We are dealing with a bit of abuse of terminology. Originally "bandwidth" means the width of the band that you have available to transmit (or receive) on. The term has been co-opted to also mean the amount of digital data you can transmit (or receive) on a line per unit time.
Here's an example of the original meaning. FM radio stations are spaced 200 kHz apart. You can have a station on 95.1 MHz and another one on 94.9 MHz and another one on 95.3 MHz, but none in between. The bandwidth available to any given FM radio station is 200 kHz (actually it may be less than that if there is a built-in buffer zone of no-mans-land frequencies between stations, I don't know).
The bandwidth rating of something like a coaxial cable is the range of frequencies of the electromagnetic waves that it is designed to transmit reliably. Outside that range the physical properties of the cable cause it to not reliably transmit signals.
With (digital) computers, bandwidth almost always has the alternate meaning of data capacity per unit time. It's related though, because obviously if you have more available analog band width, it lets you use a technology that transmits more (digital) data at the same time over that carrier.