Equivalence of various forms of flux linkage

AI Thread Summary
The discussion centers on the equivalence of different definitions of magnetic flux linkage, particularly the expression λ = ∫ I dΦ. The original poster seeks clarity on how this expression relates to other definitions, such as λ = N Φ, λ = ∫ V dt, and λ = L I. Confusion arises regarding the role of current in these equations, specifically how the fraction of current linked to the magnetic flux is defined. A key insight is that the fraction of current refers to the ratio of enclosed current to total current, which helps clarify the relationship between the various definitions. Ultimately, the poster concludes that understanding this fraction is crucial for deriving the equivalence of flux linkage expressions.
lagrangman
Messages
13
Reaction score
2
Hello all,

Apologies if this has already been asked before, but I tried researching this question for a while with no results.

I was reading Grainger's Power System Analysis' derivation of the inductance of a single wire and got confused by his definition of magnetic flux linkage.

He seems to state that magnetic flux linkage (λ) is ∫ I dΦ where dΦ is a differential increase in magnetic flux and I is the incremental current that causes the differential increase in magnetic flux.

I am familiar with the following definitions of flux linkage (λ):

(1) λ = N Φ where Φ is the flux that N turns of conductor "contain."
(2) λ = ∫ V dt where V is voltage caused by electromagnetic induction and t is time.
(3) λ = L I where L is the inductance of an inductor-like device and I is the current flowing through the inductor-like device.

My question is why is ∫ I dΦ equivalent anyone of the three expressions above?

Thanks in advance!
 
Engineering news on Phys.org
If the flux is constant and you have N turns you get (1).
 
Thanks for the response, however I am still confused. Where does the contributing current factor in then?

Hopefully this isn't a copyright violation, but Chang writes, "the flux linkages dλ per meter of length, which are caused by the flux in the tubular element, are the product of the flux per meter of length and the fraction of the current linked." (p. 132.)

This would correspond to a formula for flux linkage I found on the internet (∫ I dΦ as defined above), but I don't know how to derive it from the other definitions of magnetic flux.

I might be making some mistakes so feel free to correct me.

Thanks again.
 
lagrangman said:
formula for flux linkage I found on the internet (∫ I dΦ as defined above)

Could you please provide the web link ?

I really can't think of why flux linkage is equal to ∫ I dΦ .
 
I got it from here: https://www.physicsforums.com/threads/flux-linkage-in-inductance-calculation-for-single-wire.819129/

Sorry about the red herring and thank you for your time, but I think I figured it out. When people say fraction of current in this context, they mean I_enclosed/I_total. I thought fraction of current meant I_enclosed. So:

λ = ∫ f dΦ, where f is the partial current that causes the differential flux dΦ divided by the total current. I think, but am not positive, this equation is correct.

I had never seen this before so I was a little confused.

Thanks again!
 

Thread 'Underwater piezoelectric sensor array receive sensitivity'

Hi all I have some confusion about piezoelectrical sensors combination. If i have three acoustic piezoelectrical sensors (with same receive sensitivity in dB ref V/1uPa) placed at specific distance, these sensors receive acoustic signal from a sound source placed at far field distance (Plane Wave) and from broadside. I receive output of these sensors through individual preamplifiers, add them through hardware like summer circuit adder or in software after digitization and in this way got an...
View full post »

Thread 'Question about bonding ground and neutral'

I am not an electrical engineering student, but a lowly apprentice electrician. I learn both on the job and also take classes for my apprenticeship. I recently wired my first transformer and I understand that the neutral and ground are bonded together in the transformer or in the service. What I don't understand is, if the neutral is a current carrying conductor, which is then bonded to the ground conductor, why does current only flow back to its source and not on the ground path...
View full post »

Thread 'Following up on the recent thread about Earth Resistance measurements'

I have recently moved into a new (rather ancient) house and had a few trips of my Residual Current breaker. I dug out my old Socket tester which tell me the three pins are correct. But then the Red warning light tells me my socket(s) fail the loop test. I never had this before but my last house had an overhead supply with no Earth from the company. The tester said "get this checked" and the man said the (high but not ridiculous) earth resistance was acceptable. I stuck a new copper earth...
View full post »

Similar threads

Induction and flux linkage clarification
Replies
26
Views
7K
How to calculate magnetic flux from voltage?
Replies
4
Views
7K
COMSOL simulation of a 3D Ferrite Bar Numerical Model For Magnetic Flux
Replies
5
Views
3K
In power transmission why inductance L increases with increased spacing
Replies
32
Views
12K
Physical/conceptual reason for inductor voltage step response
Replies
4
Views
2K
Relationship between flux, current and voltage
Replies
7
Views
24K
Magnetic flux in tap changing transformers
Replies
5
Views
5K
Calculation of Change in Magnetic Flux Linkage Across a Wire
Replies
2
Views
4K
I Mutual inductance in a transformer
Replies
16
Views
4K
Flux linkage in inductance calculation for single wire.
Replies
6
Views
4K

Hot Threads

Recent Insights

Back
Top