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What is the difference between Computational Engineering and computer engineering in UT Austin?

Computer engineering takes the foundation of electrical engineering and applies it specifically to computers, focusing on the design of hardware and software components. Computational engineering uses computers to solve engineering design problems important to a variety of industries.

How competitive is computational engineering at UT Austin?

What is the acceptance rate for this major? The rate varies year to year, but on average for Aerospace, we end up with about 25% admitted who apply; for Computational, the acceptance rate is about 10%.

What does a computational engineer do?

Computational engineering graduates pursue careers in a variety of fields, including energy, manufacturing, aerospace, health care, microelectronics and more. What do computational engineers do? Computational engineers use computers and advanced computational methods to analyze and solve engineering problems.

Is Computational Engineering related to mechanical engineering?

Complex System Analysis: Computational engineering enables researchers to analyze intricate mechanical systems that are difficult to study through traditional methods. By creating accurate virtual models of complex systems, researchers can simulate and analyze various scenarios, including multi-physics phenomena.

What is computational engineering in UT Austin?

Computational engineering in this context refers to the study and development of computer algorithms that translate mathematical and physical descriptions of engineering problems into languages and software that computers can process.