Kirchhoff's Laws - How to Solve a KCL & KVL Problem - Circuit Analysis
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- čas přidán 2. 05. 2024
- Struggling with electrical circuits? This video is your one-stop guide to conquering Kirchhoff's Current Law (KCL) and Kirchhoff's Voltage Law (KVL).
In this beginner-friendly tutorial, you'll learn:
The fundamental concepts of KCL and KVL explained clearly.
How to apply these laws to solve real-world circuit problems with step-by-step examples.
Gain the confidence to analyze any basic electrical circuit.
Bonus! We'll also cover some helpful tips and tricks for mastering Kirchhoff's Laws.
Whether you're a student, hobbyist, or just curious about electronics, this video is for you!
0:06 What is circuit analysis ?
0:35 What is Ohm's Law ?
0:57 Ohm's law solved problems
8:38 Why Kirchhoff's laws are important ?
9:30 Nodes, branches loops ?
9:35 what is a circuit junction or node ?
9:45 What is a circuit Branch ?
9:56 What is a circuit Loop ?
11:48 Kirchhoff's current law KCL
12:08 Kirchhoff's conservation of charge
14:30 how to apply Kirchhoff's voltage law KVL
15:58 Kirchhoff's voltage law KVL
16:25 Kirchhoff's conservation of energy
16:55 how to solve Kirchhoff's law problems
18:04 steps of calculating circuit current
#KirchhoffsLaws #ElectricalEngineering #CircuitAnalysis #ElectronicsBasics
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even the grade 6 student will understand this, very nice to have on this network
Kirchhoff was one of the under-rated figures in science history. It was these first systematic rules defining how electricity flowed in basic circuits that changed electricity from a curiosity into the ubiquitous tool that it is today. For certain there are other figures - Maxwell the most notable - that made essential and magnificent strides, but these basic ideas of Kirchhoff laid the foundation.
Clear and concise! Excellent 👍
Please provide more videos as beginners like will learn more from that. You are wonderfully great teacher of electrical theory.
AwAiting for more videos please
Thank you, I will
Very well explained thanks.
The world's best teacher thanks sir
you're so helpful...thanks!!
Thank you so much teacher!!🙏🙏
Sorry teacher at:
4:40 of this video
I1=0.3A
I2=0.6A
Excellent lesson👍👏👏💯🇩🇿🇩🇿
in the last example you changed the direction of the voltage source with 0.5 volts which messes up calculations. otherwise great content
Same problem to me
This is Great!
Thanks so Much pro mad its very good information and good intimation withe video
Thank you so much sir ❤
Flashback to high school electronics shop
Thanks អរគុណ❤
Make a video on MOSFET
How did you get 40/3 for your answer?
I wish I "got it" but this was really confusing. I will have to watch it again and see if it makes sense the second time. I think it was all of the reused label names that is confusing.
Current draw
@Wil_Bloodworth Don't just watch it. Solve the problem to understand it better because it's really confusing when you just watch it.
5:29 Something isn't right. Sould the fraction be 3 over 40?
In that area he did not use ohms law. It just means that the value of Rt1 is equal to 40/3
Current flow from negative to positive
At 4'13", why wasn't Rt = ((R1*R2)/(R1+R2)) enough? Thx.
Nevermind, thx. Another video filled the info holes.
@1:29 there is a big mistake ! electrons have a negative charge so the current should flow in the other direction ! !.
yes, but in the video the current is in the CONVENTIONAL form, not the REAL. For almost all cases, the conventional flow work just fine.