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April 11th 08, 02:25 PM
posted to rec.radio.amateur.antenna
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The Rest of the Story
Keith Dysart wrote:
The computation using energy instead of power has also been done (and published here) and found also to demonstrate that the reflected is not dissipated in the source resistor. Well, that certainly violates the conservation of energy principle. We know the reflected energy is not dissipated in the load resistor, by definition. The only other device in the entire system capable of dissipation is the source resistor. Since the reflected energy is not dissipated in the load resistor and you say it is not dissipated in the source resistor, it would necessarily have to magically escape the system or build up to infinity (but it doesn't). You keep digging your hole deeper and deeper. How many joules are there in 100 watts of instantaneous power? Obviously. It depends on how long you let the 100 W of instantaneous power flow. Integrate and the answer shall be yours. I'm not the one making the assertions. How many joules of energy exist in *YOUR* instantaneous power calculations? -- 73, Cecil http://www.w5dxp.com |
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