PH 102 ch 19. conceptual questions

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Consider two capacitors with unequal capacitance connected in series to a battery. What is true?

-The equivalent capacitance of the combination of the two capacitors is less than the capacitance of either of the capacitors. -The charge stored on each of the capacitors is the same. -The algebraic sum of the voltages across the two capacitors is equal to the voltage supplied by the battery.

Consider three resistors with unequal resistances connected in series to a battery. What is true?

-The equivalent resistance of the combination of resistors is greater than the resistance of any one of the three resistors. -The algebraic sum of the voltages across the three resistors is equal to the voltage supplied by the battery. -The current flowing through each of the resistors is the same and is equal to the current supplied by the battery

Consider two capacitors with unequal capacitance connected in parallel to a battery. What is true?

-The sum of the charge stored on each capacitor is equal to the charge supplied by the battery. -The equivalent capacitance of the combination is greater than the capacitance of either of the capacitors. -The voltage across each of the capacitors is the same.

Consider three resistors with unequal resistances connected in parallel to a battery. What is. true?

-The voltage across each of the resistors is the same and is equal in magnitude to the voltage of the battery. -The algebraic sum of the currents flowing through each of the three resistors is equal to the current supplied by the battery. -The equivalent resistance of the combination of resistors is less than the resistance of any one of the three resistors.

If the voltage across the first capacitor (the one with capacitance C) is ΔV1, then what are the voltages across the second and third capacitors?

1/2 delta. V1 and 1/3 delta V1

Double the resistance of the resistor by changing it from 10 Ω to 20 Ω. What happens to the current flowing through the circuit?

The current decreases by a factor of two

Describe the effective capacitance when capacitors are connected in series

When capacitors are connected in series, the effective capacitance is LESS THAN the smallest capacitance

as we add resistors to a parallel circuit,

the overall resistance of the circuit drops, when resistance decreases, current must increase

As additional resistors are connected in series to a constant voltage source, how is the power supplied by the source affected?

the power supplied by the source decreases

As additional resistors are connected in parallel to a constant voltage source, how is the power supplied by the source affected?

the power supplied by the. source increases

Describe the effective capacitance when capacitors are connected in parallel.

when capacitors are connected in parallel, the effective capacitance is GREATER THAN the largest capacitance


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