How Do I Become An Aerospace Engineer
How Do I Become An Aerospace Engineer

How Do I Become An Aerospace Engineer

How Do I Become An Aerospace Engineer – Aerospace Engineering at has an innovative curriculum, excellent links with industry and cutting-edge facilities. is the perfect place to study aerodynamics, propulsion, structures, dynamics and materials.

You will put theory into practice, apply what you learn to the problems of aerospace design and take part in a group design project.

How Do I Become An Aerospace Engineer

The MEng has an extra year of study and can provide a faster route to status as a chartered engineer (CEng). It also has the option of integrating an industrial placement with further studies (subject to accreditation by RAeS).

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Important: if you are an international student who needs a Student Route visa to study in the UK, you will need an ATAS certificate if you wish to apply to the Aerospace Engineering MEng course. Read more.

Once you have completed the Aerospace Engineering Foundation Year (UCAS code H408), you can transfer to the Aerospace Engineering BEng(Hons), subject to satisfactory grades.

I would advise a female applicant to find a mentor that you aspire to be like, and find supportive individuals as a source of advice, shared experiences and someone to guide you in your career.”

You can choose to take an optional sandwich year between years 2 and 3 (BEng (Hons)) and year 3 (MEng only). MEng students must study and earn 120 credits in Year 3 while undertaking their industrial placement using work-based learning by undertaking an industrial individual project as well as applied business and management analysis. They must also study an aerospace engineering science module using a blended/distance learning model (subject to RAeS accreditation).

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The Space Technology pathway is the same as the standard program for the first two years, but students are expected to work on a space-related project in the Engineering Project Management module at level 5. In the final year, students must take Space Vehicle Design and work on a space-related individual project and group project.

Year 1 provides an introduction to aerospace engineering under Professional Practice, and will underpin the skills and knowledge required for further specialist studies. You will study a mix of analytical subjects, such as mathematics, structures, dynamics, electronics, thermodynamics and engineering applications, together with an introduction to engineering.

The main aim of this module is to give students a taste of what is involved in engineering design and to develop the good academic and professional practice needed to succeed during the course and achieve professional status.

The module develops good academic and professional practice by developing skills in self-reflection and recording professional development. The basic principles for measurement and production processes in a workshop and test environment are also covered in the module.

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The module introduces you to the fundamentals of structural analysis (statics and dynamics) and the mechanical behavior of a wide range of engineering materials. The mechanics section provides an understanding of the behavior of particles and rigid bodies while stationary and in motion. Bodies such as trusses in equilibrium are studied and the external and internal parameters such as force, moment, tension, strain etc. are defined and calculated. The analysis of structural components will be developed with theoretical and numerical skills necessary in the design of real structures. This section also introduces the dynamics of particles and rigid bodies with their engineering applications. Material testing methods will be used to determine the deformations and failures of the various engineering materials. A range of materials for engineering applications, such as metals, ceramics, polymers and composites, will be studied, including their carbon footprint and their impact on the environment. The module is delivered primarily through lectures supported by tutoring sessions and laboratories.

The aim of this module is to provide a thorough background in engineering mathematics and equip you with the mathematical skills essential to solving engineering problems. The module also introduces the use of computing methods in engineering. The mathematics section includes algebra, functions, logarithms, trigonometry, calculus, differential equations and vectors. The data section covers the use of software for problem solving, visualization and data representation. Emphasis is placed on using mathematical and computational tools to solve technical problems.

This module introduces you to the fundamentals of fluid mechanics and engineering. Taught to mechanical, aerospace and civil engineering students, it will use this broad audience to enhance a collaborative learning environment. The fluid mechanics section will cover the basic properties of fluids and the most important basic conservation equations used and their engineering applications. It also introduces the concept of dimensions and the SI units of measurement. The Engineering Science Section will consider subject areas relevant to each discipline. For mechanical and aerospace engineering students, it will introduce thermodynamics and electrical engineering, and for civil engineering students, it will consider soil mechanics. The Thermodynamics subject covers the key concepts of system, work, heat and the most important laws of thermodynamics with special reference to their technical applications. The electrical engineering section covers the basic concepts and electrical quantities such as charge, current, resistance, voltage, power and energy before looking at basic electrical components and how they can be incorporated into both AC and DC circuits. The soil mechanics course will introduce the basic properties of soil and their essential aspects.

Year 2 will introduce you to specialist topics in aerospace engineering such as aerodynamics, propulsion, structures, dynamics and materials. It includes further studies of mathematics, electronics, control and data processing. A design-oriented module (Aerospace Engineering Design and Project Management) will apply the principles taught in the other modules to aerospace design problems.

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The module draws on the learning experiences of modules EG4012 and EG4013 and provides further learning for the potential aerospace engineer. The fundamentals of aerodynamics and aerospace propulsion are introduced with the aim of providing the ability to analyse, formulate and solve elementary problems. This is substantiated by covering the mathematics required for the BEng/MEng aeronautical engineering course. The mathematics side of the module is taught in connection with solving technical problems.

Two-dimensional potential flows, production of aerodynamic forces, wind tunnel testing, compressible flows, shock waves and computational fluid dynamics (CFD) are some of the topics covered in the aerodynamics part of the module. The progress page revisits and expands on the conservation of energy and the laws of thermodynamics. Gas turbines, heat transfer and combustion processes are some of the other areas receiving attention. Solutions of ordinary and partial differential equations, Eigen values ​​and Eigen vectors are some of the topics considered in the analysis method side of the module.

This module builds deals with advanced electronic systems and concepts from classical control, including feedback control systems and analysis of their response and the effect of the feedback loop. The content of this module is based on the research carried out by the teaching team. To improve your employability, a variety of engineering programming tools are used to model and analyze the performance of engineering systems, enabling learning of the functionality of control analysis and design software.

The module includes principles and commercial practices for managing engineering projects and related wider business operations. The nature of planning and business management is assessed in relation to quality, time, risk and sustainability aspects. The module is contextualised for professionals in mechanics and the automotive industry to promote and expand knowledge of how companies and organizations work in the project and business environment. This module continues effective teamwork as well as the development of interpersonal skills.

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This module strengthens your prior knowledge of statics, materials and dynamics and introduces topics of particular relevance to aerospace studies. The module includes further work with the analysis of beams, materials used in space travel as composites and develops the students’ understanding of vibration theory as well as the application of dynamics to particles and rigid bodies in space travel. Topics such as Bredt-Batho theory and aerodynamic performance and stability and Finite Element application in static and dynamic analysis of structures are also introduced. The module is delivered primarily through interactive lectures and practical laboratory sessions and is supported by tutorials, where students must practice using problem sets. Course material is available via VLE where applicable.

In Year 3, you will deepen your knowledge of specialist aeronautical engineering subjects and expand your expertise in other areas of engineering. BEng students undertake a large group design project and an individual research project together with business and management, as well as further and more in-depth studies of aerodynamics, propulsion, structure, materials and dynamics, including applied computational techniques widely used in industry. MEng students have the opportunity to integrate industrial placement with further studies using a combination of work-based learning as well as blended and distance learning (subject to accreditation by RAeS).

This module extends the analysis of aerodynamic and propulsion systems with the aim of providing the ability to design and evaluate aerodynamic loads on aircraft as well as their propulsion systems. It also expands your knowledge and skill base to solve aeronautical engineering problems with advanced analytical approaches, namely Computational Fluid Dynamics with the aim of equipping you with up-to-date flow and structural analysis techniques.

Subsonic, supersonic, compressible, incompressible, boundary layer, inviscid and viscous flows are all considered in high speed

Aerospace Engineering Meng/beng (hons) Degree Course

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