10th Edition of World Nanotechnology Conference
March 10-12, 2025
Macroscopic Length Scale
The macroscopic length scale is the scale of size at which objects can be observed with the naked eye. It is also sometimes referred to as the "large scale" or "macroscopic scale." On this scale, objects can range from centimeters in size to meters or even kilometers. Examples of items seen on the macroscopic scale include houses, mountains, and even galaxies. At the macroscopic level, physical processes such as wave motion, diffusion, and reaction-diffusion can be observed. It is also the scale at which Newtonian mechanics holds true. That is, objects with masses on the macroscopic level interact with each other in a predictable and consistent way. In contrast to the microscopic scale, where quantum mechanics governs the behavior of particles, the macroscopic scale is dominated by classical physics.
Harry E Ruda
University of Toronto, Canada
Paulo Cesar De Morais
Catholic University of Brasilia, Brazil
Thomas J Webster
Hebei University of Technology, China
Frank Hagelberg
East Tennessee State University, United States
Ribal Georges Sabat
Royal Military College of Canada, Canada
Thomas J Webster
Hebei University of Technology, China
Antonio Pantano
University of Palermo, ItalySubmit your abstract Today
Title : Recent advances in nanomedicine: Sensors, implants, artificial intelligence, saving the environment, human studies, and more
Thomas J Webster, Hebei University of Technology, China
Title : Harnessing the unique transport properties of InAs nanowires for single molecule level sensing
Harry E Ruda, University of Toronto, Canada
Title : Photonic metasurfaces in azobenzene materials
Ribal Georges Sabat, Royal Military College of Canada, Canada
Title : Using CuO polycrystalline nanofilms as sensor for small organic molecules
Paulo Cesar De Morais, Catholic University of Brasilia, Brazil
Title : Microplastics and nanoplastics in Antartica. Consideration their impact on ecosystems and human and fauna health
Maria Cecilia Colautti, Defense University of Republic of Argentina, Argentina
Title : Surface-enhanced stimulated Raman spectroscopy with squeezed photonic states
Frank Hagelberg, East Tennessee State University, United States