The voltage source has a square wave input (see chapter 13). If the frequency is 220 kHz and the voltage switches to 10 V att = 0, find: a) The time constant: b) The current I at t = 0.5us; c) The current I at t = 3.5us; d) The current I at t- 6.0ps;

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**Problem 4:** The voltage source has a square wave input (see chapter 13). If the frequency is 220 kHz and the voltage switches to 10 V at \( t = 0 \), find: a) The time constant; b) The current I at \( t = 0.5 \, \mu s \); c) The current I at \( t = 3.5 \, \mu s \); d) The current I at \( t = 6.0 \, \mu s \). Use Multisim to confirm your results, and give a screenshot. --- **Circuit Diagram Explanation:** The circuit consists of a 10V voltage source, a resistor with a resistance of 33 \(\Omega\), and an inductor with an inductance of 15 mH arranged in series. The diagram illustrates the connection with the resistor \(R\) and inductor \(L\) forming an RL circuit with the voltage source. The voltage source provides a square wave input to this RL circuit, leading to exponentially changing currents over time, which is typical behavior in such circuits.