What is the RC time constant for this problem?

AI Thread Summary
To find the RC time constant, start by determining the equivalent resistance and capacitance of the circuit. Resistors in series can be added directly, while capacitors in series require calculating the equivalent capacitance first. The circuit has three capacitors in series, which are then in parallel with another capacitor. Use the formula t = RC to calculate the time constant, ensuring to convert microfarads to farads for accurate results. The final units for the time constant will be in seconds, confirming the calculation is correct.
mopar969
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See attachment for problem. I am stumped on how to find the rc time constant in this problem. Please help me get started. Thanks.
 

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Write the equivalent impedance of the circuit. There will be real (resistive) and imaginary (capacitive) components.
 
mopar969 said:
See attachment for problem. I am stumped on how to find the rc time constant in this problem. Please help me get started. Thanks.
You need to replace all the capacitors and resistors with their single equivalents. You then multiply them together to get the time constant.

The resistors are easy. They are in series so just add them. The capacitors are trickier. Can you figure out the equivalent capacitance of those capacitors?

AM
 
I thought that the resistors are in parallel if not why not? Also the part I am stuck on is determining what capacitors are in parallel or series please help explain.
 
mopar969 said:
I thought that the resistors are in parallel if not why not? Also the part I am stuck on is determining what capacitors are in parallel or series please help explain.

Both ends of the resistors are not connected together, so they are not in parallel.

Three capacitors are connected in series (end to end). That three capacitor combination is in parallel with the last capacitor.

Start by finding the equivalent capacitance of the three that are in series and replace those three with that equivalent capacitance. Continue to simplify until you're left with one total resistance and one total capacitance.
 
So, i got a 4000 ohm resistor in series with a 40 uFarad capacitor but now what do I do. Thanks.
 
mopar969 said:
So, i got a 4000 ohm resistor in series with a 40 uFarad capacitor but now what do I do. Thanks.

What's the time constant value for a circuit with resistance R and capacitance C?
 
I think the equation I need to use is t=RC is this correct and f so do I need to convert uFarads to farads? Thanks.
 
mopar969 said:
I think the equation I need to use is t=RC is this correct and f so do I need to convert uFarads to farads? Thanks.

That's the correct expression. And yes, you need to pay attention to the powers of ten.
 
  • #10
I used the formula and got 4/25 ohms per farad is this correct and is this the corect units for the rc time constant?
 
  • #11
The numerical value is fine. The units are Ohm*Farad = [V]/[A] * [Coul]/[V] = [Coul]/[A] = [A][T]/[A] = [T]

So the result is in units of time (seconds).
 

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