Flux linking (and de-linking?)

In summary, "Flux linking (and de-linking?)" explores the concept of linking and unlinking ideas or concepts within a framework, emphasizing the dynamic nature of connections in knowledge structures. It discusses how these connections can enhance understanding and facilitate learning while also addressing the potential for disconnection and the implications of such shifts. The text suggests strategies for effectively managing these links to optimize cognitive processes and communication.
  • #1
sdfsfasdfasf
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Homework Statement
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Relevant Equations
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Initially the current is non-zero therefore we have a magnetic field present, and at the end there is no current therefore there is no magnetic field present.
When we open the switch, and the current drops to 0, there is a change in the magnetic flux of B, as the field from A has gone. This change is intuitively a decrease, right?
1716802998123.png

If so, why does the markscheme state that "Flux links to B", should it not be "Flux de-links from B"? Or am I being pedantic?
 
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  • #2
sdfsfasdfasf said:
If so, why does the markscheme state that "Flux links to B", should it not be "Flux de-links from B"? Or am I being pedantic?
The mark scheme is simply stating that the flux (created by the current in coil A) is linked to coil B.

This is always true - whether the flux is constant, increasing or decreasing.

By the way, you haven't really answered the question.

1) You haven't explained (in terms of magnetic flux) the first observation: why the lamp is initially off - even though the switch is closed.

2) And you haven't made the key point - that a changing flux induces an emf (or induces acurrent).
 
  • #3
I wasn't answering the question in my post!
I just wanted to know what is meant by the phrase "links to", and it seems that its a little more complicated than expected, could you talk about it a little more, particularly the bit where you said "this is always true". How can we distinguish this from a changing flux?
 
  • #4
sdfsfasdfasf said:
I wasn't answering the question in my post!
You gave the question immediately followed by what appears to be your answer. So I assumed that it was your answer! What was the purpose of what you wrote, if it was not an attempt at an answer?

You then gave the mark scheme followed by a question about the mark scheme.

sdfsfasdfasf said:
I just wanted to know what is meant by the phrase "links to", and it seems that its a little more complicated than expected, could you talk about it a little more, particularly the bit where you said "this is always true".
Coils A and B share the same iron core. As a result, the magnetic flux (created by the current in coil A) is linked to coil B.

If the flux through A increases, so does the flux through B.
If the flux through A decreases, so does the flux through B.
If the flux through A is constant, so is the flux through B.

Any change in the flux through B induces an emf in B.

I don't think I can add anything further.
 
  • #5
My confusion was around the phrase "links to", if instead we use "flux in A is linked to B" that makes a lot more sense to me. I was misunderstanding and thought "links to" had something to do with increasing flux, when it dosesn't. Thank you Steve.
 
  • #6
“as the (magnetic) flux links to B” is a correct phrase.

The magnetic flux generated by the coil A exists in coils A and B and it makes a connection between coils A and B in a particular way. So the magnetic flux produced by the coil A links coil A to coil B and it can be said “as the (magnetic) flux links to B”.
 
  • #7
I agree its a correct statement, however my interpretation (incorrect) was that "links to" refers to increasing flux exclusively. When we cut the current, that reduces the flux present right?
 
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FAQ: Flux linking (and de-linking?)

What is flux linking in the context of electromagnetism?

Flux linking refers to the process by which a magnetic field lines pass through a conductive loop or coil, inducing an electromotive force (EMF) in accordance with Faraday's law of electromagnetic induction. This phenomenon is crucial in the operation of transformers, inductors, and electric generators.

How does flux linking occur in a coil?

Flux linking occurs when a changing magnetic field, generated by an alternating current or a moving magnet, passes through the area enclosed by the coil. The change in magnetic flux through the coil induces a voltage across its terminals, which can drive an electric current if the circuit is closed.

What factors affect the amount of flux linking with a coil?

The amount of flux linking with a coil is influenced by several factors, including the strength of the magnetic field, the number of turns in the coil, the area of the coil, and the angle between the magnetic field lines and the normal to the coil's surface. Higher magnetic field strength, more turns, larger area, and optimal alignment increase the flux linking.

What is the significance of de-linking flux?

De-linking flux refers to the reduction or cessation of the magnetic flux linkage in a coil, which can occur when the magnetic field changes or is removed. This process is significant because it can lead to a decrease in induced voltage and current, affecting the performance of devices such as transformers and electric motors. Understanding de-linking is essential for controlling and optimizing electromagnetic systems.

How can flux linking be maximized in practical applications?

To maximize flux linking in practical applications, engineers can optimize coil design by increasing the number of turns, using ferromagnetic materials to enhance magnetic field strength, ensuring proper alignment of the coil with the magnetic field, and minimizing air gaps in magnetic circuits. Additionally, using alternating current at appropriate frequencies can help maintain effective flux linking in dynamic systems.

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