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Problem 1:

-. +. Homework 03. Electrical Circuits:. Problem 1:. Problem 2:. Problem 3:. Problem 4:. Problem 5:. C. L. R. Lagrange Equation. +. V 1. -. Problem 1:.

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Problem 1:

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  1. - + Homework 03 Electrical Circuits: Problem 1: Problem 2: Problem 3: Problem 4: Problem 5:

  2. C L R Lagrange Equation + V1 - Problem 1: As shown in the circuit, V1 is the input, q and q1 generalized charges. Write the energy expressions for the circuit. Establish the mathematical model by applying Lagrange equation. Find determinant equation which gives eigenvalues. Click for answer.

  3. As shown in the circuit, V1 is the input, q1, q2 and q3 generalized charges. Write the energy expressions for the circuit. Establish the mathematical model by applying Lagrange equation. Find determinant equation which gives eigenvalues. R2 C2 C3 C1 Lagrange Equation V1 V2 R1 R3 - + in op-amp: Problem 2: Click for answer.

  4. Lagrange Equation C1 C2 A + V1 R1 R2 - Problem 3: As shown in the circuit, V1 is the input, q1 and q2 generalized charges. Write the energy expressions for the circuit. Establish the mathematical model by applying Lagrange equation. Find determinant equation which gives eigenvalues. Click for answer.

  5. R1 R2 A + Lagrange Equation V1 C1 C2 - Problem 4: As shown in the circuit, V1 is the input, q1 and q2 generalized charges. Write the energy expressions for the circuit. Establish the mathematical model by applying Lagrange equation. Find determinant equation which gives eigenvalues. Click for answer.

  6. C1 R2 R1 Lagrange Equation A V1 VA C2 - + In op-amp: (Maddock, p.499) Problem 5: As shown in the circuit, V1 is the input, q1 and q2 generalized charges. Write the energy expressions for the circuit. Establish the mathematical model by applying Lagrange equation. Find determinant equation which gives eigenvalues. Click for answer.

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