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Course Criteria
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0.00 - 3.00 Credits
3 Credits Economic analysis of international trade, capital flows, and labor migration with particular emphasis on the laws governing these factors. Aviation applications include code-sharing and other international airline agreements and the impact of trade subsidies and open skies treaties. Prerequisites: EC 200 or EC 210 or EC 211, BA 225.
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0.00 - 3.00 Credits
3 Credits The objective of this course is to study the major decision-making areas of managerial finance and some selected topics in financial theory. The course reviews the theory and empirical evidence related to the investment and financing policies of the firm and attempts to develop decision-making ability in these areas. This course serves as a complement and supplement to Corporate Finance I. Topics include leasing, dividend policy, mergers and acquisitions, corporate reorganizations, financial planning, working capital management, and international finance. Aviation and aerospace related businesses are emphasized. Prerequisite: BA 332.
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0.00 - 3.00 Credits
3 Credits This business capstone course examines strategic management principles involving strategy, formulation, implementation, evaluation, and organization analysis. Case analysis employing strategic management principles is used to examine and solve organization problems. Total quality management concepts are studied for improvement of organizational effectiveness. Prerequisite: Graduating senior standing.
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0.00 - 3.00 Credits
3 Credits An investigation of the role of marketing in the aviation/ airport industries. Topics to be covered include consumer segmentation, database management, integrated marketing communications, public relations, vendor relations, and retailing. Prerequisite: BA 220.
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1.00 - 6.00 Credits
Aerospace Engineering (AE), Aerospace Studies (AR), Aeronautical Science (AS), Aircraft Engineering Technology (ET), Applied Aviation Sciences (AAS), Aviation Business Administration (ABA), Aviation Environmental Science (AES), Management of Technical Operations (MTO), Aviation Management (AM), Avionics (AV), Computer Engineering (CEC), Computer Science (CS), Electrical Engineering (EE), Flight (FL), Global Security and Intelligence Studies (GSIS), Maintenance Technology (MT), Space Studies (SP). Provides practical learning experience in fulltime or part-time employment related to the student's degree program and career goals. Course title and level are based on the work assignment. Prerequisite: Approval by the department chair and cooperative education administrator. NOTE: Cooperative Education and internship experiences are designed as academically based experiential education. A student enrolled in a University-approved co-op/ internship professional activity and registered for 6 credit hours will be considered full-time by all University departments other than Financial Aid. The Financial Aid Office will consider a 6-hour co-op/internship as half-time enrollment and will process financial aid accordingly. They will report enrollment to the outside agencies as half-time, thus keeping them out of repayment on their student loans.
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1.00 - 6.00 Credits
1-6 Credits Continuation of CE 396, 397.
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0.00 - 3.00 Credits
3 Credits Introduction to logic design and interfacing digital circuits. Boolean algebra, combinatorial logic circuits, digital multiplexers, circuit minimization techniques, flip-flop storage elements, shift registers, counting devices, and sequential logic circuits. Corequisite: CEC 222.
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0.00 - 3.00 Credits
1 Credit Laboratory experiments in the measurement and verification of digital circuits. Discrete and integrated logic circuit design analysis and measurements. Corequisite: CEC 220.
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1.00 - 6.00 Credits
1-6 Credits Directed studies of selected topics in computer engineering. Prerequisite: Consent of instructor and department chair.
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0.00 - 3.00 Credits
3 Credits This course explores the computer engineering aspects of systems ranging from embedded sensor and actuator controllers to high-performance computing systems used in air traffic control and weather forecasting. The critical factors that impact the engineering decisions involved, including technological, economic, social, and professional issues, are discussed. Key engineering techniques and practices, including database, human-computer interaction, and networks of systems, are explored through case studies and representative examples from the aerospace and aviation domains. Prerequisites: EGR 115 and junior standing.
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