Capacitor calculations - Basic calculations for capacitors in series and parallel

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  • Опубліковано 22 гру 2024

КОМЕНТАРІ • 505

  • @EngineeringMindset
    @EngineeringMindset  3 роки тому +113

    ⚠️ *This video took a long time to make* if you would like to buy Paul a coffee to say thanks, link below: ☕
    PayPal: www.paypal.me/TheEngineerinMindset
    Channel membership: ua-cam.com/channels/k0fGHsCEzGig-rSzkfCjMw.htmljoin
    Patreon: www.patreon.com/theengineeringmindset

    • @JjMn1000
      @JjMn1000 3 роки тому

      Hmmmm

    • @jamesmatheson5813
      @jamesmatheson5813 3 роки тому

      Please Design my project
      We need hundreds of millions of 40 celsius charging devices

    • @bigdaddychicano
      @bigdaddychicano 3 роки тому +1

      What city are you located in? If close by ill buy you steak dinner.

    • @frankkante7850
      @frankkante7850 3 роки тому

      great ! Thank you very much

    • @mertbabalik711
      @mertbabalik711 3 роки тому

      please add a cripto wallet address if you have one.

  • @MrRedman1998
    @MrRedman1998 2 роки тому +69

    I only wish this channel was made in 2016 when I started college. The professors really can't explain things as simply as you! You helped me understand electronics the most for my job and helped me understand a lot more things. Thank you.

    • @ivarnordlkken8082
      @ivarnordlkken8082 2 роки тому +5

      Or in 1980 when I learnt it.

    • @stevrgrs
      @stevrgrs Рік тому

      Imagine if they forgave all student loans and just had put the money towards forwarding THIS technology instead of scamming everyone into leaving their homes and move to a brainwashing university :(
      What's sad is that this STILL wouldn't be as widely available if it hadn't been for Covid and the myriad of people at home with nothing to do :P

  • @SoloRenegade
    @SoloRenegade 3 роки тому +332

    teachers/professors should just play these videos during their classes to avoid confusing their students.

    • @user-rn7ng6zv1j
      @user-rn7ng6zv1j 3 роки тому +19

      @Alter Kater sometimes no amount of theory can explain you what a 30 sec visual can .

    • @user-rn7ng6zv1j
      @user-rn7ng6zv1j 3 роки тому +16

      @Alter Kater That's your way of putting technology down, i respect your opinion nonetheless but all i meant was that people had no choice earlier but now we do . upgrading with technology is not bad, however i do not question those who still want to learn conventionally. :)

    • @giorgiolelmi8175
      @giorgiolelmi8175 3 роки тому +2

      Exactly

    • @SoloRenegade
      @SoloRenegade 3 роки тому +10

      @@VinnieBlackLodge That's just it isn't it? Why pay for college when there are people online teaching the same material for free. I too learned 95% of what I know on my own.
      Tech College being online makes no sense, unless maybe it was programming/software. Tech requires hands-on. Even the big fancy engineering degrees are suffering from a serious lack of any practical hands-on skills and applications. I tutor students and interns in engineering, and I have to spend significant time teaching them basics, stuff they should have know already. Stuff I knew long before graduating from any sort of program, things I learned in high school.

    • @Mstrofpup
      @Mstrofpup 3 роки тому +5

      ​@Alter Kater There is zero correlation to decreased learning ability due to 'visuals.' This is pure nonsense.

  • @shlumpywumpy
    @shlumpywumpy 3 роки тому +141

    I love how it starts with a capacitor blowing up

    • @thesmallestminorityisthein4045
      @thesmallestminorityisthein4045 3 роки тому +4

      Sometimes learning what not to do is quicker.

    • @syedhusein4515
      @syedhusein4515 3 роки тому +1

      I have blown many capacitors during my college days. Hahaha

    • @cpK054L
      @cpK054L 3 роки тому

      Either put the polarized capacitor in backwards.
      Or use a voltage that is above its rating.
      Scary thing is a lot of supercaps have low voltage ratings... and a very massive capacitance...
      they'll literally burst into flames

    • @drgoodboykenny
      @drgoodboykenny 3 роки тому

      HA HAH HA HAH AHAH HA

    • @drgoodboykenny
      @drgoodboykenny 3 роки тому

      I RUINED YOUR LIKE RATIO

  • @lozD83
    @lozD83 2 роки тому +8

    Thanks for this. It's the first video I've found that actually explains how capacitors work in a circuit and how to calculate the desired capacity as well as info about configuration, which a newbie would certainly find useful. Good job!

  • @gauravnegi4312
    @gauravnegi4312 3 роки тому +27

    Amazing video, it literally served as such a great revision for my upcoming exams. On-the-point discussions and concise but easy to understand explanation of concepts. Thank you.

  • @ObsequiousV4
    @ObsequiousV4 3 роки тому +12

    Love your channel. After getting into electronics DIY stuff, this has been a great place to absorb everything when I have some free time.

  • @unclepecos5426
    @unclepecos5426 3 роки тому +41

    You should receive the Nobel Prize in Education.

  • @tinkmarshino
    @tinkmarshino 3 роки тому +14

    WOW.. this was a bit over my head at first but very cool.. I am a 69 year knot-head learning new skills.. And boy I can tell you it is a lot different now then it was50 years ago.. Carry on.. and thanks!

    • @PhilJonesIII
      @PhilJonesIII 3 роки тому +1

      I was 25 when I went back to uni to do electronics. I was expecting to work hard but, didn't expect to be doing homework until 2 am for stuff that some others (19-20 yo) were completed during the lecture. This was especially true for maths.
      Still, I ended up with a good career and have no complaints. I never stopped studying after that. Once you get back into the 'learning/thinking' mindset, it starts to get easier. Don't ever stop, man.

    • @NumberOneScientist
      @NumberOneScientist 2 роки тому +3

      @@PhilJonesIII ......... AND OTHERS ......... I was born in the 1940's --- EVERY DAY I am studying, learning SOMETHING --- If one does not USE IT ( YOUR BRAIN ) --- one will lose the ability to do most things --- such as LEARNING , REMEMBERING things --- one MUST exercise that " muscle " between ones ears --- I am still quite able to keep my memory working just as well as I did in my early 20's when I stepped into my own laboratory --- STILL learning, still puttering around my laboratory today ......... USE IT --- or --- LOSE IT ......... End of story --- PERIOD.

    • @PhilJonesIII
      @PhilJonesIII 2 роки тому

      @@NumberOneScientist Couldn't agree more. Most people finish school and rarely pick up a book again. That is unfortunate because that is the same population we use to measure mental performance with age. The result: mental performance, as measured in the general population, declines with age.
      Like an athlete that stops training and goes to seed, the mind has to keep exercising.
      It absolutely does not have to be that way. It also helps a lot if you have friends with the same mindset.

  • @emmaa427
    @emmaa427 3 роки тому +7

    Your instructions are a lot easier to grasp than my electrical engineering professors' lectures!!

  • @robinvangils2104
    @robinvangils2104 3 роки тому +14

    The fun thing is i had this all in my second year of mechatronics very abstract without "really" understanding, and just after seeing this video every piece of the puzzle comes together (:

  • @mnleber
    @mnleber 3 роки тому +1

    I have been dealing with inductors, transformers, capacitors, transistors, resistors etc for over 40 years in DC and AC applications in maintenance or very basic trouble shooting. My quandary is I can never seem to grasp what they are doing in real life applications such as power control via inductors OR capacitors in AC equipment. The videos are amazing on a basic level that I never could grasp in high school electrical and electronics and then in Engineering in University. Transformers application is somewhat of a black art that even many electrical engineers don’t truly understand and the result in design is often trial and error. GOOD job I hope I can find more info that will help the light bulbs in my brain become brighter!!,😃😃

    • @EngineeringMindset
      @EngineeringMindset  Рік тому

      Check out NEW resistor video, everything covered! ➡️ ua-cam.com/video/DYcLFHgVCn0/v-deo.html

  • @KulwinderSingh-ct4wr
    @KulwinderSingh-ct4wr 3 роки тому +63

    There is nothing to dislike,
    to make few minutes video lots of hours of hardwork are consumed to enhance someone's knowledge.
    Rest is upto you now
    🙏

    • @gauravnegi4312
      @gauravnegi4312 3 роки тому +2

      I like how people love to employ if they like the video no one should dislike it. The world doesn't revolve around anyone, people can do whatever they like.

    • @KulwinderSingh-ct4wr
      @KulwinderSingh-ct4wr 3 роки тому

      🙏

    • @nicolaimanev
      @nicolaimanev 3 роки тому +2

      @@gauravnegi4312 The world doesn’t have to revolve around anyone for it to be a silly idea that everybody can do whatever they like.

  • @Muppet1107
    @Muppet1107 Рік тому

    Just went through the entire Electricity Basics Playlist and I feel like I have a much better understanding of electricity principles. Thank you so much!

  • @ArcanePath360
    @ArcanePath360 4 місяці тому

    One of, if not the most useful channel to learn this stuff from. I'm having a hard time with electronics. The more I learn, the more I realise I don't know. I really don't want to spend money on an oscilloscope but it seems like I'm heading in that direction. Electricity is a hard beast to tame

  • @shreeshsrivastava3614
    @shreeshsrivastava3614 3 роки тому +5

    Best learning series ever! I love your channel.

  • @lezmac3104
    @lezmac3104 3 роки тому +2

    You always made a complex subject very comprehensive on the way how you create a presentation….theres so many brillant minds but not so much of a good teacher..You always nailed it..thank you very much..

  • @liparitpoladyan4383
    @liparitpoladyan4383 3 роки тому +3

    Dude this is awesome, now I understand how Electronics parts work. I went to Electronic school but didn't learn to this level. 👍

  • @Arcticwhir
    @Arcticwhir 3 роки тому +1

    Just did a lab on this exact thing, makes soo much more sense now. Explaining the resistance, time constants etc.. Only difference we were required to input frequency into the circuit, wish you explained that.

  • @elkhayder
    @elkhayder 3 роки тому +16

    We would love if you added the Capacitor voltage general formula :
    Uc = E . e ^ (-t/T) ,
    where
    Uc: Voltage across the capacitor
    E: The voltage across the battery
    T: time constate ( T = R . C )

    • @DavidPysnik
      @DavidPysnik 3 роки тому +4

      Thanks for adding this. My only complaint about the video was not giving the formulas for where those percentages came from. Now I see with E = 1 and T = 1, the discharge percentage remaining is obtained by e^(-t) and the charge percentage with 1-e^(-t).

    • @geeache1891
      @geeache1891 3 роки тому +1

      'We' don't. It is actually more illustrative to focus on explaining what an exponential curve means in practice. Only in addition to mentioning the reduction percentages to learn, it could have been mentioned that of each next time period is the actual voltage value multiplied by 0.368, as a donkey bridge, even though that may already refrain viewers from learning the percentage by heart.

    • @nerd2544
      @nerd2544 2 роки тому

      everywhere i go.....i see your face....
      exponential decay....

  • @b1conis
    @b1conis 3 роки тому +1

    Thanks!

  • @williethepimp
    @williethepimp 3 роки тому +1

    Another simplistic explanation of calculus without the pomp of long calculation. Coffee coming when I pass this exam.

  • @opal177
    @opal177 3 роки тому +4

    Thank you so much for your well made and - most important - comprehensive, videos.
    Life could be so easy when things are explained so well.

  • @NAYAN-t3e
    @NAYAN-t3e 2 роки тому +1

    This video is just Masterpiece on Capacitor. I took 6 times to watch & then understood the concept ❤️. Till now, I just mugged up the formulae & theory on capacitor, but today I got the exact sense. Thank you, video maker 🙏.

  • @brings2520
    @brings2520 Рік тому +1

    You made me understand what a capacitor does in less than a sentence(and visual aid) i didnt understand it until now, thank you!

  • @Karanbrhm99
    @Karanbrhm99 3 роки тому +4

    Keep posting such videos. These are really helpful for students like me. I love the way you explain. It's just great. ❤

  • @kokor7409
    @kokor7409 2 роки тому +2

    It's superbly explained and you have take so much effort to do a great tutorial. I salute you. I've made a small donation for your Coffee!

  • @zeripboyevdostonbek8353
    @zeripboyevdostonbek8353 3 роки тому +7

    not gonna lie but my professor should learn from him how to teach 3 classes lectures in a 17minute video , just perfect man

    • @zoey9764
      @zoey9764 3 роки тому

      Or show the film, Then do the One Shorter lesson.. You would not need to take as many notes...

  • @briantamburelli7573
    @briantamburelli7573 Рік тому +1

    Thank you so much. This is really fascinating!😊😊😊 I have an electronics lab in my apartment. I plan on going back to school online this December. Very few schools teach regular electronics anymore.

  • @jasimjaleel2295
    @jasimjaleel2295 3 роки тому +4

    I'd love to aspire to be an electrical engineer now.. This is so cool

  • @AbrarAhmed-pl1me
    @AbrarAhmed-pl1me 2 роки тому +1

    thank u .... that was so sophisticated and well organized🖤🖤🖤

  • @sanamandingra
    @sanamandingra 7 місяців тому

    A lifetime of knowledge here. Thank you.

  • @jumijc
    @jumijc 3 роки тому +1

    I have been looking for this explanation for a while. Thank you Paul.

  • @MANVIRSINGH1313
    @MANVIRSINGH1313 3 роки тому +4

    Lovely and useful content as always 👍🏻👍🏻👍🏻👍🏻👍🏻👍🏻👍🏻👍🏻👍🏻

  • @trongnghia8056
    @trongnghia8056 Рік тому

    Cảm ơn bạn!

  • @romelgarcia8173
    @romelgarcia8173 3 роки тому +2

    Thank you sir for creating this channel! a lot of people learned from your video.
    I hope sir that you make also a video about Air Circuit Breaker (ACB) and Vacuum Circuit Breaker(VCB)
    More power to your channel! and Godbless

    • @EngineeringMindset
      @EngineeringMindset  8 місяців тому

      Seen our new incredibly detailed MCB video? link: ua-cam.com/video/gqEu9t8HwW0/v-deo.html

  • @scottk3292
    @scottk3292 3 роки тому +3

    at 3:49 wouldn't the voltage drop across the bulb reduce the voltage stored in the capacitor? So they would add up to 1.5? Or does that only happen with current?
    No - wait - of course the voltage will spread and even itself out. So the bulb simply slows down the rate at which the capacitor will charge?

  • @sachinsadanandan367
    @sachinsadanandan367 3 роки тому

    Subscribed instantly...Best videos I ever watched.Thank you ..

  • @JoeMcLutz
    @JoeMcLutz 3 роки тому +4

    Great lesson, thank you. 🙏🏻

  • @barokahlampuchanel4102
    @barokahlampuchanel4102 2 роки тому

    Amazing vidio, froom indonesia 👍👍👍

  • @physicallyrandom5635
    @physicallyrandom5635 3 роки тому +5

    Just keep making a video about electronics sir 🙏🏻🤍 and we are here to support your channel 👍🙏🏻

  • @Chillingworth
    @Chillingworth 3 роки тому +3

    13:09 "The voltage will never actually reach 100%".
    In reality, it actually does reach 100%! The theoretical model depends on the fact that you could have an infinitely small charge, but in reality, the smallest charge possible is just one electron, so once that last electron enters, you're at 100% and it's fully saturated. (I think I remembered this from Electrical Engineering 101 by Darren Ashby.)

    • @Songfugel
      @Songfugel 3 роки тому +1

      Yes, people then to forget that mathematics are theoretical and do not accurately represent the physical real World. It just approximates it very accurately, the real physical world does not have infinities or paradoxes, since it wouldn't be possible then. In the real world there are constant (c = lightspeed, h = Planck's constant ) values and absolute quantized (h, Planck time) boundaries that mathematics is not limited by, this electron case is a perfect example of it in action.

  • @jensschroder8214
    @jensschroder8214 3 роки тому +3

    Tantalum capacitors have a mark or line on the positive side. These capacitors are very small and have a small internal resistance. But if you connect this the wrong way around, or the volts get too high, then this will burst.
    Electrolytic capacitors have the mark on the negative side. There are different types of voltage up to 450 volts, but the internal resistance also increases with the voltage.
    There are also capacitors for fast switching power supplies with low internal resistance.
    There are also non-polarized electrolytic capacitors for audio applications.
    Depending on the application and space, you have to choose the right type.

  • @NawtieBoy96
    @NawtieBoy96 3 роки тому +3

    3:40 in a series circuit the Voltage across a Cap will be battery voltage - load voltage

  • @John-we7jx
    @John-we7jx 10 місяців тому

    Thanks

  • @bounceurabdelaziz4973
    @bounceurabdelaziz4973 2 роки тому

    Great video, thank you very much for your sharing, greetings to you from Algeria🇩🇿💚.

  • @jimvalim1567
    @jimvalim1567 3 роки тому +2

    Love your videos! You explain it easy to understand. How about a video on oscillators? That would be cool!

  • @sfabsto5653
    @sfabsto5653 3 роки тому +3

    These videos are helping me so much 😍

  • @shivrajbhilare2910
    @shivrajbhilare2910 2 роки тому

    These what students need...a first Class teaching...

  • @the-real-sachin
    @the-real-sachin 3 роки тому +1

    Subscribing to this guy is a decision that I can never regret

  • @melodydotsundarrteluguvoca3923
    @melodydotsundarrteluguvoca3923 3 роки тому +2

    Please make a video on Electrical safety in Industrial and shipping too, I love ur videos it's excellent. I pray u make it happen

  • @denislavdochev3783
    @denislavdochev3783 3 роки тому +10

    I wish they taught us like that is school. Instead if this they filled our heads with useless abstract formulas in trigonometry and forcing us to solve engineering level problems in physics. At least now I can really understand how the things work.

    • @MaxC_1
      @MaxC_1 3 роки тому

      @Alter Kater doesn't look like raising sheep is going too well though. No need to share your bad advice with others

    • @jamesusespivot
      @jamesusespivot 3 роки тому

      Theres a very short route from learning about capacitors to having to use trig to calculate impedance in said capacitors once you deal with ac. So if you can’t do trig, just knowing what a capacitor is won’t get you very far. Reason teachers don’t teach this way is either cause they’re not very good at connecting the math to real world applications or they just assume you already know, after anyone interested enough can easily look up what a capacitor is online or at a library.

    • @Cheesypockets
      @Cheesypockets 3 місяці тому

      Trig is not useless. It's actually useful in game dev and architecture/building. It's more of a matter in which field you want to go in.

  • @razpootis5802
    @razpootis5802 3 роки тому +4

    "Tall capacitor does not exist. It can't hurt you."
    Tall capacitor: 4:53

  • @gigihprassetyo2353
    @gigihprassetyo2353 2 роки тому

    Saya sangat suka penjelasan anda. Orang yang tidak mengerti bahasa Inggris pun bisa memahaminya.
    Terima kasih telah berbagi.

  • @mathieusan
    @mathieusan 3 роки тому +1

    How do you size a decoupling capacitor on a DC circuit that is installed to prevent inrush current (I think), let say on a toggle switch leads? Or at the VCC pins of a dropout regulator? (sometimes you see 10uF and 1uF in parallel, instead of just the big one)

  • @dr.ibrahimhassan8501
    @dr.ibrahimhassan8501 3 роки тому +2

    رووووووووووعة
    أللهم صل على محمد و على آل محمد 💘🍃💝🌾💚🌺❤🌻💙🏵💞🌱🧡🍀💓💐🌼🌷💙🌿💕

  • @Yash-Gaikwad
    @Yash-Gaikwad 3 роки тому +1

    Far better than great scott.

  • @shankarmodagi692
    @shankarmodagi692 3 роки тому +3

    Hello, the video is very informative.
    Can you please help me with below.
    I want 82uF/100V capacitor for my LED tube light. But I am not able to get it. Can I use 100uF/100V? If not, please suggest the alternate.
    Thank you

  • @snailevangelist
    @snailevangelist Рік тому

    these lessons are so helpful, thank you so much!!

  • @julianrose3058
    @julianrose3058 Рік тому

    Is there is an error at 10:56? I think the curve is logarithmic, not exponential. And at 14:23 it is a decreasing logarithmic curve.
    At 14:01 in the audio, I don't think the lamp would instantly be at full brightness; rather, it would quickly reach full brightness, as the graph shows in the video - I'm imagining the electron flow here.
    Thx for a great educational video.

  • @manishmandal-78
    @manishmandal-78 3 роки тому +1

    You did your studies really well.

  • @moondogdieselworks3883
    @moondogdieselworks3883 3 роки тому +2

    Very informative, keep em coming.

  • @kabandajamir9844
    @kabandajamir9844 Рік тому

    The world's best teacher thanks sir

  • @KulwinderSingh-ct4wr
    @KulwinderSingh-ct4wr 3 роки тому +1

    Excellent Presentation,
    Awesome Efforts,
    Regards ❤️ se.
    🙏

  • @13thravenpurple94
    @13thravenpurple94 2 роки тому +1

    Great work 🥳 Thank you 💜

  • @benlee3545
    @benlee3545 Рік тому +1

    Dear Experts, at 9:34, the capacitor is storing charge at the positive side which is different from the beginning. So for AC which is alternating, will it damage electrolytic capacitor with polarity?

  • @miriamramstudio3982
    @miriamramstudio3982 3 роки тому +1

    Great video. Small comment: At 5:53 you say 23 micro farads where I think you should have said 230 micro farads. But the text of the video is correct so no worries ;)

  • @palaniappansubbiah1644
    @palaniappansubbiah1644 3 роки тому

    Very nice &very interesting. Nothing confused.

  • @jyojycorpuz5834
    @jyojycorpuz5834 3 роки тому

    Useful Information and learning from it. 👍👍⚡. Very Interesting 👍⚡✨

  • @warunakumara7671
    @warunakumara7671 3 роки тому +3

    thank u for the lecture sir , sir if you can please teach us how to calculate the value of capacitors used for amplifiers , in an amplifiers we use ceramic capacitor to in the analogue signal , teach us how to calculate the bypass capacitor value , coupling capacitor value , decoupling capacitor value , smoothing capacitor value .......etc teach us about those things

  • @animesky965
    @animesky965 3 роки тому

    Wow. Explain better than professor.
    Very well explanation.

  • @samw931
    @samw931 3 роки тому +2

    Thanks bro.i was expecting this

  • @HafizurRahman-mw8bp
    @HafizurRahman-mw8bp 2 роки тому +1

    Brilliant everything crystal clear to understand. Please make one video on motor coil how all the coil wires are twisted together. Every video shows but not clear at all how the set coil winding is twisted together before they are attached to the connector contactor and switches. Sorry for the trouble.

    • @EngineeringMindset
      @EngineeringMindset  2 роки тому

      Please see our motor starter videos and brushless motor or 3 phase motor videos

  • @TapeGone
    @TapeGone 2 роки тому +1

    great explanation, thanks a lot!

  • @ketanmorajker
    @ketanmorajker 3 роки тому +1

    JUST AMAZING KNOWLEDGE ❤️👌🏻

  • @neeluaero
    @neeluaero 10 місяців тому +1

    Thank you very much sir ❤❤❤❤
    If i have these videos ...i will mever let them to be free for all...

  • @hassaniskandarani1345
    @hassaniskandarani1345 3 роки тому +1

    great video showed a lot of explanation , may I ask you to make a video on different types of passive filters please

  • @MessiasMenezes
    @MessiasMenezes 3 роки тому

    Good afternoon. And if I have a 12V ac transformer and four rectifier diodes, what will be the capacitance of the capacitor?

    • @MessiasMenezes
      @MessiasMenezes 3 роки тому

      @@kennmossman8701 Thank you very much for reporting.

  • @davidtsangtam5626
    @davidtsangtam5626 3 роки тому

    I don't regret subscribing this channel

  • @YouMockMe
    @YouMockMe 3 роки тому

    I like the diagram explanations...spot on

  • @nicktck1
    @nicktck1 3 роки тому

    loved it...please keep them coming...really good job

  • @DaNiKzz
    @DaNiKzz 3 роки тому

    Thanks! Learnt a few new things that should help me!

  • @kabandajamilu9036
    @kabandajamilu9036 3 роки тому +1

    So nice and educative sir

  • @Mr2Xri
    @Mr2Xri 3 роки тому +1

    If you please could you make a video about "magnetic vs electric field"... I beleive that with you demonstration and analogies will be very interesting!

  • @cindy-13k
    @cindy-13k 3 роки тому +2

    I have a question if I add more capacitor the amps increase or not?

  • @LeonardoStaAna-cf8ll
    @LeonardoStaAna-cf8ll 2 роки тому

    Thank you. Very informative.

  • @sonugupta147
    @sonugupta147 3 роки тому +1

    Plz make a video on the concept of voltage/potential.
    I find these videos really helpful. Thanks.

    • @EngineeringMindset
      @EngineeringMindset  3 роки тому +1

      Please see our video on voltage explained

    • @sonugupta147
      @sonugupta147 3 роки тому +2

      @@EngineeringMindset I have already seen it. But it talks about the voltage only in terms of pressure in water. But i think potential is much deeper concept than just pressure in stored water. Plz consider it. Thank you.

    • @thegreatzoom5073
      @thegreatzoom5073 3 роки тому +2

      @@sonugupta147 It's really extremely similar. You can even describe diodes using fluid flow as being spring loaded ball valves, where the pressure necessary to compress the spring and allow flow is the same as the forward bias voltage needed to turn on a diode. Fluid pressure in pipes works the same as voltage as well: with no current/flow you have no difference in voltage/pressure and fluids flow from high to low pressure just as current flows from high to low voltage.

    • @sonugupta147
      @sonugupta147 3 роки тому +2

      @@thegreatzoom5073 I think potential is seperate quantity and it has more significance than pressure. May be it was discovered as a term representing some property related to the electric field. As the line integral of the electric field is potential and also the electric potential is only the property of the electric field.

  • @philippuszka7356
    @philippuszka7356 3 роки тому +1

    Will you be doing the same with an AC voltage capacitors?

  • @edtechph5444
    @edtechph5444 3 роки тому

    Nice watching ED TECH PH from philippines

  • @CL-ty6wp
    @CL-ty6wp Рік тому

    would a bunch of smaller caps smooth better than a single bigger cap at the same rating or same function?

  • @TheElectroMotiveSeaman
    @TheElectroMotiveSeaman 2 роки тому

    Well explained!

  • @hamood007-n8w
    @hamood007-n8w 3 роки тому

    Thank you so much, I like this channel 🇴🇲

  • @jerryluo7241
    @jerryluo7241 Рік тому

    fantastic video!❤

  • @nsnowaz
    @nsnowaz 2 роки тому

    Best video. Thanks sir

  • @nolezosa8912
    @nolezosa8912 3 роки тому

    WOW Great explanation. Godbless.

  • @Jonathan-vx7xi
    @Jonathan-vx7xi 3 роки тому +2

    Thank you, I really needed this. I just wasn't understanding why caps were being included in DC circuits

  • @mahuubao
    @mahuubao 2 роки тому

    Excellent ... Well done ...

  • @labanidharnaik1103
    @labanidharnaik1103 2 роки тому

    Great explanations.

  • @sohailjanjua123
    @sohailjanjua123 3 роки тому

    Hi , I like your lecture.Thanks

  • @GR-zd6xl
    @GR-zd6xl 3 роки тому

    So excellent video!!!!!!!!!!