A higher bandwidth means that more data can flow per second which has a positive effect on the speed of data transfer as data is likely to arrive more quickly.

A way of understanding bandwidth is to consider a busy motorway. The motorway has a 'bandwidth' of four cars. In other words, four cars can travel at once along the motorway. If the number of lanes was increased to 6, then 6 cars could travel at once along the motorway. The same applies with bandwidth. The more frequencies (lanes) available on a channel (motorway), then the more data (cars) can travel at once.

Copper cables in modern networks are usually in the form of twisted pairs of wire. These are narrow strands of wire, insulated with plastic, then twisted together. Most of these cables are unshielded which means there is no earth wire - this is known as unshielded twisted pair or more commonly as Ethernet cables. This can result in data packets being lost, particularly data being transmitted at higher frequencies.

There are also Shielded Twisted Pair cables where each pair of wires has a metal shield which reduces electromagnetic interference. These cables are sometimes used in high-speed networks where higher bandwidths are required.

Copper cable is used within local area networks and can support data transmission of up to 1 Gbps using standard CAT 5e cables. CAT 6 and CAT 7 cables can transmit up to 10 Gbps.

While copper cables are cheaper than optical cables, they are limited to a maximum of 100 metres. Beyond this the data signal becomes too weak. The bandwidth is limited by the frequencies that the copper cable is able to cope with. Copper cables are also prone to electrical interference which results in lost data packets that will reduce the overall transmission rate.

However, is a user is participating in a video conference, then lots of data needs to be transferred every second, meaning that a high bandwidth is required. The video and sound associated with video conferences consist of large packets of data. If these are not delivered on time, then the video conference will have time lags resulting in broken or missing pictures and sound.

If the user is listening to live radio, then a high bandwidth is required in order that the sound is delivered on time and so that breaks are not experienced within the broadcast.

However, if the user is downloading a pre-recorded radio programme, then it does not matter as much how long it takes to download as it can be listened to once the whole programme has been downloaded. This may be inconvenient to the user in terms of having to wait, but it does not affect the final user experience of listening to the programme.

The importance of bandwidth is therefore important when accessing content that is being delivered in real time. Without a high bandwidth, images and sound are broke up, becoming out of sync and freeze, making the conversation, viewing or listening very difficult. However, if the content is not love, then it can be downloaded for later listening or viewing and, even though it may take a long time to download, once it is downloaded it will be able to be listened to or watch without distortion. If a user want to download something quickly, so they can turn their computer off, then bandwidth is important.

Imagine some road works on a motorway. There are normally 3 lanes of traffic but for half a mile, there are only 2 lanes due to a lane closure. Before the closure, 3 cars were able to travel at once, now only 2 cars can. This causes a 'bottleneck'.

The term 'bottleneck' comes from the idea that water can only pour out through the neck of the bottle. This effectively slows down the flow rate.

Similarly, with communication channels, bottlenecks are caused by the narrowest bandwidth.

For example, a user is connected to their own ISP by an 8 Mbps bandwidth. The user is downloading a file from a website that is connected using a 2 Mbps bandwidth. Therefore, the bottleneck is 2 Mbps, meaning that the user can only download the data from the website at a maximum rate of 2 Mbps. If lots of people are downloading at once from the same website, then the 2 Mbps is shared among those users and so the effective download rate will be much lower.