Which parameter describes the rate of exponential approach to the final value in a first-order system?

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Multiple Choice

Which parameter describes the rate of exponential approach to the final value in a first-order system?

The time constant sets how fast a first-order system approaches its final value. For a step input, the response follows y(t) = y_final + (y_initial − y_final) e^(−t/τ). The term e^(−t/τ) is the exponential that decays at a rate governed by τ: smaller τ means a faster approach, larger τ means a slower one. A handy rule is that after a time equal to τ, the response is about 63% of the way from its initial value to the final value. The other options describe different aspects: dead time is simply a delay before the response starts, gain determines the final magnitude, and damping ratio belongs to second-order systems and describes oscillatory behavior rather than the rate of exponential approach in a first-order system.

Which parameter describes the rate of exponential approach to the final value in a first-order system?

Test your skills with AIChE Chemical Engineering Jeopardy. Dive into flashcards and multiple choice questions, each featuring hints and detailed explanations. Prepare to ace your exam!

Which parameter describes the rate of exponential approach to the final value in a first-order system?

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