College of Engineering Degrees & Programs

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  • Batteries & Energy Storage Technologies

    Students in the battery and energy storage program learn how batteries function, how they are manufactured and how energy can be harvested, stored and utilized. With over 50 courses to choose from, students can customize the program to meet their specific interests and career goals.

  • Big Data

    Big data is predicted to transform almost everything about how we live our lives. From healthcare to finance, from advertising to entertainment, unprecedented amounts of data are being generated and stored, and skilled professionals are needed to analyze that data for important insights and fill positions in the growing tech sector.

  • Biomedical Engineering

    Biomedical engineering is a highly interdisciplinary field that includes experts in cell biology, electrical engineering, chemical engineering, pharmaceuticals, medicine and many more fields. Our biomedical engineering program emphasizes the fundamentals of electrical engineering, including instrumentation, sensors, signal processing and advanced image processing.

  • Chemical Engineering

    Chemical engineering emphasizes physics, chemistry, mathematics, biology and creativity to solve problems, from developing new pharmaceuticals safely and efficiently to creating clean and inexpensive fuels for energy conservation and pollution prevention. Our degree programs provide both breadth of knowledge within chemical engineering and depth of knowledge in a particular area.

  • Civil & Environmental Engineering

    Graduates of the civil and environmental engineering program are prepared to handle the nation's increasing demand for infrastructure projects like expanded transportation, energy-efficient construction, water supply and pollution control systems.

  • Computer Science & Engineering

    Rapid advances in computing technology have made computer science and engineering part of your everyday life. Our degree programs train students in the step-by-step approach and rigorous analysis needed to find the best way to solve problems in computer science and engineering.

  • Cybersecurity

    We offer cybersecurity education in an interdisciplinary environment that seeks to integrate technical expertise, business savvy and social context in developing holistic perspectives on cybersecurity challenges. Offered under the umbrella of the University's Cybersecurity Center, our cybersecurity degrees and programs equip graduates to provide industry-ready solutions to ever evolving cyber threats.

  • Digital Interactive Games

    Gaming is a trend in the technical industry right now, with an explosion of mobile devices, popular apps and online badges for everything from working out to conserving energy. Students gain expertise in a range of areas related to digital gaming, including artificial intelligence, computer graphics and embedded systems.

  • Electrical Engineering

    A degree in electrical engineering prepares students to develop solutions to problems, including generating and regulating electric power, manipulating signals for communication purposes and designing specialized circuits. In addition to receiving a well-rounded education in electrical engineering, students in the program can pursue an emphasis in biomedical engineering or renewable energy.

  • Engineering Physics

    Engineering physics is designed for the student who desires a background in engineering science, based on a firm foundation of physics, as well as an introduction to computer science. The program is also for students who would like to pursue graduate studies in physics or engineering.

  • Extractive Metallurgy

    Extractive metallurgy is a subfield of materials science and engineering that focuses on understanding the processes used to extract raw materials and separate valuable metals from raw minerals. Metallurgists use chemical processes to extract and refine metals, making it a natural area of focus for both chemical engineers and materials scientists.

  • Manufacturing

    For any industry that relies on manufacturing, quality is a critical part of the process. Producing a high-performing, cost-effective product that customers can rely on drives profitability, employment opportunities and future growth. Students learn skills in quality control and analysis that complement related degrees.

  • Materials Science & Engineering

    Materials science engineers are at the forefront of developing and testing new materials that can stand up to extreme environments, such as high heat or high pressure, or that are lighter or stronger than their predecessors. These new materials may be used in diverse industries such as health care, manufacturing or energy.

  • Mechanical Engineering

    Mechanical engineering is a broad field that can include everything from aerospace engineering to fluid mechanics to biomedical applications. Mechanical engineers may work with nanoscale materials invisible to all but the most powerful microscopes or they may be involved in engineering massive airplanes or rockets.

  • Nanotechnology

    Objects measured in nanometers are far too small for the human eye to see, and even a typical microscope isn't powerful enough. The nanotechnology program is open to all students but is geared toward students in engineering and science seeking specialization in the processes, systems and phenomena at the nanometer size scale.

  • Renewable Energy

    We offer two programs in renewable energy, open to students in all fields, that are designed to complement their chosen field of study by exposing them to crucial technical, economic and social issues relevant to renewable energy. These interdisciplinary programs help students apply knowledge gained in their majors to alternative and renewable energy.

  • Unmanned Autonomous Systems

    Unmanned autonomous systems are the next big step in the fusion of mechanical systems, computing technologies, sensors and software to create intelligent systems capable of interacting with the real world. The emerging industry requires highly educated individuals who understand the fundamentals of UAS in terms of design, engineering, operation and data analysis.