I've been wondering...if the question were altered such that we were given the current flowing through the anmeter (let's say 1.0 A) and asked to find the resistance of the variable resistor, how then would we solve the question? In that case you can't simply find effective resistance, and current is also unknown. Thanks!
I really appreciate how much time and effort you put into making these illustrations clean and tidy. Good Job 🙂
Thanks!
I've been wondering...if the question were altered such that we were given the current flowing through the anmeter (let's say 1.0 A) and asked to find the resistance of the variable resistor, how then would we solve the question? In that case you can't simply find effective resistance, and current is also unknown. Thanks!
Amazing 👍
Great video! Clear information and beautifully done illustrations.
Thank you! Cheers!
Amazing video! you really got me with the graph at the end. Would it be possible to pick your brain on how you modeled it? thanks either way
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thank you this was really concise
This is very useful to me.
Thank you
Glad it was helpful!
Incredible. Love this👍
Thanks so much!
Nice work
Thanks
Well explained . Things are now easy for me
Happy to help.
this is awesome thank you
Happy to help.
Where did 2/3 & 1.71 come from? How did you get that?
parallel resistor calculation. He just considers the 2 sections as parallel and use 1/R2 + 1/R1 = 1/R formula
Great video
Thanks! These bridge circuits are always a bit of fun.
Can I use that in my High School ?
Yes, unless you go to a really weird High School...