RLC Circuit - Voltage drop across Inductor

AI Thread Summary
The discussion focuses on calculating the voltage drop across an inductor in an RLC circuit with a given capacitor and inductor connected to a 60 Hz source. The correct approach involves using the formula I = V/Z to find the current and then applying pd = I*XL to determine the voltage across the inductor. It is emphasized that the voltages across the inductor and capacitor are out of phase, which affects how they relate to the source voltage. The misunderstanding arose from incorrectly attempting to use I*XC instead of the correct formula. The clarification highlights that the voltage drop across the inductor can exceed the source voltage due to the phase relationship.
calvert11
Messages
31
Reaction score
0

Homework Statement



A 10 μF capacitor and a 25 H inductor are connected in series with a 60 Hz source whose rms output is 112 V.

Find the voltage drop across the inductor. Answer in units of V.
Note: Sigfigs do not matter

Homework Equations



I = V/Z where Z is the impedence

XL = omega*L
XC = 1/omega*C

The Attempt at a Solution



I assumed the closed circuit was connected thus: battery to the capacitor, the capacitor to the inductor, the inductor to the battery.

I found the current using equation I = V/Z (the answer was correct)

I found the voltage drop across the capacitor by the equation V - I*XL = \DeltaV (the answer was correct)

For the voltage drop across the inductor I tried I*XC - V. The answer is incorrect.

Could anyone tell me what I'm doing wrong?
 
Last edited:
Physics news on Phys.org
The voltage across the inductor leads the current by pi/2.
The voltage across the capacitor lags the current by pi/2.

So the voltages are in antiphase, and it is the difference between them
(not the sum) which is equal to the source voltage.

But having found the current, you can simply apply pd = I*XL to get the
voltage across the inductor.
 
Last edited:
davieddy said:
So the voltages are in antiphase, and it is the difference between them
(not the sum) which is equal to the source voltage.
Thank you, this explains a lot. My answer would have been "pd = I*XL" but I thought it didn't make sense since it was greater than the source voltage.
 
Thread 'Struggling to make relation between elastic force and height'

Thread 'Struggling to make relation between elastic force and height'

Hello guys this is what I tried so far. I used the UTS to calculate the force it needs when the rope tears. My idea was to make a relationship/ function that would give me the force depending on height. Yeah i couldnt find a way to solve it. I also thought about how I could use hooks law (how it was given to me in my script) with the thought of instead of having two part of a rope id have one singular rope from the middle to the top where I could find the difference in height. But the...
View full post »
Thread 'Voltmeter readings for this circuit with switches'

Thread 'Voltmeter readings for this circuit with switches'

TL;DR Summary: I would like to know the voltmeter readings on the two resistors separately in the picture in the following cases , When one of the keys is closed When both of them are opened (Knowing that the battery has negligible internal resistance) My thoughts for the first case , one of them must be 12 volt while the other is 0 The second case we'll I think both voltmeter readings should be 12 volt since they are both parallel to the battery and they involve the key within what the...
View full post »

Similar threads

Calculation of current in driven series RLC circuit
Replies
8
Views
2K
Series RLC and Parallel RLC circuits
Replies
15
Views
5K
Can the Voltage Across a Capacitor Be Greater Than the Source Voltage in a Series RLC Circuit?
Replies
3
Views
2K
LC oscillations - two capacitors and an inductor
Replies
15
Views
662
Current in RLC Series Circuit: Need Help
Replies
2
Views
1K
Current through an inductor as a function of time
Replies
10
Views
448
Resonant frequency of L - R||C circuit
Replies
21
Views
1K
Determining Inductance L in an LC Circuit
Replies
5
Views
2K
Combined tensions of an RLC series circuit with AC current
Replies
3
Views
914
The potential difference across an inductor
Replies
9
Views
10K

Hot Threads

Recent Insights

Back
Top