(Inside Science) "Watching paint dry" may be a term most people use to show how boring something can be, but the physics of what happens when anything changes from wet to dry is enough to grab scientists' attention. No, really there are still many unanswered questions about drying. Now, a new paper looks at exactly how the drying process works in tiny detail.
(Inside Science) "Watching paint dry" may be a term most people use to show how boring something can be, but the physics of what happens when anything changes from wet to dry is enough to grab scientists' attention. No, really there are still many unanswered questions about drying. Now, a new paper looks at exactly how the drying process works in tiny detail.
In a study published in Applied Physics Letters, researchers created a differential-based ultrafast amplitude detection method devoid of any intrinsic latency with the basic trigonometric theorem.
In recent times, sustainable development has been the overarching guiding principle of research concerning environmental issues, energy crises, and information and communication technology. In this regard, spintronic devices have emerged as promising candidates for surpassing conventional technology, which has run into the problem of excess waste heat generation in miniaturized devices.
In recent times, sustainable development has been the overarching guiding principle of research concerning environmental issues, energy crises, and information and communication technology. In this regard, spintronic devices have emerged as promising candidates for surpassing conventional technology, which has run into the problem of excess waste heat generation in miniaturized devices.