Very clearly presented! Seeing the rails from underneath completely explains what will happen when components are inserted on top. Now I really get it. NOTE: I am using a very small 400 point breadboard that does not split its power rails, although there is a space between each group of 5 power pins in a power rail row. With some further research I found out that if a breadboard has red & blue lines next to its power rails that is the key to split & non-split power rails. If the line is unbroken then it is a continuous power rail and if the line is broken then it is a split power rail. Just to be certain, I'm going to check to make sure that the power rail on the opposite edge of the breadboard is fully independent so I can have a 5V power rail and a 12V power rail for my project. As you said, I don't want to power up my breadboard until I make sure that the correct voltages are applied where I want them and there are no short circuits or incorrect component branches. Thanks for your informative video.
hello, great video,very inspiring, ...it gave me an idea. how can i control 8 Fotorezistors and log the lighting conditions over from each individual Fotorezistor(placed in different areas) using just arduino or just one raspberry pi ? basicaly i want to place 8 sensors around a small room and log the light intensity throughout a day. i'm thinking that neither arduino or raspberry pi has enough gpio pins... please help me understand how i could log data from 8 Fotorezistors at the same time placed in different areas.
i need more explanation on the two horizontal lines of top and bottoms????? are there both horizontal lines are ground or the one is power and the other is ground . please reply soon!!!
Hello, i know its been a few months sense the comment was posted. But i believe when he wrote this diagram, he showed on the left side that they were vvc on the top bar and gnd on the bottom bar and it was same for the two horizontal bars on the bottom. Then on the right, he said the top 2 were vcc and the bottom two were gnd. I believe this was to demonstrate they can be whatever you assign them to be. If you think about it, this makes sense. They are just metal bars, they have the same physical properties, you can make whichever gnd and whichever Vcc that you want to. I suspect you could do the same for the vertical bars given the appropriate orientation. But it just wouldn't be logical or practical.
This is the only video i have found that explains the basics of breadboard very clearly and precisely. Thank you.
This is the best video I was founded on internet... Today from morning thank you
Great video. That first battle-scarred board tells us you know what you're talking about.
Whenever u have no hope for a lab go to a Indian lecturer u will pass with flying colours 😂
Lmao fr
Very clearly presented! Seeing the rails from underneath completely explains what will happen when components are inserted on top. Now I really get it.
NOTE: I am using a very small 400 point breadboard that does not split its power rails, although there is a space between each group of 5 power pins in a power rail row. With some further research I found out that if a breadboard has red & blue lines next to its power rails that is the key to split & non-split power rails. If the line is unbroken then it is a continuous power rail and if the line is broken then it is a split power rail.
Just to be certain, I'm going to check to make sure that the power rail on the opposite edge of the breadboard is fully independent so I can have a 5V power rail and a 12V power rail for my project. As you said, I don't want to power up my breadboard until I make sure that the correct voltages are applied where I want them and there are no short circuits or incorrect component branches.
Thanks for your informative video.
Thanks For making me aware of this....
And here I am a 12 year old learning electronics thinking I will be able to do any of this
amazing video for first time users best part is the digram the vid is very simple and straightforward
thanks man...it just refreshed my whole concept after two years of my graduation
Thank you for taking the time to record and share this tutorial.
Cheers
Explained perfectly as most breadboards don't have any instructions.
Amazing Explanation.
Many other vids on breadboard on the internet are simply clumsy
Ohhhh Nice.. amazing explanation
Wowww so much good information. I liked your work👏👏👏
Very easy and detailed explanation. Thank you so much sir 🙏
this was great loved your diagram
Glad to see gvpian spreading knowledge! Im 2017-2021 ece batch sir.
great video for a beginner like me thank you
good video
you are god to me thnk you for this content
many thanks for this precious and inspiring explanation
Thank you. You helped me a lot! I wish you the best!
Thanks Explained very well
Very good explanation. Clear.
Nice
Great explanation!🔥🔥
Thanks a lot! Simple yet effective explanations :)
Very Insightful thank you
nice explanation sir
Thanks for this useful tutorial
Thank you. Very well done.
Great video! Thank you.
nice
Thank you for explaination
Excellent explanation
I just subscribed!
Sir can we use 230 Ac in breadboard
new sub will checkout a few of your videos to learn more thanks for posting :)
Thnx bro........helped a lot
bro u really helped me
thanks brother bread bord
How to know which rail is positive n which negative? ( Because in some top is positive and in some bottom is positive)
can you explain which is the positive side and negative side
hey, good video
thanks
hello, great video,very inspiring, ...it gave me an idea.
how can i control 8 Fotorezistors and log the lighting conditions over from each individual Fotorezistor(placed in different areas) using just arduino or just one raspberry pi ?
basicaly i want to place 8 sensors around a small room and log the light intensity throughout a day.
i'm thinking that neither arduino or raspberry pi has enough gpio pins...
please help me understand how i could log data from 8 Fotorezistors at the same time placed in different areas.
WOW👍👍👍👍
Thanks elder brother. .......
Thank you sir
THANKYOU ITS REALLY USEFULL
Super explanation brooo
How to find positive and negative rails on breadboard...what is the importance of marking abcde fghij?
That accent reminds me of my School teacher. Thanks Guru.
thanks... very useful....
Brooo plz ineed some help regarding electronics practicls
Thank you very much. 👍👍🔝🔝
Oh, I thought that a straight breadboard was like this | | and not this =
thank u sir 4 this video
Thank u so much sir
thanku brother u made it easy
i need more explanation on the two horizontal lines of top and bottoms????? are there both horizontal lines are ground or the one is power and the other is ground . please reply soon!!!
Hello, i know its been a few months sense the comment was posted. But i believe when he wrote this diagram, he showed on the left side that they were vvc on the top bar and gnd on the bottom bar and it was same for the two horizontal bars on the bottom. Then on the right, he said the top 2 were vcc and the bottom two were gnd. I believe this was to demonstrate they can be whatever you assign them to be. If you think about it, this makes sense. They are just metal bars, they have the same physical properties, you can make whichever gnd and whichever Vcc that you want to. I suspect you could do the same for the vertical bars given the appropriate orientation. But it just wouldn't be logical or practical.
thank you sir
👍🏼👍🏼👌👌👌
Thanks to u
Gud
Thanks alot
Thanks that really helped me, are you from India
+Irfan Hassan appreciate that, yes I am from india
supper bro
sir how to make a fast mobile charger.. like 2A mobile charger
😂😂
Thanks sir:)
Thanks 🙏🏻
Pl explain in software
Thanks 😊
Thanks a lot man
gud
👍
Tq bro
Tku
Very bad explanation.....sound is not cleared so I did not understand anything
not a quality work -_-
Not true
Thank you sir