Difference between revisions of "Frequency"
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| − | For [[alternating current]] signals, the '''frequency''' is the rate at which the signals go through a complete cycle of direction reversal; for [[electro-magnetic radiation]], it is the rate at which the radiation converts between [[ | + | For [[alternating current]] signals, the '''frequency''' is the rate at which the signals go through a complete cycle of direction reversal; for [[electro-magnetic radiation]], it is the rate at which the radiation converts between [[electric field|electric]] and [[magnetic field]]s. |
The '''wavelength''' of a complete cycle (in units of length) is inversely related to the frequency (in units of inverse time) by the speed (in units of length over time), which for both the above is the speed of light. | The '''wavelength''' of a complete cycle (in units of length) is inversely related to the frequency (in units of inverse time) by the speed (in units of length over time), which for both the above is the speed of light. | ||
| − | {{stub}} | + | {{semi-stub}} |
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| + | [[Category: Electrical Basics]] | ||
Latest revision as of 17:02, 1 July 2022
For alternating current signals, the frequency is the rate at which the signals go through a complete cycle of direction reversal; for electro-magnetic radiation, it is the rate at which the radiation converts between electric and magnetic fields.
The wavelength of a complete cycle (in units of length) is inversely related to the frequency (in units of inverse time) by the speed (in units of length over time), which for both the above is the speed of light.
