2400 Hz
The frequencies which are used to transmit data.
The lawyer did not have the bandwidth to handle another case. The bandwidth was more than adequate to transmit the data quickly.
Nope. That is dial-up. Cable modems use coaxial cables to transmit data.
The bandwidth of a signal is related to how fast you can transmit information over that signal. Signals with large (or broad) bandwidth can transmit more information (data) in a given amount of time, so this results in faster download times.
Using varying bit ratesUsing two pairs of twisted-pair cableUsing sending and receiving modems
Fiber optic cables are the best type of medium for open-ended bandwidth needs due to their ability to transmit data at high speeds over long distances without degradation. Fiber optics have a much higher bandwidth capacity compared to traditional copper cables and are highly reliable for transmitting large amounts of data.
A broadband connection has much wider bandwidth available to it than a standard telephone connection. Wider bandwidth allows more information to be modulated onto the carrier. It is called "broadband" because of this wider bandwidth.
Basically, I want to create a product that would need to communicate with cell towers in order to transmit data to a smartphone. How do I give my product the ability to do this?
WiFi modems, highway toll transponders, and Bluetooth® thingies do that.
Infrared bandwidth refers to the range of frequencies within the infrared spectrum that a device or technology can detect or transmit. It typically ranges from 300 GHz to 430 THz, allowing for communication and data transfer using infrared light.
Private line modems worked exclusively with voice and data private lines
That depends on the bandwidth used (or available). Use the formula:(amount of data transferred) = bandwith x time.