Calculate Equivalent Inductance of Coils Connected in Series

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The discussion focuses on calculating the equivalent inductance of two coils connected in series, with measured inductances of 4 henry and 9 henry. Participants suggest that these values may not represent the coils' true inductances due to the presence of mutual inductance. The formula for equivalent inductance in series, considering mutual inductance, is proposed as L = L1 + L2 + 2M. There is a discussion about how inductance is proportional to the square of the number of turns, leading to the conclusion that the total inductance can be expressed as L = L1 + L2 + 2√(L1*L2). The challenge remains in determining the relationship of the measured values to the actual inductances of the coils.
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Homework Statement



There are two coils wined around the same closed iron core. Their inductances on this iron core are measured to be 4 henry, and 9 henry. Then the two coils are connected in series. What will the equivalent inductance be?


Homework Equations


...


The Attempt at a Solution


I think that the measured values aren´t the inductances of the coils, but there is also some mutual inductance. The equivalent inductance in series will be L=L1+L2+2M
I just don't know that the 4 Henry and the 9 Henry are in what relation with the L1 and L2 inductances(without mutual)

 
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regisz90 said:

Homework Statement



There are two coils wined around the same closed iron core. Their inductances on this iron core are measured to be 4 henry, and 9 henry. Then the two coils are connected in series. What will the equivalent inductance be?


Homework Equations


...


The Attempt at a Solution


I think that the measured values aren´t the inductances of the coils, but there is also some mutual inductance. The equivalent inductance in series will be L=L1+L2+2M
I just don't know that the 4 Henry and the 9 Henry are in what relation with the L1 and L2 inductances(without mutual)

Hint -- the inductance is proportional to the number of turns __________ (fill in the blank).
 
squared?
 
regisz90 said:
squared?

Yep! :smile:

So if you combine two equal coils L1 and L2, you don't get L1+L2, you get ________

And now how can you use this to solve this problem?
 
its proportional squared, so if the number of turns are N1 and N2, then we get L=k*(N1+N2)^2=k*N1^2 + k*N2^2 + 2*k*N1*N2=L1 + L2 + 2*sqrt(L1*L2).
But I don't know how can i use this to solve the problem. The result is the inductance of the two coils together, and they tried to measure them separately on the same iron core, but i don't know what their result is. L1 and L2? or L1+sqrt(L1*L2) and L2+sqrt(L1*L2)?
 
regisz90 said:
its proportional squared, so if the number of turns are N1 and N2, then we get L=k*(N1+N2)^2=k*N1^2 + k*N2^2 + 2*k*N1*N2=L1 + L2 + 2*sqrt(L1*L2).
But I don't know how can i use this to solve the problem. The result is the inductance of the two coils together, and they tried to measure them separately on the same iron core, but i don't know what their result is. L1 and L2? or L1+sqrt(L1*L2) and L2+sqrt(L1*L2)?

Try making up some numbers for the inductance versus the number of turns squared. The two coils are on the same core, so they will have the same inductance per number of turns squared. Work out the total inductance from there...
 

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