- sol-gel process - PVS: physical vapor synthesis - NAS: nanoarc synthesis
Yeah it's about three times the size of a nano
.. the ipod nano fourth generation was developed in 2009 but the other types were developed in a variety of different years
Yes. There are the 1GB, 2GB, 4GB, 8GB and 16GB versions.
Nano materials have dimensions typically less than 100 nanometers, while bulk materials have dimensions in the macroscopic scale. Nano materials exhibit unique properties due to their small size, such as increased surface area and quantum effects, which differ from the properties of bulk materials.
Yes. 1) Nano-engineered materials are stronger and better than normal materials. 2) Nano-engineered liquids can be useful in fields of medicine and machinery. 3) Nanobots can go into people's bodies to kill virusses/cancer.
Major materials studied in material science include: Composites and nano-composites Carbon fibers Polymers and plastics Alloys and allotropes Supercritical fluids Glass and others Ceramics
A nano-spring is a small, coiled structure at the nanometer scale, typically made of materials such as carbon nanotubes or metals. They possess unique mechanical properties due to their tiny size, including high elasticity and strength. Nano-springs are used in various applications such as sensors, actuators, and nanoscale devices.
Watch this video to learn how to make nano tape bubbles or balls in three minutes. It is a great fun for the kids and adults:
I think it is to make everyday items for practical/adaptable to our environment and more convenient for us??
There are many accessories to consider when buying an iPod Nano. These include headphones, cases, skin covers, charger, screen protectors, armbands and speakers.
Micro structure of concrete with nano materials gets changed like anything and is resulting tremendous increase in compressive strength apart from increase in specific surface area.
They are multiphase solid materials where one of the phases has one, two or three dimensions of less than 100 nanometers (nm), or structures having nano-scale repeat distances between the different phases that make up the material.