The only sad part is that a free video on youtube is more effective than the lessons at the college that i'm paying for...

Complicated things made simple using such an extraordinary animation effects. It was a very helpful video. Thank you very much !!!

it was very helpful. i see people are abusing because of the language and the speaking but it is really helpful for the non-native speakers and learners like us to understand these ambiguous topics while you explain these in simple English. thank you Learning Engineering. keep it up and ignore the English literature "GURUs" in the comment section

I feel like young student in your classroom at the age 63. Thanks Sir.

all the videos are amazing!!! keep up the good work! life saver!

Thank you. Very informative and actually dramatic. A sort of Asperger's Tesla action video with a capacitor as the hero who arrives just in time. Nothing cooler than clear, concise and accurate information.

Not all single phase squirrel cage induction motors are like this, some use a start relay and start and run capacitors.The capacitors create a phantom phase to get the rotor to spin 360 otherwise you just get locked between the two phases, in other words all squirrel cage induction motors are really three phase, but when you only have single phase power you need capacitors to discharge voltage that induces current and gets the rotor to spin 360, once it's spinning you don't need the capacitor induced current, although you don't get the same horsepower out of a 1 phase motor as you would out of the exact same motor using three phases of power, so the motor is typically de-rated. For industrial applications that use 1 phase power and start under load like mechanical machinery or a water pump, your better off using a phase converter that takes 1phase and converts it to 3phase.

This is awesome. All animated and visualised points.Thank you.

It's amazing how a great video like this with such painstaking visualisation can be uploaded for free on KZbin, and still people complaining because of a missing definite article ('the'). Sense of entitlement.

Awesome visualisation.... Better than any class that would take 1 hour to explain this 4 min stuff..

3d animation of any system is like imagination of our mind so nice imagination.....

The simplest explanation. Thank you all.

In single phase motor there are 2 oppositely reovling magentic fields. They will produce opposing torque on rotor. While in 3 phase motor there is only one RMF, so capacitor is not needed.

These videos made life of engineering students way easier.... We don't have to imaging anymore.

Nikola Tesla is one of the most underrated geniuses of all time. Many people are familiar with his name but most have no idea of his contributions to science and engineering.

These videos are really helpful. They should have more views!

Thanks- this helped me figure out a problem with my pump motor

I appreciate the simplified sentence structure.

Superb explanation for ee engineering students

Wish these vids to be added as reference in the syllabus

These videos worth alot.......💯💯

So well made

Keep it up with this type most Interesting videos for study of electric engineering

Great Video . Really supplemented my awesome teachers uber fun lessons. Gerry Rocks!!!!

NICE VIDEO BY THE WAY!!!

Really good explanation with good visuals. Understood it clearly.

Great video🙌 2:28 But can anyone understand how the forward torque becomes greater than the backward torque. Since the rotor emf induced by the backward rotating field is greater than that induced by the forward rotating field?

Nice video bro

The part of the video concerning why a single-phase induction motor is not self-starting and how it can be started is SO CONFUSING. When you were explaining the reason why the rotor, which is already rotating, will keep on rotating in the same direction after it is put inside the stator under the condition that the current only flows through the main winding, you said the magnetic field produced by the stator will cause the magnetic field inside the rotor to vary and thus induce a current in the rotor, thus "the rotor will start rotating" (which is confusing because you have assumed that the rotor is already rotating before it is immersed in the magnetic field produced by the stator). After that you explained since the net torque on the rotor produced by the two oppositely rotating magnetic fields produced by the stator is zero, the rotor will not start, which seemingly contradicts what you have said before that "the rotor will start rotating". It is better for you to first say that if no current is flowing through the auxiliary winding and the rotor does not have any initial rotation, since the net torque on the rotor produced by the two oppositely rotating magnetic fields produced by the stator is zero, the rotor will not start. And then explain why the rotor will keep on rotating in the same direction if the rotor has initial rotation. Finally tell us the initial rotation is provided using the auxiliary winding connecting in series with a capacitor. Last but not least, you forgot to mention that the capacitor introduced a phase difference between the main and auxiliary windings, so the sum of the fluctuating magnetic fields produced by the rotor and the stator will become a rotating magnetic field. If the auxiliary winding is not connected to the capacitor, even if there is current flowing through the auxiliary winding, there will be little phase difference between the main and auxiliary windings, so the sum of the fluctuating magnetic fields produced by the rotor and the stator will still be a merely fluctuating but not rotating magnetic field and the rotor still cannot start.

Thanks for this video, it was very informative. At 0:54, isn't North and South supposed to be the other way?

Phantastic explanation

thanks for your explaination it saves from reading 20 pages pdf

Annu Aparajita Adding a capacitor changes the phase angle and hence causes difference in the field produced. This will lead to increasing the force for one and decreasing for other

2:55 Nikola Tesla wasn't a Yugoslavian, he was a Serbian born in Smiljan (in Austro-Hungarian Empire), which was after WWI a part of Kingdom of Serbs, Croats, and Slovenes, which later changed its name in Kingdom of Yugoslavia, and after WWII changed to Socialist Federal Republic of Yugoslavia, and after Yugo wars it's now in modern Croatia. Tesla went to America long before all of that and made his inventions there, so you can say that he was a Serbian-American inventer.

Very good graphics showing net magnetic field of rotor squirrel cage. Thank you

This is exactly what I needed 👍

I know how is the connection of this but for the sake of those who doesnt know it will be more helpfull if the uploader includes how is the connection between starting winding, running winding and capacitor.

Nice animation.. easy to understand

Excellent explanation sir

Thank you for your wonderful animation!!!!!!........was really helpful

excellent job bro all ur videos are good to understand i think u revolution will be possible

The only part I don't understand is, once you put the rotating rotor inside the cage, why does it keep rotating and not eventually slow down. I understand the initial imbalance of torque, but once you turn off the auxiliary winding current this imbalance should fade should it not (similar to how if you push something it doesn't keep moving forever, eventually it slows). Eventually the torque due to that initial motion should fade and you should just be left with a net torque of zero??

3:26 The auxillary winding will also produce 2 oppositely revolving mag fields and how will it cancel one torque if the other gets added up? If one torque is added up then the other , the opposite one, will also get added up right?

Thanks for explaining so nicely

Very good explanation

what a great channel this is!

yes one neat trick I recently learned is that if your single phase induction motor is humming but not spinning, you can start it by hand, just twist the output shaft in either direction and watch it come to life, this is a dead giveaway that the starting capacitor is bad and needs to be replaced

This is amazing! But could you please tell me why do the two sets of blue current flow in the opposite direction to each other at 1:50? Thank you PS.I was trying to apply Flemming's left hand rule but the two parameters , current and force, were initially unknown at the squirrel cage in the first place. So I can't solve the problem.

Excellent video

Great visualisation

I understood clearly. Thankyou sir

Hey bro you are such a great video

Thank uuuuh very muchhhh ❤❤🥰🥰🥰🥰🥰

I am confused. Question 1: Does the capacitor only serve to help start the motor or it is required during the normal operation of the motor? Question2: Why does the motor keep on rotating(with or without load) if there are two counter rotating magnetic field which have same magnitude and angular velocity. I thought the field which rotates opposite to the rotor should produce more torque on the rotor and therefore it should slows down, shouldn't it?

Awesome video 👏

I want all this videos to explain details about basics and add some more topics in easier way

Unique is every videos,thanks

This video was really helpful!! Thank you.

I have watched the video till the end hoping to find additional informations about the working of the centrifugal switch, in the end only its name was mentioned...no luck Anyway nice video 👍

Thaks ENGINEERS for this beautiful world

Awesome channel..❤️❤️❤️ Very helpful content..🔥🔥

Nice video !! :) Btw , if the auxiliary winding produces 2 fields rotating in the opposite directions , and if it cancels out one of the fields in the main winding , then it must cancel out the other one also right ?

great tutor, many thanks!!!!!!!!!!!!!!!!!!!!!!!!!

Awesome video

Great video ,easy to understand What do u use for making such videos

The lack of the word the is killing me

you're a life saver , THANKS

Absolute masterpiece

thanks and wecome to india

very nice explanation,Thank You

Should the magnetic field polarities shown at 0.55 time of the video be reversed according to the arrows current flow?

i didnt understand the capacitor part for the self starting...if the auxiliary winding produces 2 fields rotating in the opposite directions , and if it cancels out one of the fields in the main winding , then it must cancel out the other one also right ?

Good Explaination

Beautiful explaination

2:32 won't the net torque be exhausted?

Best explanation ever

Superb sir

this is really helping, nice video.

Thanks for explaining. 😊

Very good thank you

GOOD JOB BOSS...KEEP IT UP... UPLOAD MORE

Awesome Bro...Thanks

god bless u.. splendid work..

Good graphics.

simply superb 😃

@0:54 correct flux lines, wrong poles. Flux lines should exit from N, enter to S.

when an ac supply is given to the auxillary winding ,it will produce two oppositely rotating magnetic fields ,you said that it will cancel out one of the main winding's magnetic field.but how is this possible? -a and -b be the rotating magnetic field of auxillary winding and let a and b be the magnetic field of main winding .Then -a+a -b+b = 0? So then the rotor should buzz again right?

well done video. Thanks!!!

اخيراا فهمته ، اشكد معقد 🤧🤧.

I have question. When auxiliary winding also produce 2 opposites RMF, how can it makes one of then cancel main winding RMF and the other will get it up? I mean if theres 2 group of 2 opposites RMF, wouldnt they all cancel one another, and left no resultant?

Back that days Nicola Tesla was born in imperial Austria, studied in imperial Austria and even worked a while in imperial Austria. Please correct, thanks.

thank you so much it was easy to learn with your video. :)

this is awesome. thanks so much...

I thought the capacitor knocked one coil off by a few degrees, which imparted a torque? essentially creating a two phase motor until the capacitor circuit switches off...

Can u also explain another subjects like mathematics

What happens introducing an inverter? If present, would the auxiliary winding still be needed?

Just awesome 👍

Thank you

very nice review, thank you

អរគុណបង❤