If frequency increases while keeping other factors constant, pulse duration will

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Multiple Choice

If frequency increases while keeping other factors constant, pulse duration will

The duration of a pulse depends on how long each cycle lasts and how many cycles the pulse contains. The time for one cycle is T = 1/f. If a pulse is defined by a fixed number of cycles, say N cycles, then its duration is PD = N × T. So when frequency increases while keeping that constant, the cycle time gets shorter and the total pulse duration gets shorter as well.

For example, with 3 cycles per pulse: at 1 kHz, PD ≈ 3 × 1 ms = 3 ms; at 3 kHz, PD ≈ 3 × 0.333 ms ≈ 1 ms. Hence, pulse duration decreases as frequency increases. The other options would require changing the number of cycles or how the pulse is defined, which isn’t the case here.

If frequency increases while keeping other factors constant, pulse duration will

Prepare for the Davies SPI Test with engaging flashcards and multiple choice questions. Each question offers hints and explanations to enhance your learning. Achieve success with our comprehensive study tools!

If frequency increases while keeping other factors constant, pulse duration will

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