QUESTION 3 Which of the following best describes the relationship between state-space and transfer function modeling? State-space modeling is more accurate than transfer function models. The two models are complementary. The two models are inconsistent. State-space models are derived from physical laws, whereas transfer functions are not.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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QUESTION 3
Which of the following best describes the relationship between state-space and transfer function modeling?
O State-space modeling is more accurate than transfer function models.
The two models are complementary.
The two models are inconsistent.
State-space models are derived from physical laws, whereas transfer functions are not.
QUESTION 4
Which of the following could be elements of the state of an RLC circuit with applied voltage V(t)?
The values of R and L
The initial value of the current, i(0), and the voltage across the capacitor V(0).
The applied voltage v(t) and the voltage across the capacitor V(t).
The current i(t) and the voltage across the capacitor vc(t).
O The current i(t) and the voltage across the resistor Ri(t).
Transcribed Image Text:QUESTION 3 Which of the following best describes the relationship between state-space and transfer function modeling? O State-space modeling is more accurate than transfer function models. The two models are complementary. The two models are inconsistent. State-space models are derived from physical laws, whereas transfer functions are not. QUESTION 4 Which of the following could be elements of the state of an RLC circuit with applied voltage V(t)? The values of R and L The initial value of the current, i(0), and the voltage across the capacitor V(0). The applied voltage v(t) and the voltage across the capacitor V(t). The current i(t) and the voltage across the capacitor vc(t). O The current i(t) and the voltage across the resistor Ri(t).
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