Overview

Electrical Engineering

Electrical engineering encompasses a large array of subdisciplines, including computer engineering, systems engineering, and telecommunications. Everything from radar to microchip manufacturing is the result of electrical engineering, and engineers often work to create large systems of electronics all working together.

Biomedical Engineering

At the intersection of biochemistry and nanotechnology, bioengineering is the construction, design, or maintenance of hardware in a medical application. Applications include medical imaging, prosthetics, artificial organs, and implanted devices such as pacemakers or glucose pumps.

Scientific Summary

Both electrical and biomedical engineering often require insight as to how complex systems work on a molecular level. Both fields require a deep understanding of electronics, circuitry, and how systems interact in different situations. Materials science is also important; electrical engineers need to find components with the proper conductivity, insulation, or resistance, and applications in the biotechnical field require that the body will not reject implanted devices.

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