Aerospace Engineering from Embry-Riddle Aeronautical University - Daytona Beach is a Campus Bachelor Aeronautical engineering degree that prepares you for a Engineering career. Aerospace Engineering Program at Embry-Riddle Is Focused on the Future In your lifetime you're likely to witness the colonization of space, solar power generation from space-based systems, active search efforts for extraterrestrial life, and widespread ultra-high-speed travel on earth. If you want a chance to be part of making things like these happen, take a wise first step: enroll in Embry-Riddle's world-renowned aerospace engineering program at either of our residential campuses. There are plenty of programs for aerospace engineering , but only one place where the entire university is dedicated to aviation and aerospace: Embry-Riddle. We've been preparing engineers for more than 50 years, so we know what we're doing. Our aerospace engineering program was already well known throughout the industry before it was ranked by U.S. News & World Report as the #1 aerospace engineering program at a non-Ph.D.-granting university. Not only is our aerospace engineering program among the best, it is also the largest in the nation. At Embry-Riddle, your primary focus will be on the engineering of mission-oriented vehicles for atmospheric and space flight. Nonetheless, our students also have designed automobiles and high-speed rail systems. In upper-level courses, you'll work on teams to develop a component design that is sufficiently detailed for the manufacturing process, including material specifications and cost parameters. Additional options include experimentation in control system designs and in-flight testing. These design courses prepare you for the engineering environment you'll find in industry. Choose the Aeronautics or Astronautics Track The aerospace engineering program fulfills the university's purpose ?to provide a comprehensive education to prepare graduates for productive careers and responsible citizenship with special emphasis on the needs of aviation, aerospace engineering, and related fields. The program's focus is on the engineering of mission-oriented vehicles for atmospheric and space flight. By the end of the sophomore year, students will choose either the aeronautics track (specializing in aircraft) or the astronautics track (specializing in spacecraft). A number of classes deal with the propulsion systems for air- and spacecraft. The goal of the aerospace engineering program is to produce graduates who are ready for constructive roles in society, who qualify for entry-level engineering jobs in the aerospace industry or aviation-related fields, who qualify for admission to graduate programs in aerospace engineering (or related engineering fields), and who are prepared to continue learning throughout their lives. In order to achieve these objectives, the following are the expected outcomes: 1. Engineering responsibilities and methodology -- From their first semester onward, students will be made aware of what engineering is and what will be expected of them as engineers, including a commitment to continuing education and to engineering ethics. This will be accomplished through interdisciplinary team activities and design projects, workshops and seminars, and the consistent assignment of open-ended problems throughout the curriculum. 2. Professional activity and development -- Students will be encouraged throughout their Embry-Riddle careers to actively participate in professional organizations, stay abreast of industry activity, and to continue their professional development. 3. Technical communication -- Throughout the curriculum, wherever appropriate, student teams will make professional-quality oral and written presentations. 4. General education -- Students will satisfy the university's general education requirements to broaden the student's education, develop effective communication skills, and obtain awareness of social and ethical issues. 5. Basic science and mathematics -- Students will demonstrate a knowledge of chemistry fundamentals (including oxidation/reduction, the essentials of physical chemistry and the basics of organic compounds as related to composite materials), basic physics (mechanics, heat, sound, electricity, and optics) and mathematics (differential and integral calculus, differential equations, matrix algebra and vector calculus) to use as tools in support of their studies of engineering topics and beyond. 6. Engineering mechanics -- Students will demonstrate a knowledge of the fundamentals of classical engineering mechanics (as applied to rigid, elastic and fluid media) to provide a foundation for the professional component of the curriculum, as well as to become familiar with basic engineering problem-solving techniques, including team approaches. 7. Aerodynamics and aeronautics -- Students will demonstrate a knowledge of topics in aerodynamics, to include a majority of the following: the aerospace environment; applications of mass, momentum, energy and entropy principles to one and two dimensional flows; potential flow; viscous flow and boundary layers; aerodynamics of airfoils in incompressible and compressible flows; steady-state aircraft performance; static stability; propeller and rotary wing fundamentals; applications of the concept of panel methods; supersonic flow and aerodynamic heating. 8. Thermal sciences -- Students will demonstrate knowledge of a sequence of topics in thermodynamics, heat transfer, and propulsion so as to be able to assess the operational capabilities and analyze the performance of air-breathing and rocket engines. 9. Structures -- Students will demonstrate a knowledge of topics in aerospace structures and materials, to include as a minimum: the equilibrium of forces and moments in three dimensions; shear and bending moment diagrams; stresses and deflections due to elastic tension, compression, shear and torsion on stable cross sections; compression and shear buckling; composite materials; basics of the finite element method; and vibration, fatigue and fracture mechanics concepts. 10. Electronics -- Students will demonstrate a knowledge of topics in electric circuits, analog and digital electronic fundamentals, electromechanical devices, and instrumentation fundamentals. 11. Astronautics -- Students will demonstrate a knowledge of topics in orbital mechanics, gyroscopic motion and control systems with aerospace applications. 12. Laboratories and data interpretation -- Students will demonstrate an ability to perform laboratory work, including statistical processing of data and error analysis, in materials, structures, aerodynamics, power and energy systems, electronics, and instrumentation. 13. Design -- Students will carry out and defend the conceptual design of an aircraft or a spacecraft in an industry-like environment, in teams, using realistic constraints and considerations of cost, safety, manufacturability and maintainability, and the needs of the public. Students will likewise also carry out the detail design of an aircraft or a spacecraft system. 14. Support hardware and software -- The program will be supported throughout by the use of modern equipment and the most relevant modern tools and techniques of engineering analysis, design and production, including student experience with industry-level solid modeling (CAD/CAM), finite element and computational fluid mechanics software. To enter this program, students should have demonstrated competence in mathematics, physics, chemistry in high school. View more details on Embry-Riddle Aeronautical University - Daytona Beach, FL . Ask your questions and apply online for this program or find other related Aeronautical engineering courses.
Embry-Riddle Aeronautical University - Daytona Beach address is 600 S Clyde Morris Blvd, Daytona Beach, Florida 32114-3900. You can contact this school by calling (800) 222-3728 or visit the college website at www.erau.edu . This is a 4-year, Private not-for-profit, Master's Colleges and Universities (medium programs) according to Carnegie Classification. Religion Affiliation is Not applicable and student-to-faculty ratio is 15 to 1. The enrolled student percent that are registered with the office of disability services is 3% or less . Awards offered by Embry-Riddle Aeronautical University - Daytona Beach are as follow: Associate's degree Bachelor's degree Master's degree Doctor's degree - research/scholarship. With a student population of 5,205 (4,597 undergraduate) and set in a City: Small, Embry-Riddle Aeronautical University - Daytona Beach services are: Remedial services Academic/career counseling service Employment services for students Placement services for completers . Campus housing: Yes. Tuition for Embry-Riddle Aeronautical University - Daytona Beach is . Type of credit accepted by this institution Dual credit Credit for life experiences Advanced placement (AP) credits . Most part of the informations about this college comes from sources like National Center for Education Statistics
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