Enter your answer, in milli seconds, in the field below

","Numerical Question","1","800",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 10 μF. Given that the resistor R is 17 kΩ and the voltage source is 8 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","170",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 13 kΩ and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","65",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 180 mH. Given that the resistor R is 17 Ω and the voltage source is 10 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","10.5882",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 12 kΩ and the capacitor has a capacitance of 10 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","600",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 20 kΩ and the voltage source is 5 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","40",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 10 kΩ and the capacitor has a capacitance of 2 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","100",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 16 Ω and the inductor has an inductance of 220 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","68.75",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 16 Ω and the inductor has an inductance of 300 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","93.75",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 13 Ω and the inductor has an inductance of 380 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","146.1538",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 180 mH. Given that the resistor R is 13 Ω and the voltage source is 10 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","13.8462",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 13 kΩ and the voltage source is 5 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","26",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 10 μF. Given that the resistor R is 10 kΩ and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","100",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 20 Ω and the inductor has an inductance of 100 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","25",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 12 kΩ and the voltage source is 6 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","24",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 12 kΩ and the capacitor has a capacitance of 10 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","600",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 340 mH. Given that the resistor R is 19 Ω and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","17.8947",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 340 mH. Given that the resistor R is 15 Ω and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","22.6667",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 10 μF. Given that the resistor R is 10 kΩ and the voltage source is 15 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","100",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 18 kΩ and the capacitor has a capacitance of 10 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","900",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 10 Ω and the inductor has an inductance of 100 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","50",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 10 kΩ and the capacitor has a capacitance of 2 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","100",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 16 Ω and the inductor has an inductance of 340 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","106.25",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 11 kΩ and the capacitor has a capacitance of 5 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","275",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 13 Ω and the inductor has an inductance of 340 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","130.7692",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 20 kΩ and the voltage source is 6 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","100",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 19 kΩ and the capacitor has a capacitance of 5 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","475",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 14 kΩ and the voltage source is 10 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","28",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 260 mH. Given that the resistor R is 12 Ω and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","21.6667",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 100 mH. Given that the resistor R is 16 Ω and the voltage source is 20 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","6.25",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 20 kΩ and the voltage source is 6 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","40",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 260 mH. Given that the resistor R is 17 Ω and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","15.2941",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 100 mH. Given that the resistor R is 17 Ω and the voltage source is 5 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","5.8824",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 340 mH. Given that the resistor R is 18 Ω and the voltage source is 6 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","18.8889",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 20 kΩ and the capacitor has a capacitance of 10 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","1000",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 19 kΩ and the capacitor has a capacitance of 5 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","475",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 10 μF. Given that the resistor R is 17 kΩ and the voltage source is 15 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","170",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 16 kΩ and the capacitor has a capacitance of 5 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","400",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 16 kΩ and the voltage source is 5 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","32",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 14 kΩ and the capacitor has a capacitance of 5 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","350",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 16 kΩ and the capacitor has a capacitance of 5 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","400",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 14 kΩ and the capacitor has a capacitance of 10 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","700",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 18 kΩ and the voltage source is 8 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","36",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 19 kΩ and the capacitor has a capacitance of 2 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","190",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 380 mH. Given that the resistor R is 17 Ω and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","22.3529",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 12 Ω and the inductor has an inductance of 220 mH, determine how many seconds will it take for the inductor's magnetic field to reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","91.6667",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 100 mH. Given that the resistor R is 14 Ω and the voltage source is 12 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","7.1429",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 19 kΩ and the voltage source is 5 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","38",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 340 mH. Given that the resistor R is 20 Ω and the voltage source is 20 V, determine the time constant associated with this circuit.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","17",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","Given that the resistor R, in the circuit below, has a resistance of 11 kΩ and the capacitor has a capacitance of 10 μF, determine how many seconds will it take for the capacitor's voltage to be reach steady-state (steady-state is reached after five time constants) after the switch is closed.

Enter your answer, in milli seconds, in the field below

","Numerical Question","1","550",""," ", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 140 mH. Given that the resistor R is 15 Ω and the voltage source is 5 V.

Identify which of the four plots shown below the circuit correctly illustrates the electrical behaviour of the circuit over time given that the switch is closed at time t = 0 seconds.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 10 kΩ and the voltage source is 8 V.

Identify which of the four plots shown below the circuit correctly illustrates the electrical behaviour of the circuit over time given that the switch is closed at time t = 0 seconds.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 300 mH. Given that the resistor R is 20 Ω and the voltage source is 12 V.

Identify which of the four plots shown below the circuit correctly illustrates the electrical behaviour of the circuit over time given that the switch is closed at time t = 0 seconds.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 220 mH. Given that the resistor R is 14 Ω and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 13 kΩ; the capacitor has a capacitance of 5 μF and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 16 kΩ; the capacitor has a capacitance of 10 μF and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 11 kΩ; the capacitor has a capacitance of 10 μF and the voltage source is 12 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 300 mH. Given that the resistor R is 19 Ω and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 100 mH. Given that the resistor R is 13 Ω and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 11 kΩ and the voltage source is 12 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 340 mH. Given that the resistor R is 10 Ω and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 220 mH. Given that the resistor R is 20 Ω and the voltage source is 10 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 13 Ω; the inductor has an inductance of 340 mH and the voltage source is 5 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 20 kΩ; the capacitor has a capacitance of 10 μF and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 10 kΩ; the capacitor has a capacitance of 10 μF and the voltage source is 20 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 19 kΩ and the voltage source is 20 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 16 Ω; the inductor has an inductance of 380 mH and the voltage source is 20 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 19 Ω; the inductor has an inductance of 220 mH and the voltage source is 10 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 10 μF. Given that the resistor R is 12 kΩ and the voltage source is 15 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 300 mH. Given that the resistor R is 14 Ω and the voltage source is 20 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 20 kΩ and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 16 kΩ; the capacitor has a capacitance of 2 μF and the voltage source is 15 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 380 mH. Given that the resistor R is 11 Ω and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 12 kΩ and the voltage source is 20 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 180 mH. Given that the resistor R is 13 Ω and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 11 Ω; the inductor has an inductance of 140 mH and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 19 Ω; the inductor has an inductance of 180 mH and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 10 kΩ and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 10 μF. Given that the resistor R is 17 kΩ and the voltage source is 5 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 19 Ω; the inductor has an inductance of 140 mH and the voltage source is 10 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 140 mH. Given that the resistor R is 16 Ω and the voltage source is 10 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","100","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 10 μF. Given that the resistor R is 17 kΩ and the voltage source is 10 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 15 kΩ; the capacitor has a capacitance of 10 μF and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 13 Ω; the inductor has an inductance of 180 mH and the voltage source is 12 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 12 Ω; the inductor has an inductance of 180 mH and the voltage source is 15 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 180 mH. Given that the resistor R is 13 Ω and the voltage source is 15 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 10 Ω; the inductor has an inductance of 300 mH and the voltage source is 12 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 2 μF. Given that the resistor R is 16 kΩ and the voltage source is 15 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 220 mH. Given that the resistor R is 20 Ω and the voltage source is 12 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 12 kΩ; the capacitor has a capacitance of 10 μF and the voltage source is 12 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 16 Ω; the inductor has an inductance of 100 mH and the voltage source is 10 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 20 kΩ; the capacitor has a capacitance of 10 μF and the voltage source is 20 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 19 kΩ; the capacitor has a capacitance of 2 μF and the voltage source is 20 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 15 Ω; the inductor has an inductance of 260 mH and the voltage source is 5 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 19 kΩ and the voltage source is 15 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The resistor R, in the circuit below, has a resistance of 11 kΩ; the capacitor has a capacitance of 2 μF and the voltage source is 10 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 260 mH. Given that the resistor R is 17 Ω and the voltage source is 6 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 16 kΩ and the voltage source is 8 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","100","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The inductor in the circuit below has an inductance of 180 mH. Given that the resistor R is 19 Ω and the voltage source is 5 V.

","Multiple Choice Question","0","Plot A","","100","Plot B","","0","Plot C","","0","Plot D","","0", "//Electrical circuits/Inductor and capacitor operational characteristics/Transient response","inductor_capacitor_transient_response","Inductor and Capacitor Transient Response ","The capacitor in the circuit below has a capacitance of 5 μF. Given that the resistor R is 17 kΩ and the voltage source is 12 V.

","Multiple Choice Question","0","Plot A","","0","Plot B","","0","Plot C","","0","Plot D","","100",