Aerospace Engineering Degree
Different Aerospace Engineering Degree Specialties
An aerospace engineering degree is a great route to gaining an income that provides you with all of life's necessities, but there are many different specialties out there. Each aerospace engineering degree specialty can lead to job satisfaction and a different pay scale. Knowing the different aerospace engineering degree specialties in advance can help you to figure out the exact field that intrigues you leading to not only a nice salary, but also a job that you will enjoy for decades to come.
Embry-Riddle is the nation's leading university offering an aerospace engineering degree. Their four year program follows a rigid course structure for the first three years. During the third and fourth year (junior and senior year) of an aerospace engineering degree program, students are able to focus on a specialty-- Aerospace, Aerospace Propulsion, or Astronautics. These specialties help them to focus their skills in a specific area, and this makes the student far more valuable to a company following graduation.
In a typical freshman year for an aerospace engineering degree, students are required to take Calculus, Computing for Engineering, English, Humanities (History), Introduction to Engineering, Physics, Public Speaking, and Social Science. For students that have the time, the college also suggests fitting in at least one other class like Electrical or Civil Engineering.
During the sophomore year for an aerospace engineering degree, students will take Analytical Geometry, Calculus II, Chemistry, Differential Equations, Dynamics, Fluid Mechanics, Graphical Communications, Physics II, Solid Mechanics, Speech, and Technical Writing.
Junior and senior years split into different fields. Those wanting to focus their aerospace engineering degree on aeronautics will take Advanced Engineering Math, Aerodynamics, Aircraft Design, Aircraft Detail and Structure, Electrical Engineering, Engineering Materials, Space Mechanics, Thermodynamics and Turbine Engines. Those interested in Astronautics will instead take Advanced Engineering Math, Aerodynamics I, Aerodynamics II, Aircraft Structures, Altitude Dynamics, Electrical Engineering, Engineering Materials, Experimental Aerodynamics, Structure, Thermodynamics, Turbine Engines. Finally, the Aerospace Propulsion aerospace engineering degree students will take Advanced Engineering Math, Aerodynamics I, Aerodynamics II, Air breathing Propulsion, Aircraft Structures, Airplane Stability, Control Systems Analysis, Electrical Engineering, Engineering Materials, Experimental Aerodynamics, Thermodynamics, and Turbine Engines.
