Winner of a video, I have been researching "why is the resistor symbol a zig zag?" for a while now, and I think this has helped. You ever tried - Henucas Panrooklyn Equalizer - (should be on google have a look )? It is an awesome one off product for discovering how to repair electronic devices like a pro minus the normal expense. Ive heard some amazing things about it and my neighbour got cool success with it.
I came because all my professor does is say, "all the information is in the book" and has us read it. We're lucky he puts power points and let's us do lab at all, yes. However, he doesn't share the power point to what the college calls "shell" because he's scared of "copyright." This is an in person class mind you, sir professor.
Oh my God, how I hate reading these things. Thanks for explaining it step by step! The colors on the resistors I have are all evenly spaced, so I have to start reading at the side that doesn't have a gold or silver colored band
_I really enjoyed the quiz at the end!_ 👍 _I paused the video, and then calculated my answer._ 🤓🧮 _I wish you would create an entire video with 20 consecutive problems._ 🙏
These all resistance value colors below: Value. Color. Multiplier (x10) Tolerance 0. Black 0 1. Brown 1 1 % 2. Red 2 2% 3. Orange 3 4. Yellow 4 5. Green 5 0.5% 6. Blue 6 0.25% 7. Purple/Violet 7 0.1% 8. Grey 8 0.05% 9. White 9 10. Gold -1 5% 11. Silver -2 10% 12. No color --- 20% For example of 4 band or 5 band color of a resistor: For 4 band color: 10 Ω with tolerance is 5% (brown - black - black - gold) 47 Ω with tolerance is 5% (yellow - purple/violet - black - gold) 560 Ω with tolerance 5% (green - blue - brown - gold) 5.100 Ω (5,1k/5K1Ω) with tolerance is 5% (green - brown - red - gold) 15.000 Ω (15kΩ) with tolerance is 5% (brown - green - orange - gold) 270.000 Ω (270kΩ) with tolerance is 5% (red - purple/violet - yellow - gold) 2.000.000 Ω (2MΩ) with tolerance is 5% (red - black - green -gold) 12.000.000 Ω (12MΩ) with tolerance is 5% (brown - red - blue - gold) 240.000.000 Ω (240MΩ) with tolerance is 5% (red - yellow - purple/violet - gold) 1.000.000.000 Ω (1GΩ) with tolerance is 5% (brown - black - grey - gold) 47.000.000.000 Ω (47GΩ) with tolerance is 5% (yellow - purple/violet - white - gold) For 5 band color: 47 Ω with tolerance is 1% (yellow - purple/violet - black - silver - brown) 390 Ω with tolerance is 2% (oramge - white - black - black - red) 2.200 Ω (2,2k/2K2Ω) with tolerance is 1% (red - red - black - brown - brown) 51.000 Ω (51kΩ) with tolerance is 1% (green - brown - black - red - brown) 470.000 Ω (470kΩ) with tolerance 2% (yellow - purple/violet - black - orange - red) 1.500.000 Ω (1,5MΩ) with tolerance is 2% (brown - green - black - yellow - red) 15.000.000 Ω (15MΩ) with tolerance is 1% (brown - green - black - green - brown) 470.000.000 Ω (470MΩ) with tolerance is 1% (yellow - purple/violet - black - blue - brown) 1.500.000.000 Ω (1,5GΩ) with tolerance is 2% (brown - green - black - purple/violet - red) 56.000.000.000 Ω (56GΩ) with tolerance is 1% (green - blue - black - grey - brown) 470.000.000.000 Ω (470GΩ) with tolerance is 2% (yellow - purple/violet - black - white - red)
I came because all my professor does is say, "all the information is in the book" and has us read it. We're lucky he puts power points and let's us do lab, yes. However, he doesn't share the power point to what the college calls "shell" because he's scared of "copyright." This is an in person class mind you, sir professor.
Good video. I was a bit confused about the direction of reading a resistor most resistors I came across are evenly spaced which can it to be read in the wrong direction.
I have two resisters. Both have 5 bands, no spaces, and only slightly different colors. Yet, I know one is 1K ohm and the other is 10K ohm. How do I know which is which since there is no directionality and the colors are ridiculously close to each other. One looks like brown, brown, black, black, brown. The other looks like brown, red, black, black, brown.
Sir: How this question? WEEK 3 ASSESSMENT TEST Direction: Read each question carefully and choose the right answer. Write only the letter of your answers on your answer sheet. 5. What is the value of resistor with color bands yellow, violet, black, gold? a 4.722 +/- 5% C. 47012 +/- 5% b. 4722 +/- 5% d. 4.7K2 +/- 5%
Well 3M6 is another way of writing 3.6 mega ohms, which is 3.6x10^6 or 36x10^5, which would be orange, blue, green from the table. For 5.72 ohms, this scheme would not be able to represent the 2, but since the tolerances which can be represented are 5% and 10%, and that 2 represents about 0.35%, its within the smallest margin of error for this system anyway, so we could just represent it with 5.7, or green, violet, gold.
Why the heck did they create the 5 band color code scheme? I used to be able to just look into a pile of resistors and grab the right value. Now I gotta do multiplication on the fly. It's really dumb.
For a change, a RUclips tech video with perfect audibility, clear pronunciation, crisp enunciation. And good quality video to boot. Thanks.
Thanks you give more information in few minutes you are really good teach 👍👍👍
Straight to the point, unbelievably simple- thanks!
Been looking for just this type of channel. No nonsense. Just info. Thank you
Hi guys learn PCB design and sechmatich design
Visit my RUclips channel PCB design hub
Winner of a video, I have been researching "why is the resistor symbol a zig zag?" for a while now, and I think this has helped. You ever tried - Henucas Panrooklyn Equalizer - (should be on google have a look )?
It is an awesome one off product for discovering how to repair electronic devices like a pro minus the normal expense. Ive heard some amazing things about it and my neighbour got cool success with it.
yenesis villalobos yeahhhhhhhh shut up
@@okthen178 mmgvo
yenesis villalobos no u
nowadays, RUclips videos are more convenient than a 2-hour university lecture! thank you for the amazing explanation.
You forgot tk mention that no band at the end means +/- 20% tolerance
Thanks
i am a newbie and after watching a few videos i found this one the best and easiest to understand. Thank you
simple, easy, straight to the point, quick, and practical. Thanks!
Thank you for allowing the REUSE of this very informative video for FREE. This could really make my ebook development easier.
Last video uploaded from this channel was 5 years ago. I wish they continued posting such video,they are very informative
thanks for the refresher! been 30 years since my electronics classes and just now getting into microcontroller.
THE MOST EASY TO UNDERSTAND VIDEO
VERY CLEAR, COMPLETE
Video explains very clearly how to read resistor values and tolerances. Thank you !
I came because all my professor does is say, "all the information is in the book" and has us read it. We're lucky he puts power points and let's us do lab at all, yes. However, he doesn't share the power point to what the college calls "shell" because he's scared of "copyright." This is an in person class mind you, sir professor.
Oh my God, how I hate reading these things. Thanks for explaining it step by step!
The colors on the resistors I have are all evenly spaced, so I have to start reading at the side that doesn't have a gold or silver colored band
_I really enjoyed the quiz at the end!_ 👍
_I paused the video, and then calculated my answer._ 🤓🧮
_I wish you would create an entire video with 20 consecutive problems._ 🙏
nice
i watched this video an year ago for analog and digital communication lab exam and now i am watching for communication(core) lab exam lol
These all resistance value colors below:
Value. Color. Multiplier (x10) Tolerance
0. Black 0
1. Brown 1 1 %
2. Red 2 2%
3. Orange 3
4. Yellow 4
5. Green 5 0.5%
6. Blue 6 0.25%
7. Purple/Violet 7 0.1%
8. Grey 8 0.05%
9. White 9
10. Gold -1 5%
11. Silver -2 10%
12. No color --- 20%
For example of 4 band or 5 band color of a resistor:
For 4 band color:
10 Ω with tolerance is 5%
(brown - black - black - gold)
47 Ω with tolerance is 5%
(yellow - purple/violet - black - gold)
560 Ω with tolerance 5%
(green - blue - brown - gold)
5.100 Ω (5,1k/5K1Ω) with tolerance is 5%
(green - brown - red - gold)
15.000 Ω (15kΩ) with tolerance is 5%
(brown - green - orange - gold)
270.000 Ω (270kΩ) with tolerance is 5%
(red - purple/violet - yellow - gold)
2.000.000 Ω (2MΩ) with tolerance is 5%
(red - black - green -gold)
12.000.000 Ω (12MΩ) with tolerance is 5%
(brown - red - blue - gold)
240.000.000 Ω (240MΩ) with tolerance is 5%
(red - yellow - purple/violet - gold)
1.000.000.000 Ω (1GΩ) with tolerance is 5%
(brown - black - grey - gold)
47.000.000.000 Ω (47GΩ) with tolerance is 5%
(yellow - purple/violet - white - gold)
For 5 band color:
47 Ω with tolerance is 1%
(yellow - purple/violet - black - silver - brown)
390 Ω with tolerance is 2%
(oramge - white - black - black - red)
2.200 Ω (2,2k/2K2Ω) with tolerance is 1%
(red - red - black - brown - brown)
51.000 Ω (51kΩ) with tolerance is 1%
(green - brown - black - red - brown)
470.000 Ω (470kΩ) with tolerance 2%
(yellow - purple/violet - black - orange - red)
1.500.000 Ω (1,5MΩ) with tolerance is 2%
(brown - green - black - yellow - red)
15.000.000 Ω (15MΩ) with tolerance is 1%
(brown - green - black - green - brown)
470.000.000 Ω (470MΩ) with tolerance is 1%
(yellow - purple/violet - black - blue - brown)
1.500.000.000 Ω (1,5GΩ) with tolerance is 2%
(brown - green - black - purple/violet - red)
56.000.000.000 Ω (56GΩ) with tolerance is 1%
(green - blue - black - grey - brown)
470.000.000.000 Ω (470GΩ) with tolerance is 2%
(yellow - purple/violet - black - white - red)
Sir, do you know how many commercially available four-band and five-band carbon resistors do we have today?
@@jeremiahdanielsamuel2505 this lol that list is way to small
How to read ohm meater
Thanks a lot .I understood those points well than reading them through my text book..❤❤❤
Great, it is precise and easier to understand. Thank you for providing the video.
Thank u , u made me understand something my teacher couldn't teach me
The best tutorial video in youtube
Thanks for proving my point, about why university is best learned at home.
This is good learning material for my robotics class. Thank you.
I only came here because of online classes ;-;
Luis Daniel same broo
I came here for fun
Same
I came because all my professor does is say, "all the information is in the book" and has us read it. We're lucky he puts power points and let's us do lab, yes. However, he doesn't share the power point to what the college calls "shell" because he's scared of "copyright." This is an in person class mind you, sir professor.
How much I hate online classes hope ur enjoying them though.neva wanna go back to those days😅
Actually so helpful I bought an arduino kit and couldn’t understand this at all
Thank you so much so important for my lab test tomorrow
This is one of the only times that ROY G BIV has ever helped me.
Ignoring brown and grey?
Good video. I was a bit confused about the direction of reading a resistor most resistors I came across are evenly spaced which can it to be read in the wrong direction.
Fantastic, this is just what I needed.
Thank you 😊
thanks, now i can read any resistor simply!
explained really well in a short video
It really helped me my diy circuit
Super video for a beginner. Thanks a lot.
You are a great gifted teacher who makes your lessons so easy to understand . 1MThanks14OCT2021singapore
I’m here because I’m working on a Kawasaki ninja, and I need to be familiar with resistors for antitheft purposes
Thank youve gained merits once again
I have two resisters. Both have 5 bands, no spaces, and only slightly different colors. Yet, I know one is 1K ohm and the other is 10K ohm. How do I know which is which since there is no directionality and the colors are ridiculously close to each other. One looks like brown, brown, black, black, brown. The other looks like brown, red, black, black, brown.
Nicely explained the Value of resistors, Thanks Engineering Technology Simulation channel 🙏🙂.
Thanks for teaching me before the day of my Midterm🥲❤
Excellent. Everything I needed with no crap. 10/10!
Woaw u r a best teacher really . Love from pakistan
Taught a lot better than my teacher
useful part starts at @0:24
Thanks 🙏 bro 😢👍👍✅👍🎉
Thank you so much .. I fogot how to find this and now i m 100% clear about this
Well explained...I don't understand why you've had 335 dislikes
Nice video shot, thanks for sharing it with us, well done :)
Subscribed. Clarified. Happy. Conclusive
Learned all this at Ft Gordon 1983!
Best explanation ever.
It’s not complicated but I need more practice, I don’t use Homs law regularly, so I can’t retain the knowledge. Great lesson.
thx for saving my grade
thank youuuuuuu i like it because when i gust played the video i already learned many things love it
So thankful..I really neededd this...now I understand
..
So if the multiplier is black it would stay the same right?
yep
beautiful lesson
thank you for teaching me, can you tell me what we call impurity
Great Video !!
i have a few resistors on hand and this is useful thnx :)
Very helpful easy to understand
JUST 1 PICTURE CAN ALREADY DESCRIBE THIS WHOLE VIDEO
thx a lot for the explanation. Its easy n useful
1:32 - is this a joke or it actually is silver and not grey aka 10^-2, not 10^8(grey) ??
Why 142 thumps down?. May be they expected some brasier bands rules to calculate the size.
How are you supposed to tell the beginning from the end?? What if you read it backwards and get something else?
great info thanks, straight to point
Thanks for the information
Would it not make more sense to write it on the side In manufacturing ?
Thank you soo much ahhh i have my practical exam tomorrow and we're forced to learn this in hs lol
HOME SCHOOLING BOIS
very well explained.. thank u
Sir: How this question?
WEEK 3
ASSESSMENT TEST
Direction: Read each question carefully and choose the right answer. Write
only the letter of your answers on your answer sheet.
5. What is the value of resistor with color bands yellow, violet, black, gold?
a 4.722 +/- 5%
C. 47012 +/- 5%
b. 4722 +/- 5%
d. 4.7K2 +/- 5%
Very very helpful. Thank you
Very well explained !!thanks alot
Nice Informative Video!!!!
Great vid. TYVM.
Is it present in the stimulator and ultrasound machine? Also is it present behind intensity knob and timer?
Thanks,now I understand it!
Well explained. Learned.
about resister all information is fine thanks
How do I figure it out if resistance already burned? Can I just replace to any please help me
hello sir i have some question's here how do we provide colour codes for resistor's like 3M6 ohms and 5.72 ohms?
Rendani Emmanuel d
Same
Hģf
Yre
Well 3M6 is another way of writing 3.6 mega ohms, which is 3.6x10^6 or 36x10^5, which would be orange, blue, green from the table.
For 5.72 ohms, this scheme would not be able to represent the 2, but since the tolerances which can be represented are 5% and 10%, and that 2 represents about 0.35%, its within the smallest margin of error for this system anyway, so we could just represent it with 5.7, or green, violet, gold.
Hardest part is exactly memorizing the table for exams and tests.
Most useful, thanks
Thank you soooooo much😌
From which country you are man
Now, how about a 5 band resistor? :D
Very good and easy.
How come youtube explains better than filipino teachers i should just hire youtube to tutor my dumbass
This helps me alot
thanks very helpful lesson
I just dont get how you deicde if its gold or silver at the end. everything else makes since
Gold is 10(-1) and silver is 10(-2)
The multiplier
chose one or the other :)
I have resistors that have no space different in between. So how do i know which is the first band?
Why the heck did they create the 5 band color code scheme? I used to be able to just look into a pile of resistors and grab the right value. Now I gotta do multiplication on the fly. It's really dumb.
Simple and Clear
If resistors colors were this clear, I would have continued doing kits. Some resistors, e.g., blue ones, you cant be read the bands.
JazakAllah khair ❤
Could it be with 4 bands how you calculate it please?
Cheers.thks for sharing
Tysm this is helpful
Did I just understand something that my class mates used 2hours to present on in 3minutes
Where my fellow Fall 2020 EM peeps at
Is this the how it’s made guy?