Electronic Principles

170 V

None of these

180 V

100 V

120 V

The amount of current flow through each part of a series circuit can be different, depending on the resistance of each part and the amount of voltage applied to it

The total current in a series circuit is equal to the sum of the currents flowing through the individual components in the circuit

The same current flows through every part of a series circuit

None of these

The total current in a series circuit is equal to the total voltage multiplied by the total resistance

multiplies the capacitive reactance by 6.28

cuts the capacitive reactance in half

doubles the amount of a capacitive reactance

has no effect on the capacitive reactance

None of these

20 V

0.7 V

None of these

0.8 V

The voltage always has the same amplitude and phase for every part of the circuit

None of these

The total voltage is equal to the sum of the voltages across the resistance and capacitance

The total voltage is less than the sum of the voltages across the resistance and capacitance

The total voltage is greater than the sum of the voltages across the resistance and capacitance

ac current leads the voltage by 90 degree

ac current lags the voltage by 90 degree

None of these

ac current is converted to dc voltage

ac current and voltage are exactly in phase