| 1. | Generally, the loaded voltage drops to about 800 VAC at full current.
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| 2. | A fixed part of the voltage drop is due to the electrodes.
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| 3. | The collector voltage drops because of reduced resistance from collector to emitter.
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| 4. | Longer wiring runs are more limited by voltage drop in the conductors.
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| 5. | In the low-frequency limit, the voltage drop around any loop is zero.
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| 6. | An LED has a voltage drop specified at the intended operating current.
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| 7. | Here, the base emitter voltage drop is assumed to be 0.65 Volts.
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| 8. | In the blocking state nearly the complete voltage drops at the SITh.
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| 9. | Voltage drop exists in both the supply and return wires of a circuit.
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| 10. | When the normal discharge rate exceeds this value, abnormal voltage drops will occur.
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