AC Theory: How to Calculate the Relationship between Voltages in an Inductive Circuit as a Triangle

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In this video we'll see how we can use a triangle to represent how the different voltages are behaving inside an inductive circuit. Building on information seen in previous videos featuring a fluorescent lamp. We'll show how an ancient mathematical principle can be applied to the behaviour of electricity and carry out a sample calculation.

#joerobinsontraining #Electricaltrainingvideos #scienceandprinciples
  1. Joe Robinson Training
  2. Electrical
  3. training
  4. electricity
  5. voltage
  6. current
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With GSH Electrical, eFIXX and Joe Robinson training the Electrical training world is in safe hands 👍

lsnogaming
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Thanks Joe. Reminds me of being at school when the topic being taught just got more difficult over time!

no_short_circuit
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I am totally in love with YouTube channel GSH Electrical and your videos are amazing thanks Joe 👍

earlyyearslearningisfun
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Joe wow More good memories.
Thank You.

stewben
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Great video Joe, very well explained and leads very nicely into power factor too. I guess this is where the trigonometry comes into play for working out the angle of theta, I can remember in the past really struggling when it came to pythagoras and trigonometry (I checked out your videos on SOHCAHTOA and Pythagoras' Theorem as a refresher).

brightspark
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Can you please make an example for AC single phase motor to calculate the resistive and inductive of a motor ? as you said the motor is a big inductor, so i want you to make a training course on an AC motor single phase and three phase experiments to calculate the resistance and inductance of a motor as you did for inductor.
Really your training is very interesting
Thanks a lot

wadibeed
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At some point this will all sink into the old grey matter just in time for my L3 electrical science and principles exam, hopefully before the 12th Feb as today I struggled to remember anything at college. Mind had just gone totally blank!

craigemmott
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Can u please measure the resistance of the coil and add it in series with the inductor and do the calculation again to arrive exactly at 248 volts? If not .. can u please tell me is it the right way to do so?

sachinkanchan