Transfer rates on a LAN may vary from 10 Mbps to 1 Gbps. 10 Gbps networks are on the way.
less than the data transfer rate
less than the data transfer rate.
mbps
Data transfer rate (also called bandwidth)
Freezing rate depends on the surface area, the heat transfer medium, and its temperature. If it is a thin layer (large surface area) of water it would freeze faster than a thick layer (smaller surface area). A liquid heat transfer medium, like liquid nitrogen, would have a higher heat transfer rate than a gas, like air. Lastly, the colder the heat transfer medium, the faster the heat transfer rate, the faster the water would freeze.
In most cases it's beneficial only for local network operations. For instance, if you have a NAS and you used to download and upload files. With wireless N the transfer rate might increase in couple times.
It reduces the rate of transfer.
Diffusion rate varies with concentration difference, temperature and dimension of transfer path (area or distance).
The transfer rate of Fpm is 320MBps.
File size = transfer rate x transfer timeThe time unit of the transfer rate and the transfer time must be the same measurement - that is, if the rate is some KB per second, then the transfer time must be in the unit of second as well
File size = transfer rate x transfer timeThe time unit of the transfer rate and the transfer time must be the same measurement - that is, if the rate is some KB per second, then the transfer time must be in the unit of second as well
For conductive and convective heat transfer, the rate of heat transfer is proportional to the the temperature difference; if you double the difference you will double the rate of heat transfer. For radiative heat transfer, the rate of heat transfer is proportional to the difference of the 4th powers of the absolute temperatures.