Access The Full 1 Hour Video: www.patreon.com/MathScienceTutor Direct Link To The Full Video: bit.ly/3lRbwSi Final Exams and Video Playlists: www.video-tutor.net/
Good teacher. His explanations are easy to understand. Today I am 72 years old and a Happy retired worker. It’s the first time that I have at last understood the basics of Electronics! Thanks to you, professor.🙏
Electronics are really fun and interesting and they are more accessible than ever! I don't know if it's your plan, but spending retirement tinkering with machinery seems like a great idea.
This was a very good tutorial. I thought the instructor did a wonderful job walking the viewers through the use of resistors. He had great examples, explained things well with pertinent illustrations. And he had a very good voice for instructing.
Wow what incredible timing! I just got a beginners electronics assembly kit from my girlfriend for Christmas to give me a head start before my engineering classes start soon. This will definitely be helpful
I love the way you explain everything. ive always worked on computers and main boards, but its nice knowing whats going on at the physics level. thanks for the video.
0:06 Resistors Intro and Ohm's Law 2:28 Power 5:04 Resistors in Series versus Resistors in Parallel 9:41 Lightbulbs 11:16 LEDs 15:02 Potentiometers 23:19 Voltage Dividers 29:26 Solar Cells
An important point for anyone not understanding the fundamental "what actually *is* voltage/current": A rough concept to consider is how electricity is being transmitted. Electrons loosely speaking are responsible for electricity. A coulomb is a measure of electrical charge. A couloumb represents a number of electrons, regardless of their state. This is charge. The number isn't immediately important. It's a big number. Electrons aren't "consumed"; they have a level of energy at which they've been excited, and transmit this energy to power things. Energy is measured in Joules. The same joules in any other form of measurement of energy, e.g. chemical energy. So if each electron is holding a certain number of joules, and a multitude of electrons make up a coulomb, we can state how much energy is contained in this collection of electrons as the number of Joules per Coulomb. "Joules per coulomb" is the same as "Volts". V = J/C = Joules per Coulomb. Current is the "rate of flow of charge". As previously mentioned, charge is measured in coulombs. It gives the number of coulombs passing a point per in a circuit per second, regardless of how many joules possesed by those coulombs. I = C/s = coulombs per second. So with this in mind, power (Joules per second, measured in Watts), can be found by muliplying the two measurements together. The fractions cancel out: J/C x C/s = J/s = Watts! This explains why voltage goes down across a component, e.g. lightbulb, as Joules are being taken from the electrons/coulombs and are being converted to light!
So the same electron can "carry" a different amount of Joules with it? There must be an interval for the amount of Joules an electron can carry right? How do I find that? And what exactly is the Joules of an electron? Is it its kinetic energy?
@@ElVerdaderoAbejorro Joules of electrons is actually is the energy possessed by then when electric field is applied to them to move in ordered manner rather than random drifting which is without application of external voltage. • Random motion of electrons - Thermal energy. (Joules of Heat) • Ordered motion of electrons - Electrical energy. (Joules of electricity).
@@ElVerdaderoAbejorro 1. There is no such thing like the intervals of energy carrying. As long as these electrons are in motion then either in random or ordered they carries possessed energy at any instant. 2. When there is no external voltage then only the thermal energy they can carry. In this condition if any temperature difference is imposed then heat transfer will takes place in metals. 3. When electric voltage or field is imposed then they moves in ordered fashion as long as there is no resistance in the conducting path they continues to possess the electrical energy. 4. The only one state microscopically exist when these electrons are ceased to motion or motionless I.e. absolute zero Kelvin condition. Then only they don't carry or possess any energy at all. 5. So, there is always some form of energy these electrons possess at any instant of time in the metal or conducting material. There is no any particular interval needs to take into account. But yes, if we want the energy transferred in that period of time (range of instants) then it is V*I*∆t or I^2 *R* ∆t. At every instant, electron is in balanced condition of energy transaction.
Awesome Electronics Tutorial: V=IR - P=VI - Green LED = 2 Vdc drop across it - total R in series - total R in parallel - Well illustrated Potentiometer explanation i will add that the C terminal is also called the variable WIPER. Conventional current vs Electron current [got it] You are a Rock Star my friend
This video made me finally have that oh shit I’m an idiot moment, that very moment everything clicks!!! Thank you so much! Seriously thank you, I’ve been staring at my Arduino sensors just with mass confusion!! Resistance was the one thing I couldn’t understand. Finally clicked when you pretty much said, resistance is a gate, we only need 2 people to work, resistance opens the gate for two workers, and shuts it to 1000 people trying to also get in!
I'm currently asking myself how do you know so much? You are a literal genius, you have hundreds of videos for so many different areas, I don't know how someone can know so much information.
Thank god this exists I’m going back to study electrical engineering after 2 years of doing nothing and I have to relearn years of information before august lol
If you is interested in electronics the greatest results that i've ever had was by using the Gregs Electro Blog (i found it on google) without a doubt the most useful course that I have ever tried.
I learned the product-over-sum rule for pairs of parallel resistors. ie R1*R2/(R1 + R2). Sometimes it's easier to work out by hand. It's less nice for 3 or more parallel resistors, but it still works as long as you only do two at a time, and calculated pairs you can think of as its own resistor. For instance: with 3 resistors in parallel, you can do R1,2 = R1*R2/(R1 + R2) and R1,2,3 = R1,2*R3/(R1,2 + R3) With 4 resistors in parallel, you can do R3,4 = R3*R4/(R3 + R4) and R1,2,3,4 = R1,2*R3,4/(R1,2 + R3,4) Etc. Like I used to tell my math students, sometimes it isn't a "more right" way or a "superior" way, just another tool that sometimes is a better fit to your problem.
Remember your video title and audience: Basic Electronics for Beginners. Already, at 0:22 you’re jumping into calculating resistance when you haven’t even touched the basic idea of why a resistor is needed in the first place. Now look at the screen at 4:57. Does that look anywhere near “basic?” At this point, this “beginner” is totally left in the dust. Now go to 21:53. This beginner is frustrated and is thinking of quitting the quest of learning the basics of electronics. Just letting you know that this video is definitely not basic and not for beginners. But it was presented free to me and I thank you for your time.
@@greenbeginner3353 Well, you've to understand...Is it? And if you think you're better...do it on your own and kindly make a playlist...Let us know, what's your method of teaching?? :) Have a nice day... :)
@@tabassam-ali I am trying to learn electronics. I’m looking for basic information for beginners. I saw a video that said it was basic information for beginners but it was not basic and not for beginners. So, I commented accordingly. So, what did I do wrong?
Seriously, thank you for taking the time to post these videos. I’m so grateful to live in an age that we can learn anything anywhere because of people like you. Do you have Patreon or something like it? I’d gladly donate.
I learnt electronics ages ago, for 45 years didn't use it, watching these videos brought me back to my youth!! Will watch them all and get back to the electronics saddle, as a hobbyist now!! Million thanks for all !!
It's so cool explanation innet ? You are teaching better than my electronic teacher when I was studying at technical high school and university. I subscribe your channel.
Im sitting the GAMSAT on friday 20th Feb. If i get over 70 ill donate $20 to your go fund me. Your videos have helped me more than the $400 course i bought lol
In a parrallel circuit, there is a different wat to calculate it if you are not good with fractions. The formula is r1 x r2/r1+r2. If there are multiple resistors then the answer from the first 2 resistors turns into Re. therefor the formal now becomes RexR3/Re + R3 and so on.
Thank you for looking up that topic [basic electronic ] for me.“Keep up the great work.”I wanted to express my gratitude for your help and support today.
Memory effect exists in resistors, too. A 000 smd resistor resists, after several use, it will become fully conductive. Smart batteries have such resistors inside the battery pack.
As a Navy trained Avionics Technician, I was elated that you explained that current flows from negative to positive. Benjamin Franklin was a great man but he confused generations for years.
You can....just give it time....literally everything u know is because u gave it time to sink in and for u to master it... it is well.. God will see us through....I also am learning
If your looking for a cool comment you're in the wrong place, but if your looking for an outstanding pie recipe you've come to the right place. Ingredients: 1. 6 tablespoons unsalted butter 2. 1/2 cup white sugar 3. 1/2 cup brown sugar 4. 1/4 cup water 5. 1/4 teaspoon cinnamon 6. 1 pinch salt 7. 5 apples - peeled, cored and sliced 8. 1 pastry for double-crust pie Directions: 1. Preheat oven to 425 degrees F (220 degrees C). 2. Combine butter, white sugar, brown sugar, water, cinnamon, and salt in a saucepan over medium heat. Bring to a boil, remove from heat and set aside. 3. Roll out half the pastry to fit a 9-inch pie plate. Place bottom crust in pie plate; pour in apple slices. 4. Roll out top crust into a 10-inch circle. Cut into 8 (1-inch) wide strips with a sharp paring knife or pastry wheel. Weave the pastry strips, one at a time, into a lattice pattern. Fold the ends of the lattice strips under the edge of the bottom crust and crimp to seal. 5. Pour butter-sugar mixture over top of pie, coating the lattice, and allowing any remaining sauce to drizzle through the crust. 6. Bake in the preheated oven for 15 minutes. Reduce heat to 350 degrees F (175 degrees C), and bake until the crust is golden brown, the caramel on the top crust is set, and the apple filling is bubbling, 35 to 40 more minutes. Allow to cool completely before slicing.
Love the video thank you!!! 4:35 I can’t lie, for a very brief moment I truly believed half of 100 was and I may have been getting it completely wrong my whole life 😂
Im grade 7 and Im forced by my Grandpa to learn this and I feel like I need to learn some math thing if I wanna completely understand what he is saying...
Terrific video. Clear, informative. Thanks for doing this. Helpful - I'm studying for Ham Radio. May I ask what you are using for the light pad - I really need it.
Amazing Video! ⭐ Question: From time 11:17 -15:01, video inserts 7V in equation solving for resistance. My limited knowledge tells me to insert 9V, not 7V. Why 7V??..... :) Thank you.
No mistake was made. 7 volts because 2 volts are required for the led. Don’t want to resist all 9 volts or the led will have trouble lighting so…(9volts-2volts)=7volts.
Back when I did my chem degree they taught this as you would troubleshoot equipment. My senior priject I built a autimatic titratir system. Now if ut doesnt work you just throw it away.
Hey everyone, the greatest results that i've ever had was by using the Gregs Electro Blog (i found it on google) definately the most helpful course i've tried.
Access The Full 1 Hour Video: www.patreon.com/MathScienceTutor
Direct Link To The Full Video: bit.ly/3lRbwSi
Final Exams and Video Playlists: www.video-tutor.net/
This guy will rebuild our civilization after the apocalypse
Senku in real life
Someone needs to backup his entire channel in a bunker or something
And I’ll cause it lol
I was just watching Dr. Stone on Netflix today. Always having coincidences recently idk.
Good teacher. His explanations are easy to understand. Today I am 72 years old and a Happy retired worker. It’s the first time that I have at last understood the basics of Electronics! Thanks to you, professor.🙏
What was your field of work?
Electronics are really fun and interesting and they are more accessible than ever! I don't know if it's your plan, but spending retirement tinkering with machinery seems like a great idea.
This was a very good tutorial. I thought the instructor did a wonderful job walking the viewers through the use of resistors. He had great examples, explained things well with pertinent illustrations. And he had a very good voice for instructing.
I'm trying to learn how to circut bend, but first need to learn the basics of electronics. Thanks for the tutorial, you're a good teacher.
hey! Good Luck. Wish u the Best on That dude!
You mean circuit bent?
Electrical knowledge ruclips.net/user/pkElectricalknowledge
ruclips.net/video/SlDlphdeyhA/видео.html
@@craiggrant28 ]£))_)£
Wow what incredible timing! I just got a beginners electronics assembly kit from my girlfriend for Christmas to give me a head start before my engineering classes start soon. This will definitely be helpful
I love the way you explain everything. ive always worked on computers and main boards, but its nice knowing whats going on at the physics level. thanks for the video.
Execelent!
This video took me back 63 years, when I started a one-year electronics course , at university, here in England.
love to hear it.
0:06 Resistors Intro and Ohm's Law
2:28 Power
5:04 Resistors in Series versus Resistors in Parallel
9:41 Lightbulbs
11:16 LEDs
15:02 Potentiometers
23:19 Voltage Dividers
29:26 Solar Cells
ruclips.net/user/MrMainFrame
Thanks man
@@WaliXan No problem x
Wow. Thanks 🎉
Legend 👏
An important point for anyone not understanding the fundamental "what actually *is* voltage/current":
A rough concept to consider is how electricity is being transmitted.
Electrons loosely speaking are responsible for electricity.
A coulomb is a measure of electrical charge.
A couloumb represents a number of electrons, regardless of their state. This is charge. The number isn't immediately important. It's a big number.
Electrons aren't "consumed"; they have a level of energy at which they've been excited, and transmit this energy to power things.
Energy is measured in Joules. The same joules in any other form of measurement of energy, e.g. chemical energy.
So if each electron is holding a certain number of joules, and a multitude of electrons make up a coulomb, we can state how much energy is contained in this collection of electrons as the number of Joules per Coulomb. "Joules per coulomb" is the same as "Volts".
V = J/C = Joules per Coulomb.
Current is the "rate of flow of charge".
As previously mentioned, charge is measured in coulombs. It gives the number of coulombs passing a point per in a circuit per second, regardless of how many joules possesed by those coulombs.
I = C/s = coulombs per second.
So with this in mind, power (Joules per second, measured in Watts), can be found by muliplying the two measurements together.
The fractions cancel out:
J/C x C/s = J/s = Watts!
This explains why voltage goes down across a component, e.g. lightbulb, as Joules are being taken from the electrons/coulombs and are being converted to light!
So the same electron can "carry" a different amount of Joules with it? There must be an interval for the amount of Joules an electron can carry right? How do I find that? And what exactly is the Joules of an electron? Is it its kinetic energy?
@@ElVerdaderoAbejorro Joules of electrons is actually is the energy possessed by then when electric field is applied to them to move in ordered manner rather than random drifting which is without application of external voltage.
• Random motion of electrons - Thermal energy. (Joules of Heat)
• Ordered motion of electrons - Electrical energy. (Joules of electricity).
@@ElVerdaderoAbejorro
1. There is no such thing like the intervals of energy carrying. As long as these electrons are in motion then either in random or ordered they carries possessed energy at any instant.
2. When there is no external voltage then only the thermal energy they can carry. In this condition if any temperature difference is imposed then heat transfer will takes place in metals.
3. When electric voltage or field is imposed then they moves in ordered fashion as long as there is no resistance in the conducting path they continues to possess the electrical energy.
4. The only one state microscopically exist when these electrons are ceased to motion or motionless I.e. absolute zero Kelvin condition. Then only they don't carry or possess any energy at all.
5. So, there is always some form of energy these electrons possess at any instant of time in the metal or conducting material. There is no any particular interval needs to take into account. But yes, if we want the energy transferred in that period of time (range of instants) then it is V*I*∆t or I^2 *R* ∆t. At every instant, electron is in balanced condition of energy transaction.
Great comment thank you
Thanks dear ... You have taught me something in 2 minutes which created illusions in my mind several times
Awesome Electronics Tutorial: V=IR - P=VI - Green LED = 2 Vdc drop across it - total R in series - total R in parallel - Well illustrated Potentiometer explanation i will add that the C terminal is also called the variable WIPER. Conventional current vs Electron current [got it] You are a Rock Star my friend
:)
It’s better to have them in volts, amps and ohms and Watts, volts and amps if you’re addressing beginners. Much easier to grasp.
This video made me finally have that oh shit I’m an idiot moment, that very moment everything clicks!!! Thank you so much! Seriously thank you, I’ve been staring at my Arduino sensors just with mass confusion!! Resistance was the one thing I couldn’t understand. Finally clicked when you pretty much said, resistance is a gate, we only need 2 people to work, resistance opens the gate for two workers, and shuts it to 1000 people trying to also get in!
don't you love that moment after that its like I don't know how I didn't understand that
I'm currently asking myself how do you know so much? You are a literal genius, you have hundreds of videos for so many different areas, I don't know how someone can know so much information.
kinda stole the top comment there eh?
Resistance isn't futile, it's V over I
Thank god this exists I’m going back to study electrical engineering after 2 years of doing nothing and I have to relearn years of information before august lol
you got this!
You're back after some time I guess... We all love you ❤️
If you is interested in electronics the greatest results that i've ever had was by using the Gregs Electro Blog (i found it on google) without a doubt the most useful course that I have ever tried.
I learned the product-over-sum rule for pairs of parallel resistors. ie R1*R2/(R1 + R2). Sometimes it's easier to work out by hand.
It's less nice for 3 or more parallel resistors, but it still works as long as you only do two at a time, and calculated pairs you can think of as its own resistor.
For instance: with 3 resistors in parallel, you can do R1,2 = R1*R2/(R1 + R2) and R1,2,3 = R1,2*R3/(R1,2 + R3)
With 4 resistors in parallel, you can do R3,4 = R3*R4/(R3 + R4) and R1,2,3,4 = R1,2*R3,4/(R1,2 + R3,4)
Etc.
Like I used to tell my math students, sometimes it isn't a "more right" way or a "superior" way, just another tool that sometimes is a better fit to your problem.
Remember your video title and audience: Basic Electronics for Beginners. Already, at 0:22 you’re jumping into calculating resistance when you haven’t even touched the basic idea of why a resistor is needed in the first place. Now look at the screen at 4:57. Does that look anywhere near “basic?” At this point, this “beginner” is totally left in the dust. Now go to 21:53. This beginner is frustrated and is thinking of quitting the quest of learning the basics of electronics. Just letting you know that this video is definitely not basic and not for beginners. But it was presented free to me and I thank you for your time.
Hey Bro,
I think you don't even understand the title...and just added your comment here...
@@tabassam-ali Well, isn’t the title “Basic Electronics for Beginners”?
@@greenbeginner3353 Well, you've to understand...Is it?
And if you think you're better...do it on your own and kindly make a playlist...Let us know, what's your method of teaching?? :)
Have a nice day... :)
@@tabassam-ali I am trying to learn electronics. I’m looking for basic information for beginners. I saw a video that said it was basic information for beginners but it was not basic and not for beginners. So, I commented accordingly. So, what did I do wrong?
@@greenbeginner3353 It's ok bro...
So you think, this course is not for you...
Have a nice day... :)
Well, I'm trying go deep into machine learning and this Electronics lecture is very helpful. Thank you, sir
why you need electronics?
@@A_doe_wasting_her_life maybe thats a joke
I feel bad why RUclips is not so popular in my generation. What a great series.
4:32 , this mans laugh literally puts a smile on my face😄
4:36 Your voice and laugh is like music to my ears XD Thank you so much for your high quality videos ! :)
Yeah, lol. its the first time I heard him break character
I'm digging this. I needed a refresher and this video does the trick!
I'm so grateful for learning in this RUclips. May God almighty bless you. You're a very good teacher. Thank you very much for your help.
Nice .. Your lecture ... I understand it very well
🤯
Thank you for sharing a simple guide for electronics basics you are truly awesome and wonderful ^^
Seriously, thank you for taking the time to post these videos. I’m so grateful to live in an age that we can learn anything anywhere because of people like you. Do you have Patreon or something like it? I’d gladly donate.
I learnt electronics ages ago, for 45 years didn't use it, watching these videos brought me back to my youth!! Will watch them all and get back to the electronics saddle, as a hobbyist now!!
Million thanks for all !!
It's so cool explanation innet ? You are teaching better than my electronic teacher when I was studying at technical high school and university. I subscribe your channel.
how is this guy explaning chemisty mathematics and now electronics i wish to someday be at your level
Thanks. Very clear teaching. You have improved my understanding greatly
damn you took down the 1-hour version and replaced it with this, unfortunate I was nearly done with it. still good shit so I cant fr complain.
Awesome video it gives me a basic fundamentals on how electronics circuits work.
I cannot say anything else, but approval and deep appreciation to you.
Damn dude you're so good at explaining concepts
Im sitting the GAMSAT on friday 20th Feb. If i get over 70 ill donate $20 to your go fund me. Your videos have helped me more than the $400 course i bought lol
In a parrallel circuit, there is a different wat to calculate it if you are not good with fractions. The formula is r1 x r2/r1+r2. If there are multiple resistors then the answer from the first 2 resistors turns into Re. therefor the formal now becomes RexR3/Re + R3 and so on.
@TheOrganicChemistryTutor how can I thank you for getting me this far into college😫 never thought I'd be at my junior year
I'm about half way through this lesson & I gave you a thumbs up. I sure hope there ain't no math test at the end of this video!!!!!!!!!
Thank you so much for existing, Sir!
You're a true hero!
Thank you for looking up that topic [basic electronic ] for me.“Keep up the great work.”I wanted to express my gratitude for your help and support today.
Welcome back legend
First
Oh , thank you so much we are following your channels,they are so helpful.... continue with the great work
Thanks
Love the way you explain the things 🙏
Hi
@@dreamlyrics12 yes
4:36 his giggle is so cute😭💗
Very nicely explained, very gentle, simple and easy to understand. Thank you dear.
Memory effect exists in resistors, too. A 000 smd resistor resists, after several use, it will become fully conductive. Smart batteries have such resistors inside the battery pack.
nice to comment on your videos at first day of launching
You are back :,). So glad you’re alright. Much love ❤️
As a Navy trained Avionics Technician, I was elated that you explained that current flows from negative to positive. Benjamin Franklin was a great man but he confused generations for years.
This video helped me a ton even with my limited algebra knowledge. Thank you!!
I need an even more basic tutorial. I want to understand, but I have 0 talent for electronics. 😭
You can....just give it time....literally everything u know is because u gave it time to sink in and for u to master it... it is well.. God will see us through....I also am learning
yes finally, i hope you will get to more advanced electronics.
your toutorial is a masterpeace , I can understand clearly more than my college prof ! keep going dude
im currently studying for the ASVAB am i am very grateful for this video
thanks man
If your looking for a cool comment you're in the wrong place, but if your looking for an outstanding pie recipe you've come to the right place.
Ingredients:
1. 6 tablespoons unsalted butter
2. 1/2 cup white sugar
3. 1/2 cup brown sugar
4. 1/4 cup water
5. 1/4 teaspoon cinnamon
6. 1 pinch salt
7. 5 apples - peeled, cored and sliced
8. 1 pastry for double-crust pie
Directions:
1. Preheat oven to 425 degrees F (220 degrees C).
2. Combine butter, white sugar, brown sugar, water, cinnamon, and salt in a saucepan over medium heat. Bring to a boil, remove from heat and set aside.
3. Roll out half the pastry to fit a 9-inch pie plate. Place bottom crust in pie plate; pour in apple slices.
4. Roll out top crust into a 10-inch circle. Cut into 8 (1-inch) wide strips with a sharp paring knife or pastry wheel. Weave the pastry strips, one at a time, into a lattice pattern. Fold the ends of the lattice strips under the edge of the bottom crust and crimp to seal.
5. Pour butter-sugar mixture over top of pie, coating the lattice, and allowing any remaining sauce to drizzle through the crust.
6. Bake in the preheated oven for 15 minutes. Reduce heat to 350 degrees F (175 degrees C), and bake until the crust is golden brown, the caramel on the top crust is set, and the apple filling is bubbling, 35 to 40 more minutes. Allow to cool completely before slicing.
The world's best teacher
Outstanding basics...Good also for refresher
never stop helping, brother
Love the video thank you!!!
4:35 I can’t lie, for a very brief moment I truly believed half of 100 was and I may have been getting it completely wrong my whole life 😂
your series contains everything about electronics that I am looking for .thank you so much.
Thank you so much for your hard work! Your videos are extremely helpful 😊
Basic electronics is my worse topic buh u made me understand thanks
very good class, 1 mistake 10ma is NOT = 0.1ma but rather 0.010ma, keep up the good work.
I am big fan of your organic reactions mechanism. Love from India ❤️❤️
Hey there Ever wondered what's inside your set-top box power supply ???
ruclips.net/video/R9Dafz1nOUI/видео.html
Go find out
Best Deep Deep and Deep lecture and very nice in very good language
Hey there Ever wondered what's inside your set-top box power supply ???
ruclips.net/video/R9Dafz1nOUI/видео.html
Go find out
Amazing video, thanks for really breaking this down. I had to do this 20 years ago for Télécommunications and it's amazing how much I forgot lol.
The best/my favorite teacher ive ever had...im 34 😅
Excellent Explanation Sir. Thank you
Im grade 7 and Im forced by my Grandpa to learn this and I feel like I need to learn some math thing if I wanna completely understand what he is saying...
We love you our teacher
This dude is my favorite dude
Thank you Jose, great videos
Thanks for this video, I learned more and understand the concept of electronics
This was an extremely helpful video. Thank you so much
The best tutorial ever.❤️❤️❤️❤️❤️❤️
God bless you for making educational videos that help so many people
studying for the asvab, thanks
Never fold under pressure. Everything happens for a reason. God just making sure you prepared! ⚖️
Hey there Ever wondered what's inside your set-top box power supply ???
ruclips.net/video/R9Dafz1nOUI/видео.html
Go find out
Keep going sir your videos are very useful for studying
Hey there Ever wondered what's inside your set-top box power supply ???
ruclips.net/video/R9Dafz1nOUI/видео.html
Go find out
This video is great
Could you do introduction of linear algebra
I would appreciated
Terrific video. Clear, informative. Thanks for doing this. Helpful - I'm studying for Ham Radio. May I ask what you are using for the light pad - I really need it.
Ayeeeee The return of the King!!!!! 👑
At about time 9:31 he should have just used the product over sum formula to get the answer also
Amazing Video! ⭐ Question: From time 11:17 -15:01, video inserts 7V in equation solving for resistance. My limited knowledge tells me to insert 9V, not 7V. Why 7V??..... :) Thank you.
I want watch electronic beginers for membership free :) you know i can i watch ?
Yep he made a mistake
@@zakeriasaleh3827 Thanks 🙏 😎
No mistake was made. 7 volts because 2 volts are required for the led. Don’t want to resist all 9 volts or the led will have trouble lighting so…(9volts-2volts)=7volts.
Thank you very much… rich information about electronics.
Very easy to understand 👍🏾
Yes
Thank you for being a good instructor sir.Be blessed.
Just scare the hell outta newbies, well done…..
Excellent, and interesting.
Back when I did my chem degree they taught this as you would troubleshoot equipment. My senior priject I built a autimatic titratir system.
Now if ut doesnt work you just throw it away.
Ok at @21:55 the only party I didn't get is what is point B ? Ask extra path to ground?
How do you know so much with different study area? Yo! You are a genius
Hey everyone, the greatest results that i've ever had was by using the Gregs Electro Blog (i found it on google) definately the most helpful course i've tried.
I've been studying electronics and discovered a fantastic resource at Gregs Electro Blog (check it out on google)
Thanks sir
Good information
explain
I like your video and watching video
Bro please continue videos on electronics
thank you so much dude! revising for a promotion at work!.. forgot so much of this..
It's 13th january.i am not only your follower but also student.