If a pulse contains a fixed number of cycles, increasing frequency will cause pulse duration to?

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Multiple Choice

If a pulse contains a fixed number of cycles, increasing frequency will cause pulse duration to?

When a pulse is defined by a fixed number of cycles, the total duration depends on how long each cycle lasts. The period of one cycle is the reciprocal of frequency, 1/f, so the pulse duration is the number of cycles times the period: duration = N × (1/f) = N/f. Therefore, increasing frequency while the number of cycles stays the same makes the total pulse duration shorter. For example, a 5-cycle pulse lasts longer at 1 MHz than it does at 5 MHz. The other options don’t fit because longer cycles or more cycles would be needed to increase duration, a constant duration would require frequency not to change, and oscillation isn’t involved when the number of cycles is fixed.

If a pulse contains a fixed number of cycles, increasing frequency will cause pulse duration to?

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 a pulse contains a fixed number of cycles, increasing frequency will cause pulse duration to?

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