Bandwidth: Difference between revisions
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In [[engineering]], '''[[bandwidth (engineering)|bandwidth]]''' is the length between two cut-off [[frequency|frequencies]], as measured in [[hertz]]. It is used in [[radio]], [[electronics]], and [[ | In [[engineering]], '''[[bandwidth (engineering)|bandwidth]]''' is the length between two cut-off [[frequency|frequencies]], as measured in [[hertz]]. It is used in [[radio]], [[electronics]], and [[signal processing]]. Bandwidth is determined by subtracting the lower cut-off frequency from the upper cut-off frequency. | ||
In [[computers]], '''[[bandwidth (computers)|bandwidth]]''' is similar to [[throughput]], measuring the amount of data transfered in a given amount of [[time]], often measured in [[bit (computing)|bits]]/[[second]] or [[byte]]s/second. | In [[computers]], '''[[bandwidth (computers)|bandwidth]]''' is similar to [[throughput]], measuring the amount of data transfered in a given amount of [[time]], often measured in [[bit (computing)|bits]]/[[second]] or [[byte]]s/second. | ||
Revision as of 01:14, 7 November 2007
In engineering, bandwidth is the length between two cut-off frequencies, as measured in hertz. It is used in radio, electronics, and signal processing. Bandwidth is determined by subtracting the lower cut-off frequency from the upper cut-off frequency.
In computers, bandwidth is similar to throughput, measuring the amount of data transfered in a given amount of time, often measured in bits/second or bytes/second.
See Also: