@KhalidAli-ju4lo
Bro I can Guarantee that you have explained these concepts way better than any of my teachers. Thanks for Helping us
@harshitrautela6585
It's very nice of you to explain this stuff in a very simple manner and yet be humble enough to accept mistakes and limitations. Keep going. Love from India
@Embr5800
I love this series please don't stop making these videos
@illuminade
Power flows from negative to positive, so in modern wiring all switches disconnect the negative (also called Hot) wire. This is because it's better to have the hot disconnected and staying in a switch, rather than staying in a bulb or other device. this decreases the risk of fires. I had a similar question when learning, and they actually used to wire switches to disconnect the positive, but switched later on. Hope this helps!
@jakkuwolfinsomnia8058
Your videos are excellent, I studied all the way to university but electronics was so poorly taught that I struggled to not get confused. Your videos have truly clarified a lot of issues for me and now I completely understand why we use resistors, the difference between Voltage, Current, Resistance, and Power. The Ohm’s laws make much more sense and the difference between AC and DC. I understand how a breadboard works. I really appreciate your teaching videos please don’t stop teaching they really are helping me in achieving my aims to build a drone and a computer. Thank you so much
@MarcosMillet
Hey CodeNMore, absolutely love this series. The way you explain stuff is so helpful to the newcomer, it really is. One thing though; stop apologizing for how 'boring' this video has been! We wouldn't be here watching these tutorials if we thought the subject was that boring. I hate it when you say 'I know it's been boring', because in reality it was actually very interesting and taught by a very capable person! Anyway thanks so much for making these videos honestly... looking forward to seeing how far I can take my electronics knowledge, and you've really helped me start off. Take care and keep up the good work!
@CodeNMore
*DISCLAIMER - READ BEFORE WATCHING* I am an electronics hobbyist; I do not have a degree in electrical engineering. This series MAY NOT teach all of the appropriate safety required for general electronics work. Any advice taken from this series should be checked with multiple sources, and a professional should be addressed to ensure proper safety. As a viewer commented, the placement of the switch is not just due to convention. It is, in fact, a safety concern based on how many circuits are designed and built. Please keep this in mind.
@jeanatienza1247
Hello! Thank you so much for this wonderful and helpful series! You really have the talent and skill when it comes to explaining things in a simple manner. Thank yoU!!
@bkstudio1990
This video series is the perfect starting point. It was EXACTLY what I was looking for!
@koverbence2
Wow dude, awesome series, you give sooooo simple explanations, even i can understand. You don't get enough views and likes man. I'm really starting getting into electronics. Keep up the brilliant work, your vids are awesome.
@IramRolon
😎 It's a truly excellent video. It is both instructive and fascinating. I deeply appreciate the time and effort invested in its production.
@antonyoutube4221
Your lessons are excellent, I'm a beginner in electronics and learning a lot from your lessons. Those critics if these lesson's are boaring you then start your own feed and let us see how far you get.
@zholton1986
This sent me down a rabbit hole centering around Poyntings vector that my mind was not ready for and now I'm questioning reality.
@MohauMbongwa-uz8xo
Bro. Just got a job at 16 cause of you. Appreciate it 🙏
@GK-sh7ck
Electron Theory (- to +). Conventional theory (+ to -). Great beginner series!
@mamaoftwo4459
Great to finally see lesson 16 hope you continue to upload. Thank you very much
@shafikhan7571
I have always been interested in electric but I never had a chance to learn but now looks like internet giving me change I am very thankful and happy, like very much how you explaining thank you.
@jakkuwolfinsomnia8058
In the context of a battery: Power is the rate of energy release. In the context of a circuit: Power is the rate of energy consumption. Therefore, assuming the circuit is in a series (the voltage does not change throughout the circuit) and the components energy consumption rates do not change, the Power of a circuit is the sum of each components power (or energy) consumption or: Σ (P1 + P2 … Pn) = Total Power of the Circuit (the total rate of energy consumption of the circuit) Where P1 is the Power of a component in the circuit and n is the number of components in the circuit that use energy from the power source.
@joshwrigglesworth1550
So glad you have done an update codenmore. Keep up the quality vids. Best basic electronics tutorials on YouTube!!
@jamesdoherty97