#### Fundamentals

An ability to apply knowledge of mathematics (differential, integral, and multivariate calculus; linear algebra; complex variables; differential equations; discrete math; and probability), science (Newtonian mechanics; electricity and magnetism; and introductory chemistry), computer fundamentals (programming languages; computer organization; and software/hardware interfaces) and engineering science (signals and systems, electromagnetics, and electronic devices).

#### Fundamentals

A program graduate will be able to apply knowledge of mathematics (differential, integral, and multivariate calculus; linear algebra; complex variables; differential equations; discrete math; and probability), science (Newtonian mechanics; electricity and magnetism; and introductory chemistry), computer fundamentals (programming languages; computer organization; and software/hardware interfaces) and engineering science (signals and systems, electromagnetics, and electronic devices).

#### Broad Education

The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.