Consider a series RC circuit as in the figure below for which R = 1.00 MΩ, C = 5.00 µF, and ε = 30.0

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Consider a series RC circuit as in the figure below for which R = 1.00 MΩ, C = 5.00 µF, and ε = 30.0 V. Find (a) the time constant of the circuit and (b) the maximum charge on the capacitor after the switch is thrown closed. (c) Find the current in the resistor 10.0 s after the switch is closed.
  1. WNY Tutor
  2. Consider a series RC circuit as in the figure below for which R = 1.00 MΩ
  3. C = 5.00 µF
  4. and ε = 30.0 V.
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all these years later and there are still those who need these, good on you m8

gabrieldacostamartins
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Thank you so much! Your videos have truly been a life saver!

beckymartin
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this dude putting in more work than my college professor

darustyfpoon
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I do other thing to calculate the current in the resistor when t = 10 s, well, if it is a serie circuit, the current is constant in all the components, so, with the equation : I = (E/R) e^(-t/RC), you only have to evaluate

carlosmolina
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kind sir i could kiss you on the mouth. thank you for helping me finally pass physics

sal
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Thank you this was so helpful. can you please answer P28.60

lutahitumba
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please help to solve this: If an RC circuit contains a 1300 ? resistor and a 230 �F capacitor, what would be the time of one time constant? Thank you

davidlim
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good morning gamers lets get this bread

aaroncline
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hello! the video is great! thank you and how do we find the maximum current during the charging process?

nguyentrieu
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Is this question involve using Kirchoff's Current Law or Charging and Discharging capacitor?

ewwannna
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why in part "c" we write q=(1.5*10^-4) why not 10^-6

ialeani