations, graduates can start their ventures in aerospace technology. Entrepreneurs may focus on developing innovative aerospace products, services, or technologies, contributing to the growth and evolution of the aerospace industry.

Government Aerospace Engineer: Graduates can pursue opportunities in government agencies involved in aerospace, such as NASA or the Department of Defense. Government aerospace engineers may work on projects related to space exploration, national defense, or aeronautical research.

Educator in Aerospace Engineering: Some graduates may choose to share their knowledge by becoming educators in aerospace engineering. Educators may teach at universities, colleges, or technical institutes, inspiring the next generation of aerospace engineers.

Unmanned Aerial Vehicle (UAV) Engineer: With the increasing importance of UAVs, graduates can specialize as UAV engineers. UAV engineers design and develop unmanned aerial vehicles for various applications, including surveillance, data collection, and research.

Satellite Systems Engineer: For those interested in satellite technology, graduates can become satellite systems engineers. These professionals work on the design, development, and maintenance of satellite systems, contributing to telecommunications, Earth observation, and space exploration.