Multiple capacitors of different individual capacitance are connected in paralle
ID: 2277786 • Letter: M
Question
Multiple capacitors of different individual capacitance are connected in parallel across a battery. The voltage across each will be:
Directly proportional to the individual capacitance.
Inversely proportional to the individual capacitance.
Independent of the individual capacitance.
Dependent on a combination of all of the capacitors.
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Multiple capacitors of different capacitance are connected in series. The magnitude of charge on each individual capacitor will be:
Directly proportional to the individual capacitance.
Inversely proportional to the individual capacitance.
The same amount for each capacitor.
Calculated using a more complicated formula than the above statements can suport.
Directly proportional to the individual capacitance.
Inversely proportional to the individual capacitance.
Independent of the individual capacitance.
Dependent on a combination of all of the capacitors.
Multiple capacitors of different individual capacitance are connected in parallel across a battery. The voltage across each will be: Multiple capacitors of different capacitance are connected in series. The magnitude of charge on each individual capacitor will be:Explanation / Answer
Multiple capacitors of different individual capacitance are connected in parallel across a battery. The voltage across each will be:
Directly proportional to the individual capacitance.
Inversely proportional to the individual capacitance.
Independent of the individual capacitance.
Dependent on a combination of all of the capacitors.
Multiple capacitors of different capacitance are connected in series. The magnitude of charge on each individual capacitor will be:
Directly proportional to the individual capacitance.
Inversely proportional to the individual capacitance.
The same amount for each capacitor.
Calculated using a more complicated formula than the above statements can suport.
Directly proportional to the individual capacitance.
Inversely proportional to the individual capacitance.
Independent of the individual capacitance.
Dependent on a combination of all of the capacitors.
Multiple capacitors of different capacitance are connected in series. The magnitude of charge on each individual capacitor will be:
Question 2 options:Directly proportional to the individual capacitance.
Inversely proportional to the individual capacitance.
The same amount for each capacitor.
Calculated using a more complicated formula than the above statements can suport.
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