The voltage at the terminals of the 200 µH inductor in (Figure 1) is shown in (Figure 2). The inductor current i is known to be zero for t<0. Part A Derive the expression for i for 0 sts2 ms. Suppose that t is in seconds. Express your answer in amperes in terms of t. Templates Symbols lape/Displacemen Vector undo redo Teset keyboard shortcuts Helo i = A Submit Request Answer Part B Derive the expression for i for t >2 ms. Suppose that t is in seconds. Express your answer in amperes in terms of t. Templates Symbols Slope/Displacement Vector undo redo keyboard shortcuts help %3D A Submit Request Answer Part C Figure (< 1 of 2 > Sketch i versus t for 0

Please help me with parts a, b, and c

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I Review I Constants The voltage at the terminals of the 200 µH inductor in (Figure 1) is shown in (Figure 2). The inductor current i is known to be zero for t<0. Part A Derive the expression for i for 0<t< 2 ms. Suppose that t is in seconds. Express your answer in amperes in terms of t. Templates Symbols Slope/Displacement Vector undo reglo keyboard shortcuts help i = A Submit Request Answer Part B Derive the expression for i for t > 2 ms. Suppose that t is in seconds. Express your answer in amperes in terms of t. Templates Symbols Slope/Displacement Vector undo regdo reset keyboard shortcuts help i = A Submit Request Answer Part C Figure 1 of 2 Sketch i versus t for 0 <t <. No elements selected Vs 200 μΗ i (mA) 60 50 40

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I Review I Constants i = A The voltage at the terminals of the 200 µH inductor in (Figure 1) is shown in (Fiqure 2). The inductor current i is known to be zero for t<0. Submit Request Answer Part C Sketch i versus t for 0 <t <∞. No elements selected i (mA) 60 50 + 40 30 20 10 + + +t (ms) 1 2 3 4 Figure 2 of 2 Select the elements from the list and add them to the canvas setting the appropriate attributes. Press (TAB to get to the v, (mV) main menu. 5 Submit Request Answer 2 t (ms) Provide Feedback Next >