Part A Derive the expression for the current f (t) for t>0. Express your answer in terms of the variables L₁, L₂. Ig. T. t, and appropriate constante. VO ALO ₁ (t) = Submit Part B f(t)- Derive the expression for the current f (t) for t>0. Express your answer in terms of the variables L₁, L₂. I. T. t, and appropriate constante. Submit Part C f1 (00) - Request Answer Part D |VO| | ALO Use the derived expression to find f (00). Express your answer in some terms of the variables L₁, L2, I. T. and appropriate constants. Osa 1? Request Answer Submit Request Answer 1₂ (00) - O EB 1? Use the derived expression to find ₂ (00). Express your answer in some terms of the variables L₁, L2. I. T. and appropriate constants. VO AZO 41 Submit Request Answer 63 1?

There is no energy stored in the inductors L1 and L2 at the time the switch is opened in the circuit shown in (Figure 1).

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Part A Derive the expression for the current i, (t) for t> 0. Express your answer in terms of the variables L₁, L2. Ig. T. t, and appropriate constante. i (t)- Submit Part B iz (t)= Submit Derive the expression for the current ₂ (t) for t≥ 0. Express your answer in terms of the variables L. L2. Ig. T. t, and appropriate constante. Part C in (00) = VAZO #1 Part D Request Answer 1₂ (00) - VO ALO Use the derived expression to find (00). Express your answer in some terms of the variables L₁, L₂, Ig, T. and appropriate constante. VO AZO Submit 41 Submit Request Answer Requect Antwer Use the derived expression to find 12 (00). Express your answer in some terms of the variables L₁, L2. Ig. T. and appropriate constante. 63 1? 41 You VAZQ 41 Request Answer (617

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18 († R 0=1 500↓ 7810