Curriculum
E-Lead Degree Plans
Admission Requirements
New and returning students can declare their intention to work toward an Engineering Leadership degree if they meet UTEP's admission requirements. Students will not be admitted into the Engineering Leadership program, and take Engineering Leadership courses until they are calculus ready. Each semester, students admitted into the BSEL program must meet prepare for their ensuring registration by completing a proposed course of study, when this is completed will meet with a BSEL advisor to approve their courses and electives.
Engineering Sequences
Students will select a particular engineering sequence or a specialized combination of discipline specific courses. Students can choose from the following engineering sequences: General Engineering, Electrical Engineering, Engineering Mechanics, Biomedical Engineering, Metallurgical and Materials Engineering, or General Engineering w/ Computer Science. Students who choose these tracks will likely proceed into either conventional engineering employment or into graduate school to obtain an M.S. or a Ph.D. in Engineering.
This sequence provides students a broad comprehensive education covering the different types of engineering offered at UTEP: civil, electrical and computer, mechanical, metallurgical, materials and biomedical, and industrial, systems and manufacturing engineering.
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This sequence provides students with a background in the fundamentals of electrical engineering. This sequence includes required courses in electric circuit analysis, digital design, computer programming, and electromagnetics. It also allows students to take two upper division electives in electrical engineering.
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This sequence provides students an engineering education that applies engineering, physics, mathematics, and materials to design, analyze, manufacture, and maintain civil and mechanical systems.
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This sequence provides students an education that advances knowledge in engineering, biology, and medicine, through cross-disciplinary activities integrating engineering sciences with biomedical sciences. This sequence incorporates the courses required for a minor in Biomedical Engineering, which helps to prepare students for graduate studies in BME.
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This sequence emphasizes learning and applying metallurgical and materials engineering fundamentals, spanning all major classes of materials, offering students opportunities to explore the whole gamut of applications, from advanced microelectronic technology to the basic infrastructure on which we all depend.
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This sequence provides students a broad comprehensive engineering education with an emphasis on processes that interact with data in the form of programs that enable the use of algorithms to manipulate information.