Thank you sir, for your information. I am an Electrical Engineer; at 2:04 , the information should be revised as , "The voltage across the circuit is the sum of the voltage across each component," should be replaced by "The current in the circuit is the sum of the current through each component". The Voltage information provided in parallel circuit is true for series circuit.
I am an electrical engineering student; at 2:08 is supposed to be the sum of currents through each each component equals the current through the circuit. What you said for voltage is true for series circuit.
2:10 Parallel circuit: The voltage across the circuit is the sum of the voltages across each component. No, the voltage for each component is the same and equals the power supply voltage. When in series the voltage of the supply equals the sum of the voltages for each component. In parallel the total current is the sum of the currents for each component, while in series there is just one current.
Right. Series circuit share the same current and the voltages are added. Parallel circuits share the same voltage and the currents are added. Interestingly, the more components you have in a series circuit, the less current there is while the more components in a parallel circuit results in a larger current
I have to do a correction to the series circuit... the currect "electricity" doesn't stay the same... it gets low and low from each machine than at the end it will be vary low
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Thank you sir, for your information. I am an Electrical Engineer; at 2:04 , the information should be revised as , "The voltage across the circuit is the sum of the voltage across each component," should be replaced by "The current in the circuit is the sum of the current through each component". The Voltage information provided in parallel circuit is true for series circuit.
I am an electrical engineering student; at 2:08 is supposed to be the sum of currents through each each component equals the current through the circuit. What you said for voltage is true for series circuit.
Thank you so much for videos. They become my morning vitamins during homestay.
Great works,always love watching Sunnys useful bits.
More to come!
Your videos are great and you are talented teacher! Thanks for the job done.
You're very welcome!
2:10 Parallel circuit: The voltage across the circuit is the sum of the voltages across each component. No, the voltage for each component is the same and equals the power supply voltage. When in series the voltage of the supply equals the sum of the voltages for each component. In parallel the total current is the sum of the currents for each component, while in series there is just one current.
Right. Series circuit share the same current and the voltages are added. Parallel circuits share the same voltage and the currents are added.
Interestingly, the more components you have in a series circuit, the less current there is while the more components in a parallel circuit results in a larger current
I wanted to address this too. Nice one. Well-done Prof
Tq so much sir this video helped me more than what I am thinking
thank you for the wonderful work you do
You are very welcome!
Nice you are the best sir
I have to do a correction to the series circuit... the currect "electricity" doesn't stay the same... it gets low and low from each machine than at the end it will be vary low
Thank you very much sur
Might i know the program you use for explanation
thank you very much Sunny
Hi sunny I do like your way explaining the courses ,can you explain to me subneting and VLSM, thanks
Sir could you please explain Hard, Soft, and Agie methodologies?
MSI/MSIX is Serial transmission while intX is Parallel transmission.
Genio
today, harddisk is using serial transmission instead of parallel transmission
good information
Did you know in windows, you CANNOT name a file “com”? Or lpt1 lpt2 ? Fun facts for fans of serial ports
Thanks a lot for sharing your fun facts.
RS-232 in the year 2020? Eww... BTW, we used to call it "RS-237", because it uses pin 2, pin 3 (TX/RX), and pin 7 (ground) :).