Unlike subtractive synthesis – the kind found on most analogue synths, where you start with a harmonically rich waveform and remove frequencies using filters – additive synthesis builds from the ...
For his final project in [Bruce Land]’s microcontroller design class, [Mark] set out to make a decently-sized synth that sounds good. We think you’ll agree that he succeeded in spades. Don’t let those ...
For his final project in [Bruce Land]’s microcontroller design class, [Mark] set out to make a decently-sized synth that sounds good. We think you’ll agree that he succeeded in spades. Don’t let those ...
It may seem distinctly low-tech compared to some of the many technology trends I write about, but 3D and 4D printing will have very wide applications – and could be particularly powerful when combined ...
Improvement of mechanical reinforcement of 3D printed parts is one of the current challenges in additive manufacturing to transition from prototypes to functional parts that meet similar requirements ...
Low dimensional metallic nanostructures have seen a lot of recent attention, due to their potential across printed electronics, wearable electronics, catalysis and sensor applications. However, most ...
Joseph M. DeSimone is the Chancellor's Eminent Professor of Chemistry at the University of North Carolina at Chapel Hill, and William R. Kenan, Jr. Distinguished Professor of Chemical Engineering at ...
Unlike subtractive synthesis – the kind found on most analogue synths, where you start with a harmonically rich waveform and remove frequencies using filters – additive synthesis builds from the ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results