Hiya joe great explanation as usual, was the coil the “load” in this circuit or was the coil connected in series with a load? Also, what would happen to the magnetic lines of flux if it was connected to an ac supply?
In the video, voltage is applied across a wire or coil, why didn’t it created a short circuit? By the way, your videos are really amazing, like a lot of people have commented, we wish you were our teacher and wish I could have known your channel earlier
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It did create a short circuit. All circuits are, essentially, short circuits although the term is normally referring to low resistance and accidental connection. Here the coil provides some resistance aka coil impedance.
Hi Mark, great question, I'm still very much a part of GSH Electrical but as Gary and I are super busy, to keep the content coming at the present rate we end up working separately a lot!
I have a question that i cant find a answer to... why doesnt a coil short cirtcuit the power source terminals since coil is also a conductor? Pls help mw with this...
Have you coiled a copper wire ,and if it's a copper wire is there a short circuit , coz if you take the same wire uncoiled and connected it to a supply it wit be a short circuit, or the wire must be coated? Pliz respond
Did I miss something?🧐I thought electrons flow from N to S pole.But on the video with right grip rule electricity coming toward N pole? Where did I went wrong?
Love your enthusiasm Joe - hope you pass that on to your learners. No iron filings??!!
Thanks very much, watch this space for the iron filings!
Hiya joe great explanation as usual, was the coil the “load” in this circuit or was the coil connected in series with a load? Also, what would happen to the magnetic lines of flux if it was connected to an ac supply?
Hi there, the coil was the load in this case, absolutely spot on and stay tuned for the AC answer!
In the video, voltage is applied across a wire or coil, why didn’t it created a short circuit? By the way, your videos are really amazing, like a lot of people have commented, we wish you were our teacher and wish I could have known your channel earlier
It did create a short circuit. All circuits are, essentially, short circuits although the term is normally referring to low resistance and accidental connection. Here the coil provides some resistance aka coil impedance.
Excellent. Looking forward to the iron filings. Have you changed your role as you no longer appear in gsh videos?
Hi Mark, great question, I'm still very much a part of GSH Electrical but as Gary and I are super busy, to keep the content coming at the present rate we end up working separately a lot!
@@JoeRobinsonTraining Thanks for your answer, Joe. You and Gary, Marcus and the team are doing great work.
Thanks for the support Mark 👍
I have a question that i cant find a answer to... why doesnt a coil short cirtcuit the power source terminals since coil is also a conductor? Pls help mw with this...
Top quality videos, i love electrical science .
Thanks Mark, glad they're helpful!
@@JoeRobinsonTraining Super helpful !
Have you coiled a copper wire ,and if it's a copper wire is there a short circuit , coz if you take the same wire uncoiled and connected it to a supply it wit be a short circuit, or the wire must be coated? Pliz respond
It is a copper wire yes, however I've connected it to a supply that I can control the current from so it can't draw too much and cause damage. 👍
@@JoeRobinsonTraining thanks you have responded quickly
No problem. 😊
Probably a silly question, how come you don't get a shock when holding onto the coiled wire when the power from the DC supply is turned on
I think the wire must have an insulating layer of maybe plastic or something else on top of the live wire itself
Did I miss something?🧐I thought electrons flow from N to S pole.But on the video with right grip rule electricity coming toward N pole?
Where did I went wrong?
It's not just about the direction of current flow, the direction the coil is wound will also make a difference.