Part A Find % (0-). Express your answer to three significant figures and include the appropriate units. i, (0-)= Value Submit Part B Request Answer μA Units Find it, (0-). Express your answer to three significant figures and include the appropriate units. i, (0-)= Value ? Units ?

The switch shown in (Figure 1) has been open a long time before closing at t = 0.

Figure and questions are included in attached photos.

Thank you

 

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**Part A** Find \( i_0(0^-) \). Express your answer to three significant figures and include the appropriate units. Input Field: - Textbox for Value - Textbox for Units Buttons: - Submit - Request Answer --- **Part B** Find \( i_1(0^-) \). Express your answer to three significant figures and include the appropriate units. Input Field: - Textbox for Value - Textbox for Units Buttons: - Submit - Request Answer --- **Part C** Find \( i_0(0^+) \). Express your answer to three significant figures and include the appropriate units. Input Field: - Textbox for Value - Textbox for Units Buttons: - Submit - Request Answer --- **Part D** Find \( i_1(0^+) \). Express your answer to three significant figures and include the appropriate units. Input Field: - Textbox for Value - Textbox for Units Buttons: - Submit - Request Answer

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### Circuit Analysis Problem This exercise involves analyzing an electrical circuit in various states and calculating different parameters over time. #### Circuit Diagram Description The circuit consists of the following components: - A 25V voltage source. - Resistors with values of 50Ω, 100Ω, 200Ω, and 300Ω. - An inductor of 50 mH. - Two key variables noted on the circuit: - \( i_L \): the current through the inductor. - \( i_0 \): a specific branch current. - \( v_L \): the voltage across the inductor. The circuit analysis problem is divided into several tasks, described below: #### Parts Description **Part E** - **Task**: Find \( i_0(\infty) \), the steady-state value of the current \( i_0 \) as time approaches infinity. - **Input**: Your answer should be expressed to three significant figures and include appropriate units. **Part F** - **Task**: Find \( i_L(\infty) \), the steady-state value of the inductor current \( i_L \). - **Input**: Express your answer to three significant figures and include appropriate units. **Part G** - **Instruction**: Complete previous parts before continuing. **Part H** - **Task**: Find \( v_L(0^-) \), the voltage across the inductor just before \( t = 0 \). - **Input**: Express your answer to three significant figures and include appropriate units. **Part I** - **Task**: Find \( v_L(0^+) \), the voltage across the inductor just after \( t = 0 \). - **Input**: Your answer should be expressed to three significant figures and include appropriate units. #### Submission For each task, enter the calculated value and select the appropriate units from the options provided. Click "Submit" to record your answers or "Request Answer" for assistance.