1. Three capacitors with individual capacitance of 2 uF, 5 µF, and 10 uF respectively are connected in series with a 12V battery. What are the total capacitance and total charge in the network? Note: series po ito so be careful sa kung anung formula ang gagamitin niu. answer for total capacitance should be 1.25µF.. for the total charge just multiply it with the voltage.

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1. Three capacitors with individual capacitance of 2 µF, 5 µF, and 10 pF
respectively are connected in series with a 12V battery. What are the total capacitance and
total charge in the network? Note: series po ito so be careful sa kung anung formula ang
gagamitin niu. answer for total capacitance should be 1.25µF.. for the total charge just
multiply it with the voltage.
2. Same capacitors in number 1 connected in a parallel. What will be the total capacitance in
the network? If the combined charge in the network is 50 µC, what is the total voltage?
For the total capacitance, use the formula for parallel capacitors whereas for the total
voltage, use 50 µC as the value of Qt in order to solve for the unknown which is V. Total
voltage should be approx. 2.9x10-6 (or 2.9 µC)
Transcribed Image Text:SOIve 1. Three capacitors with individual capacitance of 2 µF, 5 µF, and 10 pF respectively are connected in series with a 12V battery. What are the total capacitance and total charge in the network? Note: series po ito so be careful sa kung anung formula ang gagamitin niu. answer for total capacitance should be 1.25µF.. for the total charge just multiply it with the voltage. 2. Same capacitors in number 1 connected in a parallel. What will be the total capacitance in the network? If the combined charge in the network is 50 µC, what is the total voltage? For the total capacitance, use the formula for parallel capacitors whereas for the total voltage, use 50 µC as the value of Qt in order to solve for the unknown which is V. Total voltage should be approx. 2.9x10-6 (or 2.9 µC)
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