Question 1

For the following circuit, determine the impedance at a frequency of 0.1 Hz. Z_Re = __________ $\Omega$ and Z_Im = ____________ $\Omega$

Accepted Answer

6.81 (from 6.7 to 6.9) , 1.38 (from 1.3 to 1.5)

Question 2

For the following circuit, determine the impedance at a frequency of 1 Hz. Z_Re = __________ $\Omega$ and Z_Im = ____________ $\Omega$

Accepted Answer

429 (from 420 to 440), 113 (from 103 to 123)

Question 3

Charge transfer resistance is the value of faradaic impedance at _____&#10;A) infinite frequency&#10;B) zero frequency&#10;C) open circuit potential&#10;D) large dc bias

Accepted Answer

A

Question 4

An impedance spectrum of an electrochemical system can be modeled using the following circuit. Then , R_t = _________ $\Omega$ and R_p = ________ $\Omega$

Accepted Answer

The answer of An impedance spectrum of an electrochemical system...

Question 5

An impedance spectrum of an electrochemical system can be modeled using the following circuit. Then , R_t = _________ $\Omega$ and R_p = ________ $\Omega$

Accepted Answer

The answer of An impedance spectrum of an electrochemical system...

Question 6

An impedance spectrum of an electrochemical system can be modeled using the following circuit. Then , R_t = _________ $\Omega$ and R_p = ________ $\Omega$

Accepted Answer

The answer of An impedance spectrum of an electrochemical system...

Question 7

An impedance spectrum of a system is given below. The polarization resistance is _____ $\Omega$&#10;

Accepted Answer

The answer of An impedance spectrum of a system is...

Question 8

From Bode plot, estimate charge transfer resistance _______ $\Omega$ and polarization resistance ___________ $\Omega$&#10;   &#10;

Accepted Answer

The answer of From Bode plot, estimate charge transfer resistance...

Question 9

An impedance spectrum of a system is given below. The charge transfer resistance is _____ $\Omega$&#10;

Accepted Answer

The answer of An impedance spectrum of a system is...

Question 10

An impedance spectrum of a system is given below. The charge transfer resistance is _____ $\Omega$ and polarization resistance is _____ $\Omega$&#10;   &#10;

Accepted Answer

The answer of An impedance spectrum of a system is...

Question 11

An impedance spectrum of a complex reaction is acquired at open circuit potential. The real part of the impedance can exhibit negative differential resistance..

Accepted Answer

The answer of An impedance spectrum of a complex reaction...

Question 12

The type of circuit given below is known as  &#10;A) Maxwell circuit&#10;B) Ladder circuit&#10;C) Voigt circuit&#10;D) Randel's circuit

Accepted Answer

The answer of The type of circuit given below is...

Question 13

The type of circuit given below is known as  &#10;A) Maxwell circuit&#10;B) Ladder circuit&#10;C) Voigt circuit&#10;D) Randel's circuit

Accepted Answer

The answer of The type of circuit given below is...

Question 14

When multiple circuits are evaluated to model a data, the best fit model should be selected based on&#10;A) least number of parameters&#10;B) least residual sum squared&#10;C) least residual sum&#10;D) Akaike information criterion

Accepted Answer

The answer of When multiple circuits are evaluated to model...

Question 15

An impedance spectrum containing 80 data points was fitted with different circuit models. The number of adjustable parameters in each model and the residual sum squared errors are listed below. $\begin{array} { | l | l | l | } \hline \text { Model } & \begin{array} { l } \text { Number of } \\\text { Parameters }\end{array} & \text { RSS } \\\hline \text { Model-1 } & 3 & 200 \\\hline \text { Model-2 } & 5 & 150 \\\hline \text { Model-3 } & 8 & 110 \\\hline \text { Model-4 } & 12 & 105 \\\hline\end{array}$
The best-suited model should be chosen based on the least value of

A) RSS
B) Akaike Information criterion (AIC)
C) corrected AIC
D) none of the above

Accepted Answer

The answer of An impedance spectrum containing 80 data points...

Question 16

The following two circuits are equivalent. The values of R₁ and R₂ are (i) R₁ = __________ $\Omega$ (ii) R₂ = ________________$\Omega$

Accepted Answer

The answer of The following two circuits are equivalent. The...

Question 17

The following two circuits are equivalent. The values of R₁ and R₂ are (i) R₁ = __________ $\Omega$ (ii) R₂ = ________________$\Omega$

Accepted Answer

The answer of The following two circuits are equivalent. The...

Question 18

The following circuit can model an impedance spectrum perfectly.

Which other circuits can model the data equally well?
(Circuit-1)

(Circuit-2)

A) only Circuit-1
B) only Circuit-2
C) both Circuit-1 and Circuit-2
D) neither Circuit-2 nor Circuit-2

Accepted Answer

The answer of The following circuit can model an impedance...

Question 19

The following circuit can model an impedance spectrum perfectly.

Which other circuits can model the data equally well?
(Circuit-1)

(Circuit-2)

A) only Circuit-1
B) only Circuit-2
C) both Circuit-1 and Circuit-2
D) neither Circuit-2 nor Circuit-2

Accepted Answer

The answer of The following circuit can model an impedance...

Question 20

The following impedance spectrum is to be modeled.&#10; &#10;Among the following circuit choices, which one can be used to model the data?&#10;A)  &#10;B)  &#10;C)  &#10;D) none of the above

Accepted Answer

The answer of The following impedance spectrum is to be...

Question 21

The following impedance spectrum is to be modeled.&#10; &#10;Among the following circuit choices, which one can be used to model the data?&#10;A)  &#10;B)  &#10;C)  &#10;D) none of the above

Accepted Answer

The answer of The following impedance spectrum is to be...

Deck 4: Data Analysis Equivalent Electrical Circuits