In a first-order dynamic system, the time constant is defined as the time required to reach what percent of the final output?

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Multiple Choice

In a first-order dynamic system, the time constant is defined as the time required to reach what percent of the final output?

For a first-order system responding to a step input, the output follows y(t) = y∞(1 − e^(−t/τ)). This means the time constant τ is the time it takes for the output to reach about 63.2% of its final steady-state value. Specifically, at t = τ, y(τ) = y∞(1 − e^(−1)) ≈ 0.632 y∞, so the response has reached roughly 63% of the final value. It isn’t 100% because the exponential approach never finishes in finite time; it’s not 50% or 10% because those percentages occur at shorter times (50% at t = τ ln 2 ≈ 0.693τ, 10% at t ≈ 0.105τ). In practice, several τs are used to get very close to the final value.

In a first-order dynamic system, the time constant is defined as the time required to reach what percent of the final output?

Master the AIChE Chemical Engineering Jeopardy Exam. Ace your test with engaging flashcards and challenging multiple-choice questions, every question comes with useful hints and clear explanations. Prepare thoroughly for your success!

In a first-order dynamic system, the time constant is defined as the time required to reach what percent of the final output?

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