Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","9",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R2, R3, R4 and R5 are 5, 7, 9, 6.3 and 0.7 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","21",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R6, R7 and R8 are 3, 4, 1, 4, 5 and 3 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","20",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R2, R4, and R5 are 21, 5 and 11 volts, respectively. Determine the voltage across the resistor R6.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","5",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R2, R3, R4 and R5 are 11, 2, 3.3 and 7.7 volts, respectively. The battery has a voltage of 16 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","3",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R5 and R6 are 5, 8, 0.7 and 5.6 volts, respectively. The battery supplies 20 volts. Determine the voltage across the resistor R4.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","0.7",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R4, R5 and R6 are 10, 4, 1.6 and 2.4 volts, respectively. The battery supplies 25 volts. Determine the voltage across the resistor R3.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","7",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R5 and R6 are 6, 8, 3, 1 and 6 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","24",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4, R5 and R6 are 3, 1.4, 1.4 and 4.2 volts, respectively. The battery supplies 12 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","2",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R6, R7 and R8 are 3, 6, 2, 6, 1 and 4 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","22",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4 and R5 are 5, 6 and 6 volts, respectively. The battery has a voltage of 23 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","6",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R6, R7 and R8 are 5, 2, 6, 5, 5 and 5 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","28",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R4 and R5 are 4, 3.6 and 0.4 volts, respectively. The battery has a voltage of 15 volts. Determine the voltage across the resistor R3.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","7",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4 and R5 are 5, 6, 3.6 and 0.4 volts, respectively. Determine the voltage delivered by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","15",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4, R5 and R6 are 8, 2, 0.5 and 2.5 volts, respectively. The battery supplies 17 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","4",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4 and R5 are 1, 1.2 and 1.8 volts, respectively. The battery has a voltage of 7 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","3",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R4, R5 and R6 are 2, 1.5, 1 and 2.5 volts, respectively. The battery supplies 14 volts. Determine the voltage across the resistor R3.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","7",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R5 and R6 are 4, 2, 1.5, 1 and 2.5 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","11",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4 and R5 are 2, 0.9 and 8.1 volts, respectively. The battery has a voltage of 12 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","1",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R2, R3, R4 and R5 are 6, 3, 10, 0.3 and 2.7 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","19",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R6, R7 and R8 are 6, 5, 3, 4, 5 and 1 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","24",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4 and R6 are 2, 2, 1.1 and 5.5 volts, respectively. The battery supplies 15 volts. Determine the voltage across the resistor R5.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","4.4",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R2, R3, R5 and R6 are 2, 12, 7, 4.8 and 6 volts, respectively. The battery supplies 21 volts. Determine the voltage across the resistor R4.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","1.2",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R2, R3, R4 and R5 are 10, 9, 6 and 4 volts, respectively. The battery has a voltage of 21 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","2",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R6, R7 and R8 are 2, 3, 5, 1, 4 and 5 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","20",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4, R5 and R6 are 4, 2, 6 and 5 volts, respectively. The battery supplies 21 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","4",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R5 and R6 are 1, 3, 6, 6 and 2 volts, respectively. Determine the voltage supplied by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","18",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R5, and R8 are 5 and 4 volts, respectively. Determine the voltage across the resistor R7.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","1",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R4, R5 and R6 are 2, 1.2, 4.8 and 6 volts, respectively. The battery supplies 15 volts. Determine the voltage across the resistor R3.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","1",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R5, and R8 are 9 and 4 volts, respectively. Determine the voltage across the resistor R7.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","5",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4 and R5 are 6, 0.9 and 2.1 volts, respectively. The battery has a voltage of 14 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","5",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R5, and R6 are 3, 3, 7 and 1 volts, respectively. The battery supplies 17 volts. Determine the voltage across the resistor R4.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","3",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R2, R3 and R5 are 5, 11, 7 and 6.6 volts, respectively. Determine the voltage across the resistor R4.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","4.4",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4, R5 and R6 are 4, 0.6, 0.3 and 2.1 volts, respectively. The battery supplies 14 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","7",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R2, R4, and R5 are 14, 2 and 6 volts, respectively. Determine the voltage across the resistor R6.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","6",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R5 and R6 are 3, 8, 1.8, 0.6 and 3.6 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","17",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R5, and R6 are 4, 4, 6 and 5 volts, respectively. The battery supplies 24 volts. Determine the voltage across the resistor R4.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","5",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4 and R6 are 6, 4, 1.6 and 3.2 volts, respectively. The battery supplies 18 volts. Determine the voltage across the resistor R5.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","3.2",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R4 and R5 are 1, 8.1 and 0.9 volts, respectively. The battery has a voltage of 12 volts. Determine the voltage across the resistor R3.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","2",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R2, R3, R4 and R5 are 9, 12, 10, 1.2 and 10.8 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","31",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4 and R6 are 6, 9, 0.4 and 3.2 volts, respectively. The battery supplies 19 volts. Determine the voltage across the resistor R5.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","0.4",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R4, R5 and R6 are 6, 3, 1.2 and 1.8 volts, respectively. The battery supplies 13 volts. Determine the voltage across the resistor R3.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","1",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R4, R5 and R6 are 10, 0.6, 0.6 and 1.8 volts, respectively. The battery supplies 16 volts. Determine the voltage across the resistor R3.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","3",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R2, R3, R4 and R5 are 12, 8, 2.4 and 9.6 volts, respectively. The battery has a voltage of 22 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","2",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R5, and R6 are 1, 4, 4 and 4 volts, respectively. The battery supplies 18 volts. Determine the voltage across the resistor R4.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","5",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R2, R3, R5 and R6 are 4, 5, 8, 1.5 and 2 volts, respectively. The battery supplies 17 volts. Determine the voltage across the resistor R4.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","1.5",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4 and R5 are 6, 10, 8.4 and 3.6 volts, respectively. Determine the voltage delivered by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","28",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R3, R4, R5 and R6 are 9, 4, 1, 1 and 3 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","18",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R3, R4, R5 and R6 are 1, 3, 1.8 and 1.2 volts, respectively. The battery supplies 17 volts. Determine the voltage across the resistor R1.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","10",""," ", "//Electrical circuits/DC/Kirchoffs current voltage Laws","dc_kirchhoffs_laws","Kirchhoff's Voltage Law ","The voltages across the resistors R1, R2, R3, R4 and R5 are 6, 11, 4, 2.2 and 8.8 volts, respectively. Determine the voltage provided by the battery.

Enter your answer, in volts, in the field below (enter a numerical value only)

","Numerical Question","2","21",""," ", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","10 ohms","","0","100 ohms","","100","0.2 ohms","","0","140 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","100 ohms","","0","1000 ohms","","100","1900 ohms","","0","0.1 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","20 ohms","","0","1 ohms","","0","10 ohms","","100","0.1 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.4 ohms","","0","4 ohms","","100","8 ohms","","0","6.8 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.027778 ohms","","0","3.6 ohms","","0","0.25 ohms","","0","36 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","880 ohms","","0","2200 ohms","","0","0.0045455 ohms","","0","220 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","200 ohms","","0","20 ohms","","100","0.1 ohms","","0","1 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.001 ohms","","0","1000 ohms","","100","1400 ohms","","0","0.2 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","1 ohms","","0","90 ohms","","100","9 ohms","","0","900 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","10000 ohms","","100","500 ohms","","0","0.0001 ohms","","0","1 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","28 ohms","","100","36.4 ohms","","0","1 ohms","","0","112 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","7 ohms","","100","0.7 ohms","","0","8.4 ohms","","0","0.14286 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.9 ohms","","0","15.3 ohms","","0","9 ohms","","100","90 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","20 ohms","","100","2 ohms","","0","100 ohms","","0","0.05 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","55 ohms","","0","11 ohms","","0","1100 ohms","","0","110 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.5 ohms","","0","198 ohms","","0","55 ohms","","0","110 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","120 ohms","","100","0.0083333 ohms","","0","1200 ohms","","0","0.33333 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","120 ohms","","100","1200 ohms","","0","180 ohms","","0","360 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.0041667 ohms","","0","0.25 ohms","","0","240 ohms","","100","2400 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","1 ohms","","0","24 ohms","","0","240 ohms","","100","0.0041667 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","720 ohms","","0","456 ohms","","0","1 ohms","","0","240 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.0125 ohms","","0","112 ohms","","0","3 ohms","","0","80 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","150 ohms","","100","75 ohms","","0","2 ohms","","0","0.0066667 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","300 ohms","","100","360 ohms","","0","0.0033333 ohms","","0","0.5 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.125 ohms","","0","67.2 ohms","","0","6 ohms","","0","48 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","480 ohms","","0","1 ohms","","0","48 ohms","","100","62.4 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.083333 ohms","","0","4 ohms","","0","120 ohms","","0","12 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","120 ohms","","0","1 ohms","","0","12 ohms","","100","0.083333 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","1.2 ohms","","0","3 ohms","","0","12 ohms","","100","120 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","30 ohms","","0","0.33333 ohms","","0","3 ohms","","100","5.1 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","4 ohms","","100","0.4 ohms","","0","1 ohms","","0","0.25 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","160 ohms","","0","0.25 ohms","","0","16 ohms","","100","4 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","50 ohms","","0","5 ohms","","100","4 ohms","","0","20 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","0.05 ohms","","0","5 ohms","","0","200 ohms","","0","20 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","4 ohms","","100","20 ohms","","0","1 ohms","","0","0.8 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","2 ohms","","0","1 ohms","","0","200 ohms","","0","20 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","3.2 ohms","","0","320 ohms","","0","32 ohms","","100","0.25 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","80 ohms","","0","0.125 ohms","","0","2 ohms","","0","8 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","40 ohms","","100","76 ohms","","0","8 ohms","","0","400 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","8 ohms","","100","40 ohms","","0","0.8 ohms","","0","5 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","225 ohms","","0","4.5 ohms","","0","0.022222 ohms","","0","45 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","45 ohms","","0","1 ohms","","0","5 ohms","","0","9 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","20 ohms","","100","5 ohms","","0","0.05 ohms","","0","4 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","500 ohms","","0","1000 ohms","","0","0.01 ohms","","0","100 ohms","","100", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","6 ohms","","0","60 ohms","","100","480 ohms","","0","7.5 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","12 ohms","","0","120 ohms","","100","4 ohms","","0","1200 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","600 ohms","","0","60 ohms","","100","0.016667 ohms","","0","4 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","60 ohms","","100","600 ohms","","0","240 ohms","","0","15 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","352 ohms","","0","320 ohms","","100","3200 ohms","","0","1280 ohms","","0", "//Electrical circuits/DC/ohms law graph","ohms_law_graphs","Determine Resistance from Experiment Data","The plot below shows the results of an experiment where the current flowing through a resistor was measured as the voltage across it was changed.

What was the approximate resistance of the resistor used in the experiment?","Multiple Choice Question","0","4 ohms","","0","800 ohms","","0","20 ohms","","0","80 ohms","","100", "//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 30 volts. The resistors R1 and R2 have values of 300 Ω and 100 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","30 V","","0","0.13333 V","","0","0.075 V","","0","22.5 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 6 volts. The resistors R1 and R2 have values of 120 Ω and 240 Ω, respectively.

Determine the voltage drop across the resistor R1.

","Multiple Choice Question","0","2 V","","100","0.016667 V","","0","9 V","","0","20 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 24 volts. The resistors R1 and R2 have values of 100 Ω and 400 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","19.2 V","","0","0.20833 V","","0","4.8 V","","100","30 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 12 volts. The resistors R1 and R2 have values of 6 Ω and 6 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","1 V","","0","6 V","","100","12 V","","0","0.16667 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 9 volts. The resistors R1 and R2 have values of 10 Ω and 5 Ω, respectively.

Determine the potential difference across the resistor R1.

","Multiple Choice Question","0","6 V","","100","3 V","","0","0.6 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 30 volts. The resistors R1 and R2 have values of 10 Ω and 40 Ω, respectively.

Determine the voltage drop across the resistor R2.

","Multiple Choice Question","0","24 V","","100","60 V","","0","0 V","","0","0.041667 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 15 volts. The resistors R1 and R2 have values of 15 Ω and 5 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","3.75 V","","100","0 V","","0","0.75 V","","0","112.5 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 6 volts. The resistors R1 and R2 have values of 20 Ω and 10 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","4 V","","100","0.5 V","","0","40 V","","0","18 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 24 volts. The resistors R1 and R2 have values of 150 Ω and 50 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","18 V","","100","96 V","","0","0 V","","0","0.16667 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 12 volts. The resistors R1 and R2 have values of 24 Ω and 12 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","8 V","","100","18 V","","0","0.25 V","","0","36 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 6 volts. The resistors R1 and R2 have values of 12 Ω and 4 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","45 V","","0","1.5 V","","0","4.5 V","","100","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 15 volts. The resistors R1 and R2 have values of 240 Ω and 60 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","120 V","","0","3 V","","100","0.33333 V","","0","12 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 24 volts. The resistors R1 and R2 have values of 150 Ω and 150 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","0 V","","0","24 V","","0","0.083333 V","","0","12 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 12 volts. The resistors R1 and R2 have values of 160 Ω and 40 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","60 V","","0","0.06 V","","0","2.4 V","","0","9.6 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 9 volts. The resistors R1 and R2 have values of 4 Ω and 8 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","30 V","","0","0.75 V","","0","0.16667 V","","0","6 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 24 volts. The resistors R1 and R2 have values of 120 Ω and 480 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","120 V","","0","0.04 V","","0","24 V","","0","4.8 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 30 volts. The resistors R1 and R2 have values of 40 Ω and 120 Ω, respectively.

Determine the voltage drop across the resistor R1.

","Multiple Choice Question","0","120 V","","0","7.5 V","","100","30 V","","0","0.044444 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 9 volts. The resistors R1 and R2 have values of 4 Ω and 8 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","3 V","","100","0 V","","0","27 V","","0","0.75 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 18 volts. The resistors R1 and R2 have values of 6 Ω and 24 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","18 V","","0","3.6 V","","100","36 V","","0","90 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 6 volts. The resistors R1 and R2 have values of 50 Ω and 100 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","20 V","","0","4 V","","100","0.04 V","","0","6 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 15 volts. The resistors R1 and R2 have values of 12 Ω and 6 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","5 V","","100","100 V","","0","0.1 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 30 volts. The resistors R1 and R2 have values of 100 Ω and 50 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","20 V","","100","0.2 V","","0","0 V","","0","0.05 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 18 volts. The resistors R1 and R2 have values of 60 Ω and 60 Ω, respectively.

Determine the voltage drop across the resistor R2.

","Multiple Choice Question","0","0.15 V","","0","18 V","","0","90 V","","0","9 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 6 volts. The resistors R1 and R2 have values of 6 Ω and 6 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","3 V","","100","0.33333 V","","0","12 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 10 volts. The resistors R1 and R2 have values of 12 Ω and 12 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","5 V","","100","50 V","","0","0.2 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 6 volts. The resistors R1 and R2 have values of 150 Ω and 150 Ω, respectively.

Determine the potential difference across the resistor R1.

","Multiple Choice Question","0","3 V","","100","12 V","","0","30 V","","0","0.33333 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 6 volts. The resistors R1 and R2 have values of 5 Ω and 15 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","0.22222 V","","0","1.5 V","","100","8 V","","0","0.66667 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 15 volts. The resistors R1 and R2 have values of 40 Ω and 120 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","37.5 V","","0","3.75 V","","100","0.088889 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 30 volts. The resistors R1 and R2 have values of 16 Ω and 4 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","24 V","","100","37.5 V","","0","240 V","","0","6 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 15 volts. The resistors R1 and R2 have values of 60 Ω and 120 Ω, respectively.

Determine the voltage drop across the resistor R1.

","Multiple Choice Question","0","5 V","","100","15 V","","0","50 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 10 volts. The resistors R1 and R2 have values of 450 Ω and 150 Ω, respectively.

Determine the voltage drop across the resistor R1.

","Multiple Choice Question","0","0 V","","0","75 V","","0","7.5 V","","100","10 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 9 volts. The resistors R1 and R2 have values of 6 Ω and 6 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","0.22222 V","","0","0.75 V","","0","45 V","","0","4.5 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 6 volts. The resistors R1 and R2 have values of 30 Ω and 15 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","2 V","","100","0 V","","0","9 V","","0","4 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 18 volts. The resistors R1 and R2 have values of 100 Ω and 100 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","9 V","","100","0 V","","0","0.11111 V","","0","36 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 12 volts. The resistors R1 and R2 have values of 150 Ω and 150 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","60 V","","0","12 V","","0","6 V","","100","24 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 24 volts. The resistors R1 and R2 have values of 100 Ω and 100 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","120 V","","0","24 V","","0","12 V","","100","48 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 15 volts. The resistors R1 and R2 have values of 6 Ω and 24 Ω, respectively.

Determine the potential difference across the resistor R1.

","Multiple Choice Question","0","3 V","","100","12 V","","0","75 V","","0","30 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 15 volts. The resistors R1 and R2 have values of 40 Ω and 10 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","18.75 V","","0","15 V","","0","3 V","","100","12 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 30 volts. The resistors R1 and R2 have values of 45 Ω and 15 Ω, respectively.

Determine the potential difference across the resistor R2.

","Multiple Choice Question","0","0.13333 V","","0","22.5 V","","0","7.5 V","","100","120 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 12 volts. The resistors R1 and R2 have values of 20 Ω and 10 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","4 V","","0","8 V","","100","12 V","","0","36 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 10 volts. The resistors R1 and R2 have values of 4 Ω and 8 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","0.83333 V","","0","3.3333 V","","100","0.15 V","","0","10 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 24 volts. The resistors R1 and R2 have values of 24 Ω and 6 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","120 V","","0","0.052083 V","","0","0.8 V","","0","4.8 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 10 volts. The resistors R1 and R2 have values of 50 Ω and 200 Ω, respectively.

Determine the voltage drop across the resistor R2.

","Multiple Choice Question","0","0.5 V","","0","2 V","","0","12.5 V","","0","8 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 6 volts. The resistors R1 and R2 have values of 18 Ω and 6 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","0 V","","0","4.5 V","","0","1.5 V","","100","0.66667 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 30 volts. The resistors R1 and R2 have values of 150 Ω and 50 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","22.5 V","","100","0.044444 V","","0","0.15 V","","0","0.13333 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 15 volts. The resistors R1 and R2 have values of 20 Ω and 10 Ω, respectively.

Determine the potential difference across the resistor R2.

","Multiple Choice Question","0","0.1 V","","0","100 V","","0","45 V","","0","5 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 24 volts. The resistors R1 and R2 have values of 150 Ω and 150 Ω, respectively.

Determine the potential difference across the resistor R2.

","Multiple Choice Question","0","0 V","","0","0.083333 V","","0","12 V","","100","120 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 24 volts. The resistors R1 and R2 have values of 5 Ω and 5 Ω, respectively.

Determine the potential difference across the resistor R2.

","Multiple Choice Question","0","12 V","","100","2.4 V","","0","24 V","","0","48 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 24 volts. The resistors R1 and R2 have values of 5 Ω and 15 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","60 V","","0","6 V","","100","0.055556 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 15 volts. The resistors R1 and R2 have values of 480 Ω and 120 Ω, respectively.

Determine the voltage potential between node n1 and ground in the circuit below.

","Multiple Choice Question","0","75 V","","0","0 V","","0","12 V","","100","15 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 300 Ω, 100 Ω and 200 Ω, respectively.

Determine the voltage drop across the resistor R3.

","Multiple Choice Question","0","13.5 V","","0","135 V","","0","72 V","","0","6 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 30 volts. The resistors R1, R2 and R3 have values of 18 Ω, 12 Ω and 6 Ω, respectively.

Determine the voltage drop across the resistor R2.

","Multiple Choice Question","0","0.055556 V","","0","0 V","","0","180 V","","0","10 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 6 volts. The resistors R1, R2 and R3 have values of 12 Ω, 24 Ω and 12 Ω, respectively.

Determine the potential difference across the resistor R1.

","Multiple Choice Question","0","9 V","","0","18 V","","0","0.16667 V","","0","1.5 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 6 volts. The resistors R1, R2 and R3 have values of 6 Ω, 18 Ω and 12 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","0.22222 V","","0","4 V","","100","0.25 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 9 volts. The resistors R1, R2 and R3 have values of 300 Ω, 300 Ω and 150 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","4.5 V","","0","7.2 V","","100","3.6 V","","0","0.015 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 6 volts. The resistors R1, R2 and R3 have values of 120 Ω, 120 Ω and 120 Ω, respectively.

Determine the voltage in this circuit between node n1 and ground.

","Multiple Choice Question","0","30 V","","0","0.33333 V","","0","6 V","","0","2 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 24 volts. The resistors R1, R2 and R3 have values of 120 Ω, 360 Ω and 240 Ω, respectively.

Determine the voltage across the resistor R3.

","Multiple Choice Question","0","32 V","","0","16 V","","0","8 V","","100","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 24 volts. The resistors R1, R2 and R3 have values of 60 Ω, 180 Ω and 60 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","19.2 V","","100","0.1 V","","0","14.4 V","","0","32 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 80 Ω, 40 Ω and 80 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","6 V","","100","0.3 V","","0","0 V","","0","66.6667 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 100 Ω, 100 Ω and 200 Ω, respectively.

Determine the voltage drop across the resistor R3.

","Multiple Choice Question","0","5 V","","100","0.2 V","","0","0.05 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 240 Ω, 120 Ω and 240 Ω, respectively.

Determine the potential difference across the resistor R3.

","Multiple Choice Question","0","7.2 V","","100","0.083333 V","","0","54 V","","0","3.6 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 30 volts. The resistors R1, R2 and R3 have values of 100 Ω, 100 Ω and 50 Ω, respectively.

Determine the voltage in this circuit between node n1 and ground.

","Multiple Choice Question","0","12 V","","100","24 V","","0","0 V","","0","6 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 9 volts. The resistors R1, R2 and R3 have values of 45 Ω, 45 Ω and 15 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","3.8571 V","","0","0 V","","0","7.7143 V","","100","1.2857 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 50 Ω, 100 Ω and 50 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","13.5 V","","0","4.5 V","","100","6 V","","0","0.12 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 10 Ω, 10 Ω and 20 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","50 V","","0","5 V","","100","20 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 18 Ω, 6 Ω and 6 Ω, respectively.

Determine the potential difference across the resistor R3.

","Multiple Choice Question","0","0.074074 V","","0","18 V","","0","24 V","","0","3.6 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 40 Ω, 40 Ω and 80 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","2.5 V","","0","20 V","","0","5 V","","100","0.2 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 6 volts. The resistors R1, R2 and R3 have values of 360 Ω, 120 Ω and 120 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","45 V","","0","4.8 V","","100","1.5 V","","0","3.6 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 15 volts. The resistors R1, R2 and R3 have values of 10 Ω, 20 Ω and 10 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","0 V","","0","45 V","","0","11.25 V","","100","7.5 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 24 volts. The resistors R1, R2 and R3 have values of 5 Ω, 10 Ω and 5 Ω, respectively.

Determine the voltage drop across the resistor R3.

","Multiple Choice Question","0","16 V","","0","72 V","","0","6 V","","100","24 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 9 volts. The resistors R1, R2 and R3 have values of 8 Ω, 4 Ω and 8 Ω, respectively.

Determine the voltage in this circuit between node n1 and ground.

","Multiple Choice Question","0","3.6 V","","100","0.33333 V","","0","3 V","","0","0.75 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 9 volts. The resistors R1, R2 and R3 have values of 10 Ω, 10 Ω and 5 Ω, respectively.

Determine the voltage across the resistor R3.

","Multiple Choice Question","0","4.5 V","","0","1.8 V","","100","7.2 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 15 Ω, 5 Ω and 5 Ω, respectively.

Determine the voltage across the resistor R3.

","Multiple Choice Question","0","0.9 V","","0","3.6 V","","100","0.074074 V","","0","13.5 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 9 volts. The resistors R1, R2 and R3 have values of 50 Ω, 50 Ω and 50 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","0.22222 V","","0","45 V","","0","4.5 V","","0","6 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 6 volts. The resistors R1, R2 and R3 have values of 10 Ω, 20 Ω and 10 Ω, respectively.

Determine the voltage drop across the resistor R2.

","Multiple Choice Question","0","1.5 V","","0","20 V","","0","3 V","","100","0.25 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 24 volts. The resistors R1, R2 and R3 have values of 30 Ω, 10 Ω and 20 Ω, respectively.

Determine the potential difference across the resistor R2.

","Multiple Choice Question","0","0.16667 V","","0","4 V","","100","16 V","","0","96 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 15 volts. The resistors R1, R2 and R3 have values of 150 Ω, 50 Ω and 50 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","3 V","","100","0.26667 V","","0","20 V","","0","11.25 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 30 volts. The resistors R1, R2 and R3 have values of 15 Ω, 5 Ω and 10 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","22.5 V","","0","0.044444 V","","0","20 V","","100","40 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 12 volts. The resistors R1, R2 and R3 have values of 150 Ω, 300 Ω and 150 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","0.026667 V","","0","6 V","","100","0.125 V","","0","36 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 24 volts. The resistors R1, R2 and R3 have values of 15 Ω, 30 Ω and 45 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","80 V","","0","0 V","","0","72 V","","0","8 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 30 volts. The resistors R1, R2 and R3 have values of 450 Ω, 150 Ω and 450 Ω, respectively.

Determine the voltage across the resistor R3.

","Multiple Choice Question","0","120 V","","0","12.8571 V","","100","0.13333 V","","0","0.05 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 12 volts. The resistors R1, R2 and R3 have values of 120 Ω, 120 Ω and 60 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","2.4 V","","0","9.6 V","","100","0.16667 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 15 volts. The resistors R1, R2 and R3 have values of 120 Ω, 40 Ω and 40 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","0.09375 V","","0","12 V","","100","0 V","","0","15 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 12 Ω, 12 Ω and 36 Ω, respectively.

Determine the voltage drop across the resistor R1.

","Multiple Choice Question","0","5 V","","0","50 V","","0","2 V","","100","4 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 9 volts. The resistors R1, R2 and R3 have values of 40 Ω, 80 Ω and 40 Ω, respectively.

Determine the voltage drop across the resistor R2.

","Multiple Choice Question","0","0.075 V","","0","3 V","","0","4.5 V","","100","30 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 30 volts. The resistors R1, R2 and R3 have values of 30 Ω, 10 Ω and 20 Ω, respectively.

Determine the potential difference across the resistor R3.

","Multiple Choice Question","0","0 V","","0","225 V","","0","10 V","","100","20 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 15 volts. The resistors R1, R2 and R3 have values of 120 Ω, 40 Ω and 40 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","3 V","","0","9 V","","0","12 V","","100","3.75 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 5 Ω, 15 Ω and 10 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","0.074074 V","","0","12 V","","100","6 V","","0","3 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 120 Ω, 240 Ω and 120 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","4.5 V","","100","13.5 V","","0","9 V","","0","27 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 100 Ω, 50 Ω and 100 Ω, respectively.

Determine the voltage across the resistor R3.

","Multiple Choice Question","0","2 V","","0","4 V","","100","0.3 V","","0","0.15 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the battery in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 15 Ω, 45 Ω and 30 Ω, respectively.

Determine the voltage across the resistor R1.

","Multiple Choice Question","0","0.3 V","","0","72 V","","0","3 V","","100","0.074074 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The voltage of the voltage source in the circuit below is 6 volts. The resistors R1, R2 and R3 have values of 120 Ω, 120 Ω and 360 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","1.2 V","","100","3 V","","0","0.025 V","","0","0 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 30 volts. The resistors R1, R2 and R3 have values of 40 Ω, 40 Ω and 120 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","0.066667 V","","0","15 V","","0","12 V","","0","6 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 6 volts. The resistors R1, R2 and R3 have values of 40 Ω, 120 Ω and 80 Ω, respectively.

Determine the voltage across the resistor R2.

","Multiple Choice Question","0","3 V","","100","0.22222 V","","0","8 V","","0","6 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 24 volts. The resistors R1, R2 and R3 have values of 60 Ω, 60 Ω and 120 Ω, respectively.

Determine the voltage across the resistor R3.

","Multiple Choice Question","0","0 V","","0","24 V","","0","12 V","","100","6 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 120 Ω, 60 Ω and 60 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","7.5 V","","100","5 V","","0","3.3333 V","","0","6.6667 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the voltage source in the circuit below is 18 volts. The resistors R1, R2 and R3 have values of 36 Ω, 12 Ω and 12 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","14.4 V","","100","10.8 V","","0","0.22222 V","","0","24 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 30 volts. The resistors R1, R2 and R3 have values of 30 Ω, 10 Ω and 30 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","30 V","","0","0.75 V","","0","40 V","","0","17.1429 V","","100",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 10 volts. The resistors R1, R2 and R3 have values of 5 Ω, 5 Ω and 15 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","20 V","","0","10 V","","0","4 V","","100","1 V","","0",
"//Electrical circuits/DC/Potential divider","dc_potential_divider","Potential Divider","The emf of the battery in the circuit below is 15 volts. The resistors R1, R2 and R3 have values of 15 Ω, 15 Ω and 5 Ω, respectively.

Determine the voltage potential in this circuit between node n2 and ground.

","Multiple Choice Question","0","0.13333 V","","0","7.5 V","","0","6.4286 V","","0","12.8571 V","","100",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 2 volts and the resistance of the resistor R is 220 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","18.1818",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 8 volts and the resistance of the resistor R is 960 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","66.6667",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 4 volts and the resistance of the resistor R is 460 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","34.7826",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 18 volts and the resistance of the resistor R is 900 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","360",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 5 volts and the resistance of the resistor R is 940 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","26.5957",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 10 volts and the resistance of the resistor R is 880 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","113.6364",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 5 volts and the resistance of the resistor R is 580 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","43.1034",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 16 volts and the resistance of the resistor R is 440 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","581.8182",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 14 volts and the resistance of the resistor R is 120 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","1633.3333",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 2 volts and the resistance of the resistor R is 200 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.02",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 9 volts and the resistance of the resistor R is 920 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.088043",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 5 volts and the resistance of the resistor R is 680 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.036765",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 16 volts and the resistance of the resistor R is 960 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.26667",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 15 volts and the resistance of the resistor R is 700 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.32143",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 2 volts and the resistance of the resistor R is 220 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.018182",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 3 volts and the resistance of the resistor R is 460 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.019565",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 19 volts and the resistance of the resistor R is 300 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","1.2033",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 16 volts and the current flowing through the resistor is 530 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","8.48",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 8 volts and the current flowing through the resistor is 720 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","5.76",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 11 volts and the current flowing through the resistor is 990 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","10.89",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 16 volts and the current flowing through the resistor is 960 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","15.36",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 10 volts and the current flowing through the resistor is 370 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","3.7",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 15 volts and the current flowing through the resistor is 390 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","5.85",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 18 volts and the current flowing through the resistor is 160 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","2.88",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 12 volts and the current flowing through the resistor is 130 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","1.56",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 17 volts and the current flowing through the resistor is 20 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.34",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 11 volts and the current flowing through the resistor is 780 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","8.58",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 12 volts and the current flowing through the resistor is 50 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.6",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 13 volts and the current flowing through the resistor is 640 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","8.32",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 3 volts and the current flowing through the resistor is 970 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","2.91",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 4 volts and the current flowing through the resistor is 830 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","3.32",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The voltage Vin applied to the circuit below is 5 volts and the current flowing through the resistor is 560 milliamps (mA). Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","2.8",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 600 milliamps (mA), where R has a resistance of 640 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","230.4",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 370 milliamps (mA), where R has a resistance of 140 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","19.166",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 100 milliamps (mA), where R has a resistance of 840 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","8.4",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 530 milliamps (mA), where R has a resistance of 100 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","28.09",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 360 milliamps (mA), where R has a resistance of 180 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","23.328",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 760 milliamps (mA), where R has a resistance of 840 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","485.184",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 870 milliamps (mA), where R has a resistance of 660 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","499.554",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 840 milliamps (mA), where R has a resistance of 360 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","254.016",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 360 milliamps (mA), where R has a resistance of 460 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","59.616",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 30 milliamps (mA), where R has a resistance of 980 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","0.882",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 770 milliamps (mA), where R has a resistance of 500 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","296.45",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 710 milliamps (mA), where R has a resistance of 840 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","423.444",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 470 milliamps (mA), where R has a resistance of 140 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","30.926",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 590 milliamps (mA), where R has a resistance of 960 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","334.176",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 710 milliamps (mA), where R has a resistance of 260 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","131.066",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 570 milliamps (mA), where R has a resistance of 420 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","136.458",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 460 milliamps (mA), where R has a resistance of 180 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","38.088",""," ",
"//Electrical circuits/DC/Power dissipated by a resistor","dc_resistor_power_calc","Resistor Power Dissipation","The current flowing through the resistor R in the circuit below is 330 milliamps (mA), where R has a resistance of 520 ohms. Determine the power dissipated by the resistor in watts (W) and enter the result in the answer field below (enter a numerical value only)

","Numerical Question","1","56.628",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R1 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 900 ohms; R2 = 300 ohms.

","Numerical Question","2","13.3333",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R1 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 900 ohms; R2 = 320 ohms.

","Numerical Question","2","2.2222",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R1 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 980 ohms; R2 = 860 ohms.

","Numerical Question","2","18.3673",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 520 ohms; R2 = 580 ohms.

","Numerical Question","2","7.6923",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 6 volts; R1 = 600 ohms; R2 = 900 ohms.

","Numerical Question","2","6.6667",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 400 ohms; R2 = 140 ohms.

","Numerical Question","2","71.4286",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 6 volts; R1 = 580 ohms; R2 = 1000 ohms.

","Numerical Question","2","6",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 300 ohms; R2 = 280 ohms.

","Numerical Question","2","28.5714",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 580 ohms; R2 = 880 ohms.

","Numerical Question","2","15.9091",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 360 ohms; R2 = 880 ohms.

","Numerical Question","2","9.0909",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 300 ohms; R2 = 440 ohms.

","Numerical Question","2","22.7273",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 120 ohms; R2 = 640 ohms.

","Numerical Question","2","12.5",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 800 ohms; R2 = 560 ohms.

","Numerical Question","2","14.2857",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 260 ohms; R2 = 580 ohms.

","Numerical Question","2","20.6897",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 380 ohms; R2 = 520 ohms.

","Numerical Question","2","15.3846",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 480 ohms; R2 = 740 ohms.

","Numerical Question","2","5.4054",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 320 ohms; R2 = 580 ohms.

","Numerical Question","2","13.7931",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 6 volts; R1 = 300 ohms; R2 = 420 ohms.

","Numerical Question","2","14.2857",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 920 ohms; R2 = 460 ohms.

","Numerical Question","2","26.087",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 100 ohms; R2 = 540 ohms.

","Numerical Question","2","7.4074",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 360 ohms; R2 = 180 ohms.

","Numerical Question","2","77.7778",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 840 ohms; R2 = 620 ohms.

","Numerical Question","2","25.8065",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 620 ohms; R2 = 100 ohms.

","Numerical Question","2","140",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 6 volts; R1 = 980 ohms; R2 = 620 ohms.

","Numerical Question","2","9.6774",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 320 ohms; R2 = 140 ohms.

","Numerical Question","2","14.2857",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 360 ohms; R2 = 820 ohms.

","Numerical Question","2","2.439",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 200 ohms; R2 = 500 ohms.

","Numerical Question","2","40",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 100 ohms; R2 = 220 ohms.

","Numerical Question","2","81.8182",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 860 ohms; R2 = 480 ohms.

","Numerical Question","2","41.6667",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 960 ohms; R2 = 1000 ohms.

","Numerical Question","2","2",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 120 ohms; R2 = 600 ohms.

","Numerical Question","2","16.6667",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 660 ohms; R2 = 520 ohms.

","Numerical Question","2","3.8462",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 960 ohms; R2 = 800 ohms.

","Numerical Question","2","10",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 440 ohms; R2 = 720 ohms.

","Numerical Question","2","27.7778",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 680 ohms; R2 = 740 ohms.

","Numerical Question","2","21.6216",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 440 ohms; R2 = 620 ohms.

","Numerical Question","2","29.0323",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 340 ohms; R2 = 260 ohms.

","Numerical Question","2","7.6923",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 120 ohms; R2 = 720 ohms.

","Numerical Question","2","25",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 420 ohms; R2 = 280 ohms.

","Numerical Question","2","28.5714",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 840 ohms; R2 = 520 ohms.

","Numerical Question","2","38.4615",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 920 ohms; R2 = 760 ohms.

","Numerical Question","2","18.4211",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 700 ohms; R2 = 660 ohms.

","Numerical Question","2","3.0303",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 840 ohms; R2 = 180 ohms.

","Numerical Question","2","55.5556",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 300 ohms; R2 = 780 ohms.

","Numerical Question","2","15.3846",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 660 ohms; R2 = 340 ohms.

","Numerical Question","2","41.1765",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 440 ohms; R2 = 960 ohms.

","Numerical Question","2","12.5",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 120 ohms; R2 = 760 ohms.

","Numerical Question","2","15.7895",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 700 ohms; R2 = 960 ohms.

","Numerical Question","2","4.1667",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 320 ohms; R2 = 280 ohms.

","Numerical Question","2","42.8571",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 420 ohms; R2 = 780 ohms.

","Numerical Question","2","7",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 600 ohms; R2 = 440 ohms.

","Numerical Question","2","6.9231",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 780 ohms; R2 = 980 ohms.

","Numerical Question","2","7.0909",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 240 ohms; R2 = 360 ohms.

","Numerical Question","2","6.4",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 160 ohms; R2 = 660 ohms.

","Numerical Question","2","1.561",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 820 ohms; R2 = 820 ohms.

","Numerical Question","2","5",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 320 ohms; R2 = 580 ohms.

","Numerical Question","2","1.4222",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 460 ohms; R2 = 800 ohms.

","Numerical Question","2","5.1111",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 720 ohms; R2 = 820 ohms.

","Numerical Question","2","1.8701",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 820 ohms; R2 = 780 ohms.

","Numerical Question","2","9.225",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 700 ohms; R2 = 740 ohms.

","Numerical Question","2","8.75",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 300 ohms; R2 = 640 ohms.

","Numerical Question","2","3.8298",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 680 ohms; R2 = 960 ohms.

","Numerical Question","2","4.9756",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 6 volts; R1 = 920 ohms; R2 = 900 ohms.

","Numerical Question","2","3.033",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 860 ohms; R2 = 760 ohms.

","Numerical Question","2","2.1235",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 160 ohms; R2 = 480 ohms.

","Numerical Question","2","1",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 340 ohms; R2 = 380 ohms.

","Numerical Question","2","4.7222",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 740 ohms; R2 = 560 ohms.

","Numerical Question","2","7.9692",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 500 ohms; R2 = 580 ohms.

","Numerical Question","2","0.92593",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 840 ohms; R2 = 220 ohms.

","Numerical Question","2","15.8491",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 800 ohms; R2 = 540 ohms.

","Numerical Question","2","11.9403",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 500 ohms; R2 = 400 ohms.

","Numerical Question","2","2.2222",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 620 ohms; R2 = 520 ohms.

","Numerical Question","2","9.7895",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 120 ohms; R2 = 540 ohms.

","Numerical Question","2","0.72727",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 180 ohms; R2 = 360 ohms.

","Numerical Question","2","4",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 840 ohms; R2 = 520 ohms.

","Numerical Question","2","4.9412",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 520 ohms; R2 = 340 ohms.

","Numerical Question","2","12.093",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 260 ohms; R2 = 420 ohms.

","Numerical Question","2","3.8235",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 14 volts; R1 = 660 ohms; R2 = 100 ohms.

","Numerical Question","2","12.1579",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 660 ohms; R2 = 860 ohms.

","Numerical Question","2","1.7368",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 460 ohms; R2 = 420 ohms.

","Numerical Question","2","1.0455",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 340 ohms; R2 = 160 ohms.

","Numerical Question","2","6.8",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 240 ohms; R2 = 860 ohms.

","Numerical Question","2","2.1818",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 100 ohms; R2 = 880 ohms.

","Numerical Question","2","1.2245",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 10 volts; R1 = 520 ohms; R2 = 520 ohms.

","Numerical Question","2","5",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 260 ohms; R2 = 260 ohms.

","Numerical Question","2","8",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 12 volts; R1 = 560 ohms; R2 = 600 ohms.

","Numerical Question","2","5.7931",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 520 ohms; R2 = 700 ohms.

","Numerical Question","2","7.6721",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 4 volts; R1 = 360 ohms; R2 = 300 ohms.

","Numerical Question","2","2.1818",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 200 ohms; R2 = 860 ohms.

","Numerical Question","2","3.3962",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 6 volts; R1 = 240 ohms; R2 = 640 ohms.

","Numerical Question","2","1.6364",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 2 volts; R1 = 260 ohms; R2 = 320 ohms.

","Numerical Question","2","0.89655",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 20 volts; R1 = 120 ohms; R2 = 620 ohms.

","Numerical Question","2","3.2432",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 420 ohms; R2 = 180 ohms.

","Numerical Question","2","5.6",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 480 ohms; R2 = 800 ohms.

","Numerical Question","2","6",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 800 ohms; R2 = 160 ohms.

","Numerical Question","2","13.3333",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 300 ohms; R2 = 640 ohms.

","Numerical Question","2","5.7447",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 8 volts; R1 = 260 ohms; R2 = 840 ohms.

","Numerical Question","2","1.8909",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 6 volts; R1 = 740 ohms; R2 = 460 ohms.

","Numerical Question","2","3.7",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the voltage, in volts, across the resistor R1 in the circuit shown below, given the following component values: Vin = 16 volts; R1 = 800 ohms; R2 = 640 ohms.

","Numerical Question","2","8.8889",""," ",
"//Electrical circuits/DC/resistor network circuit analysis","dc_basic_circuit_analysis","Circuit Analysis","Determine the current flowing, in milli amps, through the resistor R2 in the circuit shown below, given the following component values: Vin = 18 volts; R1 = 560 ohms; R2 = 900 ohms; R3 = 480 ohms.

","Numerical Question","2","9.2784",""," ",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","6.0714 Ω","","0","485.71 Ω","","0","404.76 Ω","","100","364.29 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","440 kΩ","","100","352 kΩ","","0","528 kΩ","","0","2.4 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","6.3 V","","0","297.6 V","","0","272.8 V","","0","7 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","363 Ω","","0","330 Ω","","100","4 Ω","","0","297 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","254.1 kV","","0","231 kV","","0","207.9 kV","","0","30 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","80.604 Ω","","0","5.6287 Ω","","0","5.117 Ω","","0","100.76 Ω","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","1.56 kΩ","","100","1.404 kΩ","","0","110 Ω","","0","120 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","13.5 V","","0","12 V","","0","192 kV","","0","15 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","5 V","","100","110 V","","0","90 V","","0","4 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","7.52 kΩ","","0","10.34 kΩ","","0","8.8 Ω","","0","9.4 kΩ","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","264 kΩ","","0","330 kΩ","","100","288 Ω","","0","396 kΩ","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","14 kV","","0","21 kV","","0","72 V","","0","80 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","26.17 V","","100","23.553 V","","0","942.13 V","","0","1.2562 kV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","5.566 V","","0","6.1845 V","","100","2.7566 kV","","0","3.0072 kV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","6 V","","100","4.8 V","","0","5.4 V","","0","470.8 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","25 V","","100","30 V","","0","22.5 V","","0","258.3 kV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","1.3463 kV","","0","1.6155 kV","","0","4.038 V","","100","3.2304 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","25 V","","100","110 kV","","0","100 kV","","0","120 kV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","80 V","","0","90 V","","0","100 V","","100","24.3 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","2.079 kV","","0","2.772 kV","","0","64 V","","0","80 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","10.791 mV","","100","8.8867 kV","","0","8.6331 mV","","0","12.95 mV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","81 Ω","","0","99 Ω","","0","575 kΩ","","100","72 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","198 V","","0","10 V","","100","176 V","","0","8 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","7.28 kV","","0","2 V","","100","10.92 kV","","0","2.2 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","558 V","","0","11 V","","0","496 V","","0","10 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","4.4 V","","0","4 V","","100","506 V","","0","3.2 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","264 V","","0","1.0164 MV","","0","242 V","","0","220 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","3 V","","100","3.3 V","","0","1.9648 kV","","0","2.7016 kV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","27.854 kΩ","","100","1.9272 Ω","","0","25.069 kΩ","","0","22.284 kΩ","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","109.09 V","","100","98.182 V","","0","54.545 kV","","0","130.91 V","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","240 Ω","","0","36.91 kΩ","","100","44.292 kΩ","","0","40.601 kΩ","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","6.82 kV","","0","288 V","","0","240 V","","100","5.58 kV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","9.5294 Ω","","0","330 kΩ","","100","297 kΩ","","0","264 kΩ","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","16.544 kΩ","","0","8 Ω","","0","20.68 kΩ","","100","18.612 kΩ","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","10 kΩ","","0","13.75 kΩ","","0","11.25 kΩ","","0","12.5 kΩ","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","15.625 Ω","","0","6.3636 kΩ","","0","5.303 kΩ","","100","17.045 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","25.701 V","","0","323.34 V","","0","28.913 V","","0","32.126 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","591.3 mV","","0","739.13 mV","","100","377.63 V","","0","813.04 mV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","2.2995 kV","","0","627.91 mV","","100","2.587 kV","","0","3.1619 kV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","110 Ω","","0","90 Ω","","0","10 Ω","","100","120 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","7.047 kΩ","","0","180 Ω","","0","7.83 kΩ","","100","150 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","3.1845 kV","","0","629.9 mV","","0","3.503 kV","","0","699.89 mV","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","27 kV","","0","27 V","","0","24 V","","0","30 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","88.439 Ω","","0","79.595 Ω","","0","937.92 Ω","","100","1.0317 kΩ","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","1.5619 kV","","0","476.19 mV","","100","1.7571 kV","","0","428.57 mV","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","2.01 kΩ","","100","1.809 kΩ","","0","45 Ω","","0","55 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","4.32 kΩ","","0","3.6 kΩ","","100","48 Ω","","0","40 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent resistance for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","200 kΩ","","100","220 kΩ","","0","72 Ω","","0","96 Ω","","0",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","50.038 kV","","0","55.042 kV","","0","40.209 V","","0","44.677 V","","100",
"//Electrical circuits/DC/Thevenin equivalent circuits","dc_thevenin","DC Thevinin Equivalent","Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B.

","Multiple Choice Question","0","2.4621 kV","","0","2.2345 V","","0","2.7083 kV","","0","2.4828 V","","100",