Transformer with wire running through as secondary

In summary, the conversation discusses the induction of voltage in a piece of wire passing through a transformer. The person confirms that the wire forms part of a closed loop and therefore induces an electric field across its two ends. The conversation also mentions the physics of a betatron, where a sinusoidal magnetic field is applied to a toroidal vacuum chamber and induces an electric field inside. This further demonstrates the presence of an electric field inside the vacuum chamber.
  • #1
stephen163
17
0
I want to confirm that I'm thinking about this in the right way...


Imagine a transformer. The primary has an integer number of turns. Now imagine the secondary has less than 1 turn, i.e., just a piece of wire passing through, forming essentially half a turn.

I know voltage is induced in this piece of wire. It doesn't form a closed loop, but faraday's law relates the induced electric field around a CLOSED loop to the time varying magnetic flux passing through the loop.

Can I assume that the wire itself forms PART of a closed loop and hence an electric field is indiced across the two ends?
 
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  • #2
Yes, you are correct. Review the physics of a particle (electron) accelerator called a betatron. A sinusoidal magnetic field BA(t) is applied to the area (A = pi R2) inside a toroidal vacuum chamber of major radius R, inducing an azimuthal electric field E(t) inside the vacuum chamber of minor radius r << R, per Faraday's law. If the Bv(t) field on the vacuum chamber itself is half the average field BA(t) in the area A, the particle will be simultaneously smoothly accelerated by Faraday's law and deflected by the Lorentz Force F(t) = q[v(t) x Bv(t)] , and wlll remain inside the vacuum chamber as it is accelerated. This demonstrates that the accelerating electric field is everywhere inside the vacuum chamber.
 
  • #3


Yes, you are thinking about this in the right way. The wire in the secondary of the transformer can be considered as part of a closed loop, with one end connecting to the primary coil and the other end connecting to the rest of the secondary coil. This means that an electric field will be induced in the wire due to the changing magnetic field in the primary coil. This is in accordance with Faraday's law, which states that the induced electromotive force (EMF) in a closed loop is directly proportional to the rate of change of the magnetic flux through that loop. In this case, the wire acts as part of the closed loop and the induced EMF will result in a voltage across the two ends of the wire.
 

Related to Transformer with wire running through as secondary

1. How does a transformer with a wire running through as a secondary work?

A transformer with a wire running through as a secondary is a type of transformer that uses a secondary winding, or wire, to transfer energy from the primary winding to the load. This is done through electromagnetic induction, where a changing magnetic field in the primary winding induces a current in the secondary winding.

2. What is the purpose of the wire running through as a secondary in a transformer?

The wire running through as a secondary in a transformer serves as a means of transferring energy from the primary winding to the load. It acts as a conductive pathway for the induced current to flow, allowing for the transformation of energy from one voltage level to another.

3. How is the wire in a transformer's secondary winding connected?

The wire in a transformer's secondary winding is typically connected in a series or parallel configuration, depending on the desired output voltage and current. This connection allows for the secondary winding to step up or step down the input voltage from the primary winding.

4. Can the wire in a transformer's secondary winding be replaced with a different material?

Yes, the wire in a transformer's secondary winding can be made of different materials such as copper, aluminum, or even superconducting materials. The choice of material can affect the efficiency and performance of the transformer, as well as its cost.

5. Is the wire in a transformer's secondary winding the only component that affects its performance?

No, the wire in a transformer's secondary winding is just one of the many components that can affect its performance. Other factors such as the design of the transformer, the number of windings, and the type of core material also play a significant role in its efficiency and performance.

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