RL circuit time constant question

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Homework Help Overview

The discussion revolves around an RL circuit with a 20V input, an 8.2kΩ resistor, and a 50mH inductor in series. The original poster is attempting to determine the time constant and the voltage across the inductor after a specified time.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • The original poster calculates the time constant using the formula T = L/R and questions the application of this in determining the voltage across the inductor after 1.5 time constants. Some participants suggest substituting values into the voltage formula and emphasize the importance of parentheses in calculations.

Discussion Status

Participants are exploring different interpretations of the voltage across the inductor based on whether the circuit is switched on or off. There is a divergence in the calculated values of VL, with the original poster seeking confirmation of their result and expressing confusion over differing answers from their teacher.

Contextual Notes

There is a noted ambiguity regarding the conditions of the circuit (whether the source is switched on or off) which affects the calculation of VL. The original poster is also working within the constraints of a homework assignment, seeking clarification rather than direct answers.

supra_tt
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Hi,

Was hoping someone could help me.

I have the following RL circuit:

20V input
8.2kohm resistor and 50mH Inductor in series.


Determine time constant:

I answered with: T = L/R 50mH / 8.2kohm

= 6.09 uS

Is this correct?

The question I am stuck on is:

Determine the value of VL after 1.5 time constants?

I have the formula, VL = E ( e - t / T)

I can't work out what to put for the t? I tried putting in:

20 (e - 1.5 / (6.09uS) but can't be right?

If someone could help I would be much appreciated

Thanks!
 
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1.5 time constant means that that t/T=1.5. Substitute 1.5 for t/T into the formula of VL, but do not forget using parentheses.

ehild
 
Thanks for the quick response!

I am getting VL = 4.46V, I was wondering if you could please confirm this?

I am a little confused because the teacher has written the answer as VL = 15.54V

Does this mean I just need to take 4.46 from 20 to get the answer?

Thanks again
 
VL(t) is different if the source is switched on or off at t=0. You calculated VL after the battery is switched off. In case of switching on, VL=E(1-e-t/T).

ehild
 

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