Thank you so much, sir, for this video! :D Aside from making me understand Kirchhoff's loop rule and how to use it, this also gave me a hint on how one can determine the exact values of current that flows through each branch (knowing the resistance of all the resistors involved) when it splits through a parallel circuit, adding to Kirchhoff's current rule. Thanks again!
How then can you apply the KLR considering that the parallel branch is also a loop on its own. Are you solving them in parallel connection for resistors then take them as a single loop or ???
Why did you took resistances in volts it should be in ohm sir ..
Btw regular viewer from INDIA 🇮🇳
THANKS FOR THE VIDEOS
He's talking about potential differences in resistors
This man solely has carried my grade in physics
Hello! Your videos have been a great help! Do you mind if you also make videos about optics? Thank you!
Thank you so much, sir, for this video! :D
Aside from making me understand Kirchhoff's loop rule and how to use it, this also gave me a hint on how one can determine the exact values of current that flows through each branch (knowing the resistance of all the resistors involved) when it splits through a parallel circuit, adding to Kirchhoff's current rule. Thanks again!
How then can you apply the KLR considering that the parallel branch is also a loop on its own.
Are you solving them in parallel connection for resistors then take them as a single loop or ???
can you pls make an example where the power source is in between the resistors?
thanks
man you are so amazing
Finally some one Indian here 😄
Btw me too Indian 🇮🇳❤️
Thank you, very helpful.
This is so helpful thanks a lot !!!!
Thankyou
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