Ideal Transformers and Lenz Law

AI Thread Summary
The discussion centers on the relationship between primary and secondary coils in transformers, particularly how Lenz's Law affects their magnetic fields. The opposing induced magnetic field in the secondary coil leads to lower impedance and voltage drop in the primary coil, resulting in increased primary current. This increase in current raises the back electromotive force (bemf) and subsequently the primary voltage. Despite the primary voltage decreasing, the overall power draw increases due to the rising current with load. The conversation emphasizes the instantaneous nature of these changes and the calculation of power in transformers.
p75213
Messages
93
Reaction score
0
Hi,
Can somebody answer this question?

The induced magnetic field of the secondary coil opposes the magnetic field of the primary. Therefore there is a lower magnetic field on the primary - lower impedance and a lower voltage drop. This results in an increased primary current which will in turn increase the primary bemf and therefore the primary voltage will rise and so goes the cycle.

In the article I have read it says the increased primary current results in a larger power draw. I am wondering how can this be when at the same time the primary current is increasing the primary voltage is decreasing. It seems to me the power draw would be constant.
 
Engineering news on Phys.org
They are talking about an instantaneous process. When calculating power the primary voltage can be considered constant.
The current increases with load and the voltage stays the same, so the power increases.
 
Thanks for that
 

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 'What happens if shielded cable has short to the shield?'

While I was rolling out a shielded cable, a though came to my mind - what happens to the current flow in the cable if there came a short between the wire and the shield in both ends of the cable? For simplicity, lets assume a 1-wire copper wire wrapped in an aluminum shield. The wire and the shield has the same cross section area. There are insulating material between them, and in both ends there is a short between them. My first thought, the total resistance of the cable would be reduced...
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 »

Similar threads

Inducing Voltage in a Transformer: How Does It Work?
Replies
3
Views
2K
Why a transformer cannot use DC (Ampere's law)?
Replies
2
Views
1K
Motor / transformer variable frequency control
Replies
11
Views
3K
Maximum power from a transformer
Replies
8
Views
3K
Transformer equations under load
Replies
3
Views
2K
I Don't Understand Transformers/How to Apply Them
2
Replies
81
Views
7K
How to wind a 5K audio tube amplifier transformer?
Replies
9
Views
3K
Magnetics Question; is the Answer Really as Obious as it Might Seem?
Replies
8
Views
2K
Magnetic flux in tap changing transformers
Replies
5
Views
5K
How does back EMF contribute to the operation of an autotransformer?
2
Replies
64
Views
7K

Hot Threads

Recent Insights

Back
Top