What are Branches, Nodes, and Loops with Series and Parallel Components? | Basic Electronics

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Table of Contents:
0:00 Introduction
0:38 What are branches in a circuit?
1:24 What are nodes in a circuit?
4:22 What are loops or meshes in a circuit?
6:29 Overview of series and parallel circuits
11:00 Mathematical simplifications of both series and parallel circuits

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Комментарии
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How can one Man be so good teaching 🥺


Thanks Alot was really helpful

beastgaming
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It helps me absorb the concepts
"Anything that's easier is less likely to screw up"

ChrisJustinTAbdon
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It's absolutely helpful especially for freshman year students. I like the way you explain the subjects. Keep up this amazing content. 👏🏼👏🏼👍🏼

yazeedmansari
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Honestly, you're second to none

Extremely helpful amd explanatory...

littleinstein-im
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As an overthinker, this helps me: For series add resistance and for parallel add coductance. Conductance is the inverse of resistance.

hieronymousmiller
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Plzz keep making videos it's very helpful for my studies ❤ all the way from India

flurican
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that was great! explained well with 'its a beautiful day' jejeje i watched always your video because i understand well the way you speak, continue making videos.

thenannifamily
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this video is exactly what i was searching for! thank u very much

ElinaHuseynzada
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Thank you, you did a great explanation here. Please continue 🙏

mnada
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Thank you so much for this helpful video sir.

richards_greatman
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if my lab instructor was half as competent as you i''d be in heaven

Momo-bbfn
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TS ~ 13:00, he says finding voltage divider value between R1 & R2 is difficult. It's easy - 
add R1 & R2 values. R1 + R2 = Rt  
then I = V/R, you're using Rt here. 
Since series circuit, current ( I ) is same for both resistors. 
So ... then take I * R1 = V to find voltage drop across R1.

trade_design
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actually, you are incredible for teaching

chriskanyinda
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A small recommendation, you should add a series feature in the website. It's really hard to navigate in thousands of tutorials.

hassanzahin
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I like the way you correct yourself after the video 😅💔

michaelwisdom
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This series and channel are great, definitely appreciated. Can you think of any books that would cover a similar level of topics as this Circuits 101 series, that would have a good selection of practice exercises as well? Would be helpful to jam stuff into my brain I think.

joshlawrie
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at time 7:33 when you added that other resistor, that part of the circuit is no longer a series. it has become a parallel branch because if you send current through the circuit, the current will have two paths to flow..

james
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Thank you so much it’s really helpful ♥️

afsanaazwar
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Thanks a lot for the detailed video. Thanks a millioin

thunderingeagle
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17:09 sir I think you are wrong about calculating the equivalent resistance in parallel R(eq) = (R1 x R2) / (R1 +R2) but your explanation was awesome

seifeldeenehab