As a guitar player I would be interested to see how all these apply to guitar pickups which are basically coils wrapped around magnets. I know that the stainless steel guitar string is moving inside the magnetic field of the pickup and that generates voltage, but how is one pickup having different sound from another? How is each element contributes to the characteristics of the pickup?
I see that no one has answered you. Your question is basically why your pickups sound different. Among the reasons, the most significant factor is the placement of them. The neck pickup catches more low harmonics than the bridge pickup. You know that there are multiple harmonic frequencies on the moving string that contribute to the sound of the primary frequency of any of the strings. That is what makes an acoustic guitar sound different than a piano or a violin. Moving the pickups out away from the bridge allows lower harmonics to be heard. They seem to be filtered out by being close to the bridge or the nut. Does this help or hurt your understanding of the picture?
@@alext8828 All these you said I knew already, even that the neck pickup in a 22-fret guitar is under the 2nd harmonic. I wanted to know the physics of how the coil, the wire and the magnet contribute to the frequency pickup of the... pickup. Thanks for the response, anyway!
@@george.kollaros ChatGPT says it's the string vibrating in the magnetic field that disturbs it and creates a variation in the current moving in the pickup coil. That's the very part that's vague in my mind. Here's their version: A guitar pickup is a crucial component of an electric guitar's sound-producing system. It works by converting the vibrations of the guitar strings into electrical signals that can be amplified and heard through an amplifier. Here's how a guitar pickup works: 1. **Construction**: A guitar pickup is typically made of a set of magnets, magnetic pole pieces, and coils of wire. It's usually mounted directly beneath the strings of the guitar. 2. **Electromagnetic Induction**: When you pluck a guitar string, it vibrates back and forth. As the string vibrates, it disturbs the magnetic field created by the magnets and pole pieces in the pickup. 3. **Changing Magnetic Field**: The vibrating string causes changes in the magnetic field strength around the pickup. This, in turn, induces a small electrical current in the coils of wire wrapped around the pickup. 4. **Electrical Signal Generation**: The induced electrical current in the pickup's coils carries the characteristics of the string's vibration, including its frequency and amplitude. This electrical signal is very weak and requires amplification to be audible. 5. **Amplification**: The weak electrical signal generated by the pickup is sent to an amplifier through a cable. The amplifier significantly boosts the signal's strength, making it loud enough to be heard through speakers. 6. **Sound Production**: The amplified electrical signal is then sent to a speaker, which converts the electrical signal back into sound waves that we can hear. Different types of pickups, such as single-coil and humbucker pickups, produce slightly different tonal qualities due to variations in their construction and the way they capture string vibrations. The position of the pickup under the strings also influences the tonal characteristics. The pickup is a critical element in shaping the unique sound of an electric guitar. Different guitars and pickup configurations can produce a wide range of tones, which is one of the reasons electric guitars are so versatile and beloved by musicians.
@@alext8828 I already know all these! To make myself more clear, my questions are: 1. How each turn of wire inside the coil affects the frequency response of the sound? 2. How the thickness of the wire affects the frequency response? 3. How the inductance affects the frequency response? 4. How the width of the pickup coil affects the frequency response? 5. How the strength and the material of the magnet affects the frequency response? By frequency response I mean: Does it roll off high frequencies? Cuts off bass? Makes the harmonics of the fundamental note you play more pronounced? And how: Each turn rolls off 5Hz? 10Hz? Boosts the bass 3dB? 6dB? Different magnets with different strength boost all frequencies? If not, which ones? ...and so on.
Inductor does not have storing capacity but it had the ability to resonate or dissipate surge effect by expand the surge current like rubber band and so regulate surge current to a degree
Inductors absolutely do store energy. Every switchmode power supply on the planet relies on that fact. However, unlike a capacitor you can't open the terminals of an inductor and have the stored energy remain. IF the inductor were made with a perfect conductor with no resistance and you shorted the ends of the winding you could maintain the magnetic field and stored energy. energy stored in an inductor = (L • i²)/2 where energy is in joules, L is in henries and i is in amperes
Very important parts in laptops, phones, power banks. Inductive components remove the memory effect of batteries to reach higher capacity. The feature is locked, you won’t be able to use it. Laptops turn it in by discharging the battery in Bios. Bad batteries will be destroyed in Bios. Power banks turn it on when you charge with lightning cable, or if the phone is better type. Phones turn it on in the power menu, or if you unplug the battery for a few seconds. Car charger also switches it on. Later charging and discharging leaves it on. Laptop fan can fix a battery. Pc fan can fix a 12 v battery. If the component doesn’t have inductive parts, memory effect won’t leave the battery. A diode is in the batteries/ devices, removing the memory effect.
👍💡⚡ great video. ======= It made me think about the old voltage regulators I had on some 🚜 tractors . (Field etc ) ==== We had $125 tractor bought at auction . Block with split on the outside no big deal . ===== Completely rewired it 1950s style and put a $55 alternator on it from a 71 Chevy brand new. === Came out one day someone took the alternator not think about it I should have taped 30 bucks on their leave the alternator. ===== 👋😎💨 Bryan 🐎💨💕
TO MO COOL. Thank you for this information. I've been forced to retire they don't get it. I can't sit still for a minute and I refuse to watch Jerry Springer or any other shit on TV. Thanks I needed something to do that would put a charge in me. Thank you. Paul J Kovach.
There is actualy a mistake made in this video. That is when the voltage is removed from the inductor, the current does "Not" reverse, it continues in the same direction through the inductor only the polarity changes, this is because the inductor has now become a generator as the field collapses. The rest is all fine with the video.
The voice is pretty good. There could be more pauses. Even between words. It takes a human brain a few 100 ms to react to things. We need pauses. Also between phrases.
Interestingly our brain is a set of chemical toroidial capacitors-ish and inductors-ish which generates, then holds in place the electrical energy needed to power your consciousness. We are more than bio machines, but we are also bio machines.
4:58 your animation appears to be wrong. the current should be opposite the feed current according to your graph at 5:54 since you show a reversed polarity across the inductor after removal of the feed current. also, your animation defies the right hand rule and the rule you stated at 2:32. you messed up.
Important maybe new coil indicator to heal wounds able to heal with new gold yellow wire and yellow silver mixed with mita polin together pounded together mix in oil set three weeks. year soak too
The Inductor converts part of the electric current (Q/t) to magnetic flux (BA) . The magnetic field (B) itself is not energy. Energy (E) is a product of the current (Q/t) and magnetic flux (BA). Thus E = 1/2 Q/t * BA. So B is just one factor of the energy equation. It is wrong to imply that B is energy or contains energy. It actually is 1/t or the reciprocal of time. The stronger the B the shorter the time and greater the velocity, acceleration, voltage and energy. Furthermore since E = 1/2 current * BA then for a given amount of E when B or BA is increasing current or Q/t will be decreasing and if BA is decreaing then urrent must increase. Simple as that
Why don't every explanation just mention that it's like a flywheel? that should have been so much easier to understand. or so that is my analogy. lol Thak you so much for this video, i finally understood what it does. :)
A wire absolutely does act as an inductor. It is a plague in circuit design, especially power distribution in fast digital circuitry. Even the inductance of a small surface mount capacitor can degrade the performance of the capacitor (a simple model is an ideal capacitor in series with an inductor in series with a resistor) The waveform shown at about 5:50 is not what you actually expect in an inductor. If the inductor is discharged at the start when a voltage is first applied across it, the current will begin at zero and rise linearly with time, it will not be curved as shown. The curve is what you would expect if you were to charge the inductor from an ideal voltage source through a constant resistance.
@ 1:10 regarding the right-hand rule, the electrons flow/current to the left... however the thumb goes to the right... How come? Can anybody clarify, please?
I'm with you.. maths hard for me but I love the electronics and making stuff and taking part things.lol I'm working on a homemade e bike now from gathered parts
All these explanations repeatedly fail to distinguish between emf and current. If the coil isn't connected to a circuit that will allow some significant current to flow, then there will be no countering magnetic field from it.
Look inside a radio or a transmitter, you will see quite a few of them. Also, the cylindrical bulge on the end of many computer cables is a ferrite inductor used to filter out voltage spikes in the power supplies to the various devices.
I guess the trade-off for the AI Bot Narrator's improved inflection and nuance is the NeedyBot 2.0 that beg you to like their videos. Tesla has never paid for an ad and is earning more than Apple. They make the safest, most sought-after and affordable car on the planet and give their patents away for free. Khutoryansky is the gold standard for animated physics videos, but you can do it as well or better. Be the bot!
H is the unit symbol for henry. At the 6.36 mark, those are many different ways to convert equivalently. At the 8.30 ish mark, that is the formula for calculating an inductance if knowing the righthand side of equation. Such as N is number of turns, A is area, like is length, and 'u' (myu) a coefficient.
Inductors are used in electronic circuits. That makes them electronic components. You will find them in the catalogues of electronic components suppliers. Electrical circuits may have inductance associated with them, e.g. motors, but if you go to an electrical supplier, they probably won't be able to sell you a 0.1H inductor!
@@karhukivi They are "electrical" components. The phenomenon is electrical. Electronic components are devices like vacuum tubes and semiconductor devices. Yes, they are found in electronic devices and they are in catalogs along side electronic devices BUT they are not "electronic" devices. Also, this video did not really "explain" anything about inductors.
@@drstrangelove09 Well, semiconductors work using charge "holes" so one could argue that even transistors and diodes are not "electronic". An inductor is a magnetic device, following this same strict definition. if it satisfies your pedantic mind to say they are electrical, then we'll say you are right!
If I didn’t already know what inductance was I certainly would NOT know after watching this presentation. It is one of the most confusing things I’ve ever seen. You do not need to state the NAMES of all the laws for people understand the CONCEPT (such as Lenz’s Law, and such). Whoever made this presentation should have taken a course in instruction. ALSO, If you use electron flow for current flow for everything ELSE you teach, then WHY suddenly switch to conventional current flow here to describe the ‘right hand rule’ when you could have just said use the ‘left hand rule for electron current flow’ to determine the direction of a magnetic field?! (Not sure why this is important for somebody to know to understand inductance in the first place, but in case you are still reading this by now, here is the definition of inductance: inductance is that property of an electric circuit that tends to oppose a change in current. It does the because whenever a current flows in a circuit there is a magnetic field generated. If current stops flowing or changes direction that magnetic field collapses and induces a current in the opposite direction, since the field is now moving in the other direction. This is true for a straight piece of wire OR in a coil - making a coil of wire simply concentrates this property into a smaller area, which causes a corresponding increase in the inductance. In a DC circuit once the current reaches a steady state inductive reactance is no longer significant because there is no CHANGE occurring. If you open the switch, the magnetic field collapses and induces a voltage in the opposite direction which tends to keep the current flowing (until the magnetic field has completely collapsed and there’s no more change occurring). Of course this is not the great explanation either because I do not have the luxury of using diagrams and illustrations and such in this comment section. IN SHORT, you tried to cover WAY too much in the short time allotted, which only leads to confusion of the audience. You also stated that if ryou stretch the coil out you end up with a wire “…which we all know does not act as an inductor ” That is totally incorrect. A straight piece of wire DOES act as an inductor - although a very small one and it does have a magnetic field around it, something else that you incorrectly stated.
![VirtualBrain [ENG]](http://yt3.ggpht.com/X7upR1XVhcILHv4-WcO9pyM9BixmnDf77KGoE8R6eqr9tzefxy-ouiO_dMwbxE_gAMVZz0hDDA=s48-c-k-c0x00ffffff-no-rj)
The best video on Inductors I've seen. Thank you
Excellent video, well paced. Many are too quick for someone without pre-existing knowledge to understand, but this is perfect.
It would be nice if it wasn't an AI generated voice with no concept of cadence.
That is best Inductor explanation for me. Thanks.
The world's best teacher thanks
I rely like how you take your time to dept into the explanations and explained vividly
This was much better than I had guessed. GOOD JOB. Thank you for the video!
Splendid demonstration and explanation ❤️
Informative. Useful. Calming. Inspiring. Life-changing. Enjoyable. Heart-warming. Other.
Thank you for the post ❤
Very well produced: comfortable pace and superb presentations. I look forward to future posts.
Fantastic graphics 👌
EXCELLENT INFORMATION.
Very good Presentation.
Thanks A LOT.
Noted. Great video's.
Save those apostrophes for words that need 'em like "Don't correct people's grammar on the videos."
Well Done!!
It is a very simple explanation
Thank you very much
As a guitar player I would be interested to see how all these apply to guitar pickups which are basically coils wrapped around magnets. I know that the stainless steel guitar string is moving inside the magnetic field of the pickup and that generates voltage, but how is one pickup having different sound from another? How is each element contributes to the characteristics of the pickup?
I see that no one has answered you. Your question is basically why your pickups sound different. Among the reasons, the most significant factor is the placement of them. The neck pickup catches more low harmonics than the bridge pickup. You know that there are multiple harmonic frequencies on the moving string that contribute to the sound of the primary frequency of any of the strings. That is what makes an acoustic guitar sound different than a piano or a violin. Moving the pickups out away from the bridge allows lower harmonics to be heard. They seem to be filtered out by being close to the bridge or the nut.
Does this help or hurt your understanding of the picture?
@@alext8828 All these you said I knew already, even that the neck pickup in a 22-fret guitar is under the 2nd harmonic. I wanted to know the physics of how the coil, the wire and the magnet contribute to the frequency pickup of the... pickup. Thanks for the response, anyway!
@@george.kollaros ChatGPT says it's the string vibrating in the magnetic field that disturbs it and creates a variation in the current moving in the pickup coil. That's the very part that's vague in my mind. Here's their version: A guitar pickup is a crucial component of an electric guitar's sound-producing system. It works by converting the vibrations of the guitar strings into electrical signals that can be amplified and heard through an amplifier. Here's how a guitar pickup works:
1. **Construction**: A guitar pickup is typically made of a set of magnets, magnetic pole pieces, and coils of wire. It's usually mounted directly beneath the strings of the guitar.
2. **Electromagnetic Induction**: When you pluck a guitar string, it vibrates back and forth. As the string vibrates, it disturbs the magnetic field created by the magnets and pole pieces in the pickup.
3. **Changing Magnetic Field**: The vibrating string causes changes in the magnetic field strength around the pickup. This, in turn, induces a small electrical current in the coils of wire wrapped around the pickup.
4. **Electrical Signal Generation**: The induced electrical current in the pickup's coils carries the characteristics of the string's vibration, including its frequency and amplitude. This electrical signal is very weak and requires amplification to be audible.
5. **Amplification**: The weak electrical signal generated by the pickup is sent to an amplifier through a cable. The amplifier significantly boosts the signal's strength, making it loud enough to be heard through speakers.
6. **Sound Production**: The amplified electrical signal is then sent to a speaker, which converts the electrical signal back into sound waves that we can hear.
Different types of pickups, such as single-coil and humbucker pickups, produce slightly different tonal qualities due to variations in their construction and the way they capture string vibrations. The position of the pickup under the strings also influences the tonal characteristics.
The pickup is a critical element in shaping the unique sound of an electric guitar. Different guitars and pickup configurations can produce a wide range of tones, which is one of the reasons electric guitars are so versatile and beloved by musicians.
@@alext8828 I already know all these! To make myself more clear, my questions are: 1. How each turn of wire inside the coil affects the frequency response of the sound? 2. How the thickness of the wire affects the frequency response? 3. How the inductance affects the frequency response? 4. How the width of the pickup coil affects the frequency response? 5. How the strength and the material of the magnet affects the frequency response? By frequency response I mean: Does it roll off high frequencies? Cuts off bass? Makes the harmonics of the fundamental note you play more pronounced? And how: Each turn rolls off 5Hz? 10Hz? Boosts the bass 3dB? 6dB? Different magnets with different strength boost all frequencies? If not, which ones? ...and so on.
The reason why I'm watching this video too 😂.
Very helpful I love it
thank you for the explanations
Nice well explained bro
Good work
I love that Sir
thanks very mach
very appreciated.
For electron current, use left hand rule
this is very true
It is an eye opening . Thank you !!
Good job Sir
Excellent
Thanks
Thanks, this tutorial is very useful, interesting and knowledgeable❤❤🧡👍
Wow what skill , in which program can such animations be made ? Of course the skill is primarily the factor
Blender
@@zaeemniazi1532 ⁹⁹⁰
Wow very nice idol
Thanks 🙏
Inductor does not have storing capacity but it had the ability to resonate or dissipate surge effect by expand the surge current like rubber band and so regulate surge current to a degree
Inductors absolutely do store energy. Every switchmode power supply on the planet relies on that fact.
However, unlike a capacitor you can't open the terminals of an inductor and have the stored energy remain. IF the inductor were made with a perfect conductor with no resistance and you shorted the ends of the winding you could maintain the magnetic field and stored energy.
energy stored in an inductor = (L • i²)/2
where energy is in joules, L is in henries and i is in amperes
Structured so well
Very nice introduction and good lesson ❤❤❤
Very important parts in laptops, phones, power banks. Inductive components remove the memory effect of batteries to reach higher capacity. The feature is locked, you won’t be able to use it. Laptops turn it in by discharging the battery in Bios. Bad batteries will be destroyed in Bios. Power banks turn it on when you charge with lightning cable, or if the phone is better type. Phones turn it on in the power menu, or if you unplug the battery for a few seconds. Car charger also switches it on. Later charging and discharging leaves it on. Laptop fan can fix a battery. Pc fan can fix a 12 v battery. If the component doesn’t have inductive parts, memory effect won’t leave the battery. A diode is in the batteries/ devices, removing the memory effect.
👍💡⚡ great video.
=======
It made me think about the old voltage regulators I had on some 🚜 tractors . (Field etc )
====
We had $125 tractor bought at auction . Block with split on the outside no big deal .
=====
Completely rewired it 1950s style and put a $55 alternator on it from a 71 Chevy brand new.
===
Came out one day someone took the alternator not think about it I should have taped 30 bucks on their leave the alternator.
=====
👋😎💨 Bryan
🐎💨💕
LOL he said now that we understand this......
😂
You can't understand it, because electronics "science" is based on lies.
Useful video
TO MO COOL.
Thank you for this information.
I've been forced to retire
they don't get it. I can't sit still for a minute and I refuse to watch Jerry Springer or any other shit on TV.
Thanks I needed something to do that would put a charge in me. Thank you.
Paul J Kovach.
My most favourite subject.
There is actualy a mistake made in this video. That is when the voltage is removed from the inductor, the current does "Not" reverse, it continues in the same direction through the inductor only the polarity changes, this is because the inductor has now become a generator as the field collapses. The rest is all fine with the video.
Cheers!
🙏👍 thanks
So nice
The voice is pretty good. There could be more pauses. Even between words. It takes a human brain a few 100 ms to react to things. We need pauses. Also between phrases.
I use the left hand law to determine the magnetic field. It lets you point with the flow of electricity
That's the right hand rule. The animation here is wrong
Electromagnetism my beloved
Good
Interestingly our brain is a set of chemical toroidial capacitors-ish and inductors-ish which generates, then holds in place the electrical energy needed to power your consciousness.
We are more than bio machines, but we are also bio machines.
I always wondered why circuit boards have inductors on them. Like flat screen TVs, etc.
How to find the current direction in the inductor after the battery is disconnected?
Wouldnt a copper coil wound like shown just be a dead short when connected to a battery
best
4:58 your animation appears to be wrong. the current should be opposite the feed current according to your graph at 5:54 since you show a reversed polarity across the inductor after removal of the feed current. also, your animation defies the right hand rule and the rule you stated at 2:32. you messed up.
Heat builds up tape seals the medal gets old new process of healing through pounding and poline
They are used to control traffic signals
Important maybe new coil indicator to heal wounds able to heal with new gold yellow wire and yellow silver mixed with mita polin together pounded together mix in oil set three weeks. year soak too
Request cyclotron review please. Thanks
The Inductor converts part of the electric current (Q/t) to magnetic flux (BA) . The magnetic field (B) itself is not energy. Energy (E) is a product of the current (Q/t) and magnetic flux (BA). Thus E = 1/2 Q/t * BA. So B is just one factor of the energy equation. It is wrong to imply that B is energy or contains energy. It actually is 1/t or the reciprocal of time. The stronger the B the shorter the time and greater the velocity, acceleration, voltage and energy.
Furthermore since E = 1/2 current * BA then for a given amount of E when B or BA is increasing current or Q/t will be decreasing and if BA is decreaing then urrent must increase.
Simple as that
日本人です。日本語でスミマセン。この動画を見たので少しだけ私の感想を言わせて頂きたいです。日本語翻訳にて見ていましたが、本来インダクタなんてのには余り興味を示しては居ませんでした。ただ、コイルとか動線とかって考えでしかなかったのです。だけど、見ている状態並びに日本語翻訳では有るのですが、この原理を使うとテスラコイルが何だか見えてくるようなんです。インダクタの中には太い銅線を巻いたやつとか細いけど縦に巻いている様なのを見た時に、磁場とかを見た状態で通常で出されたりしていて売られたりしていますところの「テスラコイル実験キット」の様に思えたんです。どの様に説明したら良いのか少し判らないのですが、細い銅線でコイルを巻き、外側に太い銅線で又コイルを巻くって感じからすると、何となくですが小さなテスラコイルが出来てしまうのかな?なんて思いました。まあ、本当にラジオでもTVでもPCでも電気製品を使って居る場合、其れ等が壊れたと言って捨てるとか考えたりしている場合じゃないって思います。金持ちって人達はどうかとは思いますけど、貧乏をしている私なんかの場合は、他なんかの情報を得て其れに対して近いって思うことが出来た場合、其れを実験するしか無いって思います。金持ちって人達の場合は駄目になったら捨てれば良いって考えだとは思うんですが、貧乏をしている私に取ったら、宝の山かも知れないって事を感じました。ストレートに言うと批判が起きるかも知れませんので余り言いたくはないんですが、壊れたら捨てれば良いって考え方は余りにも「勿体ない事。」って思います。人間自体が其れを理解すると良いですね。
Konichiwa
the voltage is current in the room
ok ?
What 8sv5he effect 9f using a permanent magnet as a core?
Permeability, The ablilty to be magnatized
Is thete any question why I love my ibduction cooker?!
DC doesn't produce electromagnetic field, unless it's rapidly switched on and off.
DC produces a non-varying magnetic field.
Wow
Why don't every explanation just mention that it's like a flywheel? that should have been so much easier to understand. or so that is my analogy. lol
Thak you so much for this video, i finally understood what it does. :)
Ok loc tot......!
Die Zuleitungen haben AUCH ein Magnetfeld, sogar innerhalb der Zelle!
Exactly my thought. You should write it in english. A streight wire DOES ALSO have a magnetic field.
how did you edit that
1:15 that's the longest thumb I've ever seen
A wire absolutely does act as an inductor. It is a plague in circuit design, especially power distribution in fast digital circuitry. Even the inductance of a small surface mount capacitor can degrade the performance of the capacitor (a simple model is an ideal capacitor in series with an inductor in series with a resistor)
The waveform shown at about 5:50 is not what you actually expect in an inductor. If the inductor is discharged at the start when a voltage is first applied across it, the current will begin at zero and rise linearly with time, it will not be curved as shown. The curve is what you would expect if you were to charge the inductor from an ideal voltage source through a constant resistance.
An inductor without the core is an air core inductor
@ 1:10 regarding the right-hand rule, the electrons flow/current to the left... however the thumb goes to the right... How come? Can anybody clarify, please?
I hate Math (not very) but I love electronics
I'm with you.. maths hard for me but I love the electronics and making stuff and taking part things.lol I'm working on a homemade e bike now from gathered parts
All these explanations repeatedly fail to distinguish between emf and current. If the coil isn't connected to a circuit that will allow some significant current to flow, then there will be no countering magnetic field from it.
اذا ممكن تفعيل ترجمة الفيديو
I would have watched, but the music is distracting.
Electricity travels from negative to positive!!!!!
I think a mechanical flywheel does have similar behavior in mechanical world
ua-cam.com/video/KSylo01n5FY/v-deo.htmlsi=10wrebaApzA-LPMl
❤❤❤❤❤
Where is the actual application of inductors
Look inside a radio or a transmitter, you will see quite a few of them. Also, the cylindrical bulge on the end of many computer cables is a ferrite inductor used to filter out voltage spikes in the power supplies to the various devices.
I guess the trade-off for the AI Bot Narrator's improved inflection and nuance is the NeedyBot 2.0 that beg you to like their videos. Tesla has never paid for an ad and is earning more than Apple. They make the safest, most sought-after and affordable car on the planet and give their patents away for free. Khutoryansky is the gold standard for animated physics videos, but you can do it as well or better. Be the bot!
Can it walk ?
I think I heard magnetic field at some point
Oh
Make a video explaining how the stabilizer works😂😂😂😂😂😂😂
"now that we understand this" who is WE? XD
Bhaie aap ka hindi chanal hai kiya
6:36 a bunch of ??? formulas, and no explanation of even the simplest one,
8:54 another formula, again no explanation of the symbols used ...
Typically on schematics, inductors are designated by the a symbol L.
H is the unit symbol for henry. At the 6.36 mark, those are many different ways to convert equivalently.
At the 8.30 ish mark, that is the formula for calculating an inductance if knowing the righthand side of equation. Such as N is number of turns, A is area, like is length, and 'u' (myu) a coefficient.
I hear that the 7 basic units are up for a change....again.
AI voice inflection is the worst.
How?
7
yong tag alog lang queds lang
1. to say that your explaining "how inductors work" is a misnomer
2. inductors are not "electronic" components, they are "electrical" components
Inductors are used in electronic circuits. That makes them electronic components. You will find them in the catalogues of electronic components suppliers. Electrical circuits may have inductance associated with them, e.g. motors, but if you go to an electrical supplier, they probably won't be able to sell you a 0.1H inductor!
@@karhukivi They are "electrical" components. The phenomenon is electrical. Electronic components are devices like vacuum tubes and semiconductor devices. Yes, they are found in electronic devices and they are in catalogs along side electronic devices BUT they are not "electronic" devices. Also, this video did not really "explain" anything about inductors.
@@drstrangelove09 Well, semiconductors work using charge "holes" so one could argue that even transistors and diodes are not "electronic". An inductor is a magnetic device, following this same strict definition. if it satisfies your pedantic mind to say they are electrical, then we'll say you are right!
@@karhukivi go ahead and argue that... you will be wrong
If I didn’t already know what inductance was I certainly would NOT know after watching this presentation. It is one of the most confusing things I’ve ever seen. You do not need to state the NAMES of all the laws for people understand the CONCEPT (such as Lenz’s Law, and such). Whoever made this presentation should have taken a course in instruction.
ALSO, If you use electron flow for current flow for everything ELSE you teach, then WHY suddenly switch to conventional current flow here to describe the ‘right hand rule’ when you could have just said use the ‘left hand rule for electron current flow’ to determine the direction of a magnetic field?! (Not sure why this is important for somebody to know to understand inductance in the first place, but in case you are still reading this by now, here is the definition of inductance: inductance is that property of an electric circuit that tends to oppose a change in current. It does the because whenever a current flows in a circuit there is a magnetic field generated. If current stops flowing or changes direction that magnetic field collapses and induces a current in the opposite direction, since the field is now moving in the other direction. This is true for a straight piece of wire OR in a coil - making a coil of wire simply concentrates this property into a smaller area, which causes a corresponding increase in the inductance.
In a DC circuit once the current reaches a steady state inductive reactance is no longer significant because there is no CHANGE occurring. If you open the switch, the magnetic field collapses and induces a voltage in the opposite direction which tends to keep the current flowing (until the magnetic field has completely collapsed and there’s no more change occurring). Of course this is not the great explanation either because I do not have the luxury of using diagrams and illustrations and such in this comment section.
IN SHORT, you tried to cover WAY too much in the short time allotted, which only leads to confusion of the audience.
You also stated that if ryou stretch the coil out you end up with a wire “…which we all know does not act as an inductor ” That is totally incorrect. A straight piece of wire DOES act as an inductor - although a very small one and it does have a magnetic field around it, something else that you incorrectly stated.
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They damage TV receiving quality
Why is this narrated by a computer voice ?
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A bit disappointed this still said what’s the advantage of the wheel size inductance…
Joule thief circuito
GivenTamilsolaikeit