First of all thank you for these videos! I am just starting out to learn about electronics and found that around 10:00 this video got a bit overwhelming and i had to rewatch that part. Maybe you could visualize on an example what that drooping voltage would look like. similarily the part about the switching power supply 11:30 ramped up the electronics term density pretty fast.
I appreciate the time you spend explaining these concepts. A course like this has been in my vision for a while now. Finding good videos on these principles can be discouraging for an inspiring circuit designer. All I can say is keep with it, tear stuff apart, and learn how it works. Everything you encounter that isn’t a cost to you. Collect the parts until you know how they work. Then keep collecting, salvaging, experimenting, and tinkering. Keep notes on every subject, part, or protocol you encounter. Repeat Repeat Repeat. And you will do fine. I remember telling myself, “I don’t understand today, but this time next year I’ll know plenty. Thank you for inspiring the next generation of electrical engineers. We sure are going to need all the hands and minds we can get. God Bless.
Thank you Leo! Just started watching this series and happy to see the third come out, I can already tell this is light years ahead of any other electronics walk through I've ever watched. Thanks again for sharing your knowledge!
Electronics and communication engineer here and I'm amazed by your teaching capabilities and your deep understanding. Keep up the good work. Very glad I found your channel!
These are fantastic videos. You've been able to explain some things (impedance and load; conductance and the reciprocal in parallel resistor math) that other intro courses either couldn't or just didn't explain. You've helped me a great deal as I try to learn from home. I'm looking forward to more! Thank you.
Loving this series! More please. At this point I'd love to see you integrating simple bread board examples, taking meter readings as you go. This series is perfect for someone like me who has electronic experience, but mostly with microprocessors.
Thanks so much for this series, Leo. When I'm teaching intro electronics to my students, I'm definitely going to incorporate these videos. Much appreciated.
After years of messing with electronics I never thought to hook batteries up with some of them reversed to measure the voltages. I honestly would have guessed you'd measure zero volts at the ends or just make a lot of heat. Good stuff.
Thanks Leo for continuing your lessons I'm knew to electronics and Looking forward to your video,s must admit I'll probably have to watch this one a few times .
Good introduction about summing voltages, leads into Kirchoff's voltage laws. Internal resistance/impedance is often overlooked in why power transfer fails to power a circuit. Keep up the good work Leo.
Good stuff Leo. I’d never really thought about battery internal impedance before, but now it makes perfect sense: the current is doing the most ‘work’ in the highest-impedance bit of the circuit, so a D-cell will be more efficient with a high-impedance (ie low-current) load.
Thank you so much. I have been watching other videos that are at a college level and couldn't wrap my head around the practical application of the math. You made it make sense. Now I am encouraged to keep watching and learning. Keep the videos coming.
I haven't seen this stuff since undergrad! I like your steady approach to teaching the concepts, and I especially enjoy the real-time experiments. I love your teaching and learning philosophy, and I enjoy your content. Looking forward to the next episode!
Leo I am a Refrigeration Mechanic from Calgary Canada. I appreciate all the great tips. Do you have courses that I could take to expand my knowledge? I thot I checked your sight and saw nothing. Please advise. Great Work Brother!
Very nice videos. Really hope they help your channel grow. This does not matter, but just a comment - Heavy Duty Batteries are different than Alkaline Batteries.
In next lection we should discuss about difference between power ground and digital ground. Sometimes we can see even change of polarity on digital lines if grounds are combined not correctly
Leo Please do a video explaining Impedance. What it is and how to understand it. I have struggled with this and have not found a clear explanation of what it is and how it compares or contrasts to resistance.
Very informative and enjoyable to watch. Good length and pace. What is a good/valid way to measure the internal impedance of a single cell or a battery?
Someone more knowledgeable might want to weigh in here but I'd say the best way to find out is to check the datasheet. A cursory google search tells me that correctly measuring internal battery impedance requires a specific set of tools.
Most of your comments are from teachers . Typical that teachers take for granted how to teach the basics. As a retired construction professional. No way I could teach from a blackboard, it does not work. They need to watch real examples.
you definetly got "a good teacher DNA "....lol
Keep these coming! Some of the BEST electronics basics videos in existence.
great series. thank you for making these!
Thank you keep going its fantastic as a student i understand everything you said easy
First of all thank you for these videos! I am just starting out to learn about electronics and found that around 10:00 this video got a bit overwhelming and i had to rewatch that part. Maybe you could visualize on an example what that drooping voltage would look like. similarily the part about the switching power supply 11:30 ramped up the electronics term density pretty fast.
Thank you! Looking forward for the next episode :)
Thank you, Leo !!!
I appreciate the time you spend explaining these concepts. A course like this has been in my vision for a while now.
Finding good videos on these principles can be discouraging for an inspiring circuit designer. All I can say is keep with it, tear stuff apart, and learn how it works. Everything you encounter that isn’t a cost to you. Collect the parts until you know how they work. Then keep collecting, salvaging, experimenting, and tinkering. Keep notes on every subject, part, or protocol you encounter. Repeat Repeat Repeat. And you will do fine.
I remember telling myself, “I don’t understand today, but this time next year I’ll know plenty.
Thank you for inspiring the next generation of electrical engineers.
We sure are going to need all the hands and minds we can get.
God Bless.
Keep them coming!!!!
I now have some semblence of understanding on how to read a
Schematic and whats happening.
I've been waiting eagerly for your next vid! Absolute gold
Another great video! thank you sir.
I learned more electronics in this video than in one semester in engineering school. Thanks a million
You explain things very well thanks 👍
Whoop! Been waiting for this 😊
Thank you Leo! Just started watching this series and happy to see the third come out, I can already tell this is light years ahead of any other electronics walk through I've ever watched. Thanks again for sharing your knowledge!
Great explanations
thank you for your time and expertise
Thank you very much, explain in this way is much better than a text book.
These videos are absolute gold on youtube, so glad i found your channel
I can tell that these videos take a lot of effort to make. I appreciate your generosity.
It is so helpful how simply you explain things. I don’t always grasp everything but, you really help me along my way. Thanks again
Electronics and communication engineer here and I'm amazed by your teaching capabilities and your deep understanding. Keep up the good work. Very glad I found your channel!
Always good.👍 👍 👍 👍
Love this, cant wait for the next one. You are the best at explaining at a level where everyone can follow.
Spot on! 99% of my project failures (in the past) caused by power issues.. Lessons learned..
These are fantastic videos. You've been able to explain some things (impedance and load; conductance and the reciprocal in parallel resistor math) that other intro courses either couldn't or just didn't explain. You've helped me a great deal as I try to learn from home. I'm looking forward to more! Thank you.
Loving this series! More please. At this point I'd love to see you integrating simple bread board examples, taking meter readings as you go. This series is perfect for someone like me who has electronic experience, but mostly with microprocessors.
A happy coincidence to begin this new endeavor at about the same time! Thank you for the series, I am learning a lot, and very much enjoying it.
Great Videos, thanks for producing them !
Thank you for making these videos. i fully understand your explanations, please make more videos.. love from india
Thanks so much for this series, Leo. When I'm teaching intro electronics to my students, I'm definitely going to incorporate these videos. Much appreciated.
After years of messing with electronics I never thought to hook batteries up with some of them reversed to measure the voltages. I honestly would have guessed you'd measure zero volts at the ends or just make a lot of heat. Good stuff.
Hello Leo love the videos and learning a lot, please keep it up
Thanks Leo. I wish I had had this facility 65 years ago when I started out in the electronica field.
These are great videos to catch back up into electronics. Have many lessons do you have planned?
Where were you back in my college EE classes days? In 15 mins you cover 6 weeks of lecture.
Enjoying the explanation of concepts I've been dimly aware of but pretty clueless about what's going on. Always happy to learn from a good teacher 🖖
Excellent, clear explanations and demonstrations. Man, I wish your videos were around years ago when I first tried to learn this stuff!
Thanks Leo for continuing your lessons I'm knew to electronics and Looking forward to your video,s must admit I'll probably have to watch this one a few times .
Good introduction about summing voltages, leads into Kirchoff's voltage laws. Internal resistance/impedance is often overlooked in why power transfer fails to power a circuit. Keep up the good work Leo.
Good stuff Leo. I’d never really thought about battery internal impedance before, but now it makes perfect sense: the current is doing the most ‘work’ in the highest-impedance bit of the circuit, so a D-cell will be more efficient with a high-impedance (ie low-current) load.
You got it.
Thank you so much. I have been watching other videos that are at a college level and couldn't wrap my head around the practical application of the math. You made it make sense. Now I am encouraged to keep watching and learning. Keep the videos coming.
I haven't seen this stuff since undergrad! I like your steady approach to teaching the concepts, and I especially enjoy the real-time experiments.
I love your teaching and learning philosophy, and I enjoy your content. Looking forward to the next episode!
Could you make a fully explanation about electronics series? your explanation is wonderful
Great video as always. I'd love to see a video describing impedance in detail.
🎉🎉🎉 I sleep well with something in head thanks 🙏 🎉
Hi Leo, do you have a video of making up a 12volt lithium ion battery for a gate motor thank you Rodney
Leo I am a Refrigeration Mechanic from Calgary Canada. I appreciate all the great tips. Do you have courses that I could take to expand my knowledge? I thot I checked your sight and saw nothing. Please advise. Great Work Brother!
Thank you Leo!
Good day
Is there anywhere I can get help to build a circuit on breadboard
Very nice videos. Really hope they help your channel grow.
This does not matter, but just a comment - Heavy Duty Batteries are different than Alkaline Batteries.
True - thank you!
In next lection we should discuss about difference between power ground and digital ground. Sometimes we can see even change of polarity on digital lines if grounds are combined not correctly
When next video?
Thnk you sir
thank you!
Ready for part 4 5 6 7 8 9 and 10 😁
Leo Please do a video explaining Impedance. What it is and how to understand it. I have struggled with this and have not found a clear explanation of what it is and how it compares or contrasts to resistance.
Working toward that goal, there are a few videos I need to make before this can be "framed" properly to make it understandable!
@@leosbagoftricks3732 Your videos are phenomenal Leo looking forward to more!
Not so clear in my mind yet. Will look again, untill I get it.
You make a go teacher - a retried engineer.
I love it.
Btw I could not send you an email. Your postmaster denied it.
I sent you a interesting US patent.
great video but with a title like that, few people will find it )=
thx
Very informative and enjoyable to watch. Good length and pace. What is a good/valid way to measure the internal impedance of a single cell or a battery?
Someone more knowledgeable might want to weigh in here but I'd say the best way to find out is to check the datasheet. A cursory google search tells me that correctly measuring internal battery impedance requires a specific set of tools.
Seems difficult but I willbgo over it sgain tillbitvbecomes clearvin my head
He's drunk. The teacher was great!
Make than good teacher ,thanks auto incorrect.
Your this 👉❤
probably more videos will help ❤❤❤❤being seen on youtube ????lol
Most of your comments are from teachers . Typical that teachers take for granted how to teach the basics. As a retired construction professional. No way I could teach from a blackboard, it does not work. They need to watch real examples.