We define the properties of parallel and complex circuits. Unit 5 Segment H: Parallel and Complex Circuits We define the properties of parallel and complex circuits. We examine how to find the total ...

As electronics applications continue to become more compact, powerful, and versatile, the final system demands and complexities of mobile and stationary devices also are becoming increasingly ...

Researchers at Stanford University have built one of the most complex circuits from carbon nanotubes yet. They showed off a simple hand-shaking robot with a sensor-interface circuit last week at the ...

The demonstration carbon nanotube circuit converts an analog signal from a capacitor—the same type of sensor found in many touch screens—into a digital signal that’s comprehensible by a microprocessor ...

Last month, we clarified the definition of a vector and showed you how vectors are added, subtracted, multiplied, and divided. This month, we'll see how to use vectors in defining a complex circuit ...

The first three-dimensional carbon nanotube circuits, made by researchers at Stanford University, could be an important step in making nanotube computers that could be faster and use less power than ...

IBM researchers have made an important breakthrough: arranging nanotube transistors for complex circuits. Researchers at IBM have overcome an important obstacle to building computers based on carbon ...

As designers continue to propose ever-smaller, ever-more-complex circuits, the demands on inspection equipment push the limits of what today's cameras can provide. Bruce Butkus, product line engineer ...

(Nanowerk News) In many ways, life is like a computer. An organism's genome is the software that tells the cellular and molecular machinery—the hardware—what to do. But instead of electronic circuitry ...

Qian-Quan Sun (right), a UW associate professor of zoology and physiology, and Weiguo Yang, a graduate student in the Neuroscience Program, check lasers during an experiment on the brain tissue of ...