Hi! Thanks for watching. Comment if you have ideas for further testing of the monitors - or something else the monster magnet should meet... I would like to test if X-rays/bremsstrahlung escapes when the electrons are focused down to a tiny spot on the CRT screen by a magnet. Does anyone know how to easily detect soft X-rays below 30 keV? They are not ionizing enough for my detectors.
What I'm wondering about the 22" monitor from 2009 is if you put a plasma globe near the back where the fluorescent backlight tubes are, what will happen to the video? Because I know that fluorescent tubes are lit by microwave radiation and plasma that comes off a globe. Maybe make a video about that?
Expect the CRT to be sort-of trashed after you do the experiment. Focusing the electrons to a single point will most likely burn the phosphor in that place (unless you turn the brightness really low).
The patterns on the CRT are actually really beautiful. Always super cool to see physics in action! I'd love to see how a cassette boombox reacts to the monster magnet!
Big magnets near transformers will also cause the inductance of the windings to decrease, which can cause the current in the primary winding to increase, which might cause a switch mode power supply's overload protection to trigger, a fuse to blow, or something to burn out. My guess is that in the video, some kind of overload protection triggered before any permanent damage was caused.
The effect on the ferrite core would be way more relevant than on the winding, ferrite cores when saturated have a very sharp decrease on the inductance mostly if they do not have a magnetic gap which is the case of those transformers in this video, iron powdered inductors are way more tolerant in that regard
The magnetic fields in the NMR room back in college were absolutely insane. You had to leave your wallet near the door because they could wipe your cards easily. Monitors 20-30 feet away from the magnets would show color distortion all the time while you used it. The room had an emergency blower system that could completely vent the room and replace the air in under 30 seconds (and it was a BIG room) If you accidentally quenched the magnet the liquid helium would flash vaporize and displace all the oxygen immediately. You had about 20 seconds at most after a quench to get to the wall and pull the handle or you would go unconscious and die.
MRI and NMR are always fascinating, the strong magnetic force but you don't feel anything! Imagine a whole "NMR" apparaturs circling around your body in an MRI scanner... Nowadays even NMR with permanent magnets exist, they don't have to be cooled.
Good question! It's called multilayer safety. Basically You absolutely have a sensor to detect dangerous events that need reacting to. But...where do you put the sensor? And how sensitive is the sensor? Too sensitive and it goes off just from normal events. Not sensitive enough and it's useless. So you have a middle ground. But that middle ground, plus where you place the sensor may mean that it doesn't detect things as fast as you do. Or maybe it does. Regardless, Having the human being in danger primed to run away from the danger towards a a lever is a good idea. And so the system may already be activating, But on the chance it isn't, the human is a backup safety device. And if the system IS working, the human is running away properly. 2 layers of safety in one device!@@shanent5793
I used to have a 21” CRT monitor, back in the day it was BIG! Taking it home I had to carry it up 3 flights of stairs and this thing was extremely heavy. It had a degauss button, when pressed the desk shook with the power of the thing. These days I like to sit back with my average 40” monitor that weighs so little in comparison.
Yeah, I remember our family's 29" CRT TV took 2 people to move around, not only was it 30+ kg but at that size it's not even just the weight that is a problem. You just can't hold it properly. It's funny that LCDs weigh so little but in comparison my 21" PC CRT weights proportionally more than the 32" living room TV, both LED backlit ones and the PC monitor doesn't even have a power supply built-in. Guess they just use way thicker glass on it.
This reminds me when I was in kindergarten and I was sitting in my chair but too shy to ask the teacher to use the restroom so I inevitably peed my pants and then the kids gathered around when we were about to leave and they kept pointing at the water underneath my chair and they said it looks like something was leaking here and I didn't know either
Left hand rule is always confusing, but somehow, seeing that Windows 7 screen move up and down just made it click. I've got a fun idea: can you keep the electron beam stable with two opposing magnets on either side?
No, because the beam travels left to right and down the monitor, exactly like you read the words on a page. Because of that movement, one magnet will always have more effect over the other on the electron beam since it's closer and the image will still be distorted.
This video reminds me of a story that my father told me: His TV wasn't working properly so they had a technician look at it, but he saw no problems. So after he left they set it up again and the issue happened again. The technician came back and it worked fine. This time they set up the TV with it switched on, and when they placed a magnetic sculpture on top the issue came back!
I think when it means "Low Emissions" CRT's that were improperly calibrated would send out xray emissions past the glass, which for a monitor designed to be close to your face, was not very good, and CRT's are also well known to destroy eyesight, I assume that one would be less likely to do so.
@@erlendse yes. Back in the early days technicians would retune the CRT to but out more brightness, especially when the tube is dying, by doing so would cause the CRT to put out more radiation than is typically safe. Some models of CRTs actually put out more radiation than the average CRT should've from the factory. This is just a "hey this monitor won't kill your eyes as much" badge.
@@erlendse the back side is shielded usually with metallic paint on the outside of the glass, it's shielding for the degaussing coil. But otherwise they're painted black for better contrast iirc X-rays can still pass tho
I love how graphical parts respond to electromagnetic forces! When I was a kid I would watch videos where people would mess around with computers to see what the graphics would do. It's interesting to see it like this.
Since moving magnetic fields induce current, I wonder if you could move a large magnet near either monitor quickly enough to cause permanent damage (in a safe manner)
Yep, you can use the right hand for the left hand rule if you want to point the middle finger in the electron direction. But the 'right hand rule' term is usually reserved for something else ;) I use it in the Monster magnet meets aluminum can video for eddy currents direction: ua-cam.com/video/IDjqeLpjI4A/v-deo.html
Glad you like it! The camera's are fine :) Luckily they don't record on magnetic tape like back in the days but on SD cards which are not affected by magnets: ua-cam.com/video/WhqKYatHW2E/v-deo.html I have at times seen the autofocus be affected by the magnetic field. And one camera even turned off at some point. I think they use a magnetic sensor to sense when the flip-out monitor on the camera is closed - with a little magnet in the monitor frame. The big magnet made the camera think the monitor was closed which is a sign to turn off :)
That's a really good CRT. Very strong degaussing coil too. I've got a number of cheap Belinea monitors which get easily messed up by a decent sized iron speaker magnet. Took a number of hits with the degauss to get it somewhat repaired.
As a former physics student I have never watched a better demonstration of the left hand rule. And when I was a student CRTs where basically the only display technology. Guess even then education was starved of resources and nobody wanted to risk breaking a TV.
Curious if a newer monitor would behave differently, since they mostly use LED backlights now instead of Florescent Tubes, meaning there would not be a high voltage component. I'm also a little curious if the monitor is still "displaying" an image after it goes black, but just the backlight has shut off so we can't see it.
Probably the switch mode powersupply shut off because of overload. I once put a magnet on a switch mode transformer and the psu gone into error shutdown mode and before that it drew a lot more current. So i think the main powersupply also shut off
That LCD panel from 2009 uses a CCFL tube CCFL tubes do use more power than LEDs. CCFL require high voltage to use as seen on the circuit. LEDs just need 12,24, 36 or 48 volts, larger the monitor the more voltage the LED backlight needs.
Please try using this super magnet in a camera sensor. I have a hypothesis that the background black response will be upgraded. The magnet will constrain the thermal generated electrons in the sensor area
After doubling its size, I feel like the magnet really has gained some reach. Maybe I should buy a second 200x50 mm and compare the difference in reach between a 200x50 mm and doubled 200x100 mm neodymium magnet x) But it is over €1200 and will be a pain to combine the two without breaking both :-[
I liked the monitors with manual degausing. I didn't know what it did at the time, but it felt cool to me and I always felt like it made everything look better. Just like the turbo button on my PC.
Oscilloscope CRTs use electrostatic deflection and focusing, so everything is inside the tube except for the trace rotation coil. Most TVs use electromagnetic deflection, which uses external coils although electrostatic deflection was used in some TVs in the 1930's and 40's.
Very interesting experiment. I would like to mention something I noticed at 7:13. When you bring the magnet close to the edge of the monitor the background towards and outside of the window seems to freeze. Probably just an illusion on my part, with the wind just stopping at that moment.
love your videos. this was special to me as I actually ruined some CRT TVs when I was younger and got in a lot of trouble. I was curious about everything to do with magnets...it felt like magic
I had a "professional" flat 21" crt, the degauss also shook the table and i had to do it quite often due to having dual 15" speakers on each side of the table for ... Games. When i cranked up the volume the colors got all funky, very fun.
ah yes, monitors and magnets. a past time for 5 year old me, a horrible sight for my dad who walked into the living room after realizing i was quiet for too long LOL
When I complained about the necessity to follow the conventional current direction when applying Flemming's left hand rule, my teacher told me just to use my right hand instead as long as I remembered to switch hands when appying it to generators. Somehow you made me miss him.
2:45 Wow, that's so weird. When the colors first get disrupted, it looks like they're split into Cyan Magenta and Yellow, _not_ RGB... then 2:54 yellow shifts into green, 2:57 cyan shifts into blue, 2:59 and finally the magenta starts to look red. I wonder why that is?
@@jermeyplunkett3744 Do you care to elaborate on that? Normally phase shift with electromagnetism occurs at relativistic speed. Why would magnetic interference phase shift colors on a CRT display? I thought CRT monitors used three guns that emitted electron beams that were pretty much identical except for the angle they were firing from, and the difference in color between R, G & B had to do with the chemistry of the particular phosphor that the beams hit on the inner surface of the screen. Meaning that a magnet bending the electron beams would make them partially or completely miss their intended phosphor regions. In other words, which color a given electron beam excites is discrete, not spectral. Are the magnets somehow phase shifting the electons in terms of energy, rather than their flight path? Or are you saying that the magnets somehow phase shift the photons emitted by the phosphors after they're excited?
Wow, I can't believe the shadow mask survived that magnet! I thought for sure it would be toast after that magnet. Reminds me of when i put a magnet on my family TV as a kid and panicked when it left a green "potato" on the screen. I didn't know about automatic degausing at the time, but after a few power cycles it went away and my dad was no longer angry since i was told not to do it! But i had a black and white TV in my room and they don't care about magnets, so I thought he was lying and had to test it. 😂
Thanks for sharing! It is a little sad that I have thrown my first TV away. A 14" black and white CRT. As I remember it, the TV still worked when I got rid of it - but without colors it was obsolete even when I bought it in the 1980s x) Could be fun to test with a magnet today. I wonder if I can find a working B&W CRT TV in 2023...
@@brainiac75 good luck finding one, even the most modern monitors from the 2000s are an uncommon find. I myself use a 19" CRT as my main monitor, got it from my parents who had it since it was made in 2002. I have fond memories of playing games like the pinball game installed on copies of Windows XP on it in the olden days
Was always a problem doing magnet therapy with clients watching TV . Even the large screen TV had a CRT in the bottom focused with a Firenzel lenze on the screen.
I remember seeing a story on Reddit about how some office Karen had kept shoving her expensive Bose speakers against a very expensive and high-end monitor, and it had a slight pink tinge at the bottom. In the end, the IT worker had taken it away and commandeered it after it was inteneded to just be thrown away. Last I remember in the story was them using it for years before the pink tinge spread and ruined the monitor.
Judging by the sound the monitor's HV circuit was making the voltage booster inductor was not very happy with a huge magnet fiddling around with the ferrite inductance. Given how those booster circuits operate the magnet could have stopped the oscillations and the booster could not resume until a power cycle.
Seeing the lamp actually slowly wave around as that large magnet entered the room, my eagle eye saw. Even THAT FAR AWAY, can have some pulling effect on things such as that, im not lying, look closely! As the CRT showed the distortion as the magnet wobbled around, you could see the lamp react too in gentle ways!
Yep, you're right. Since the magnet doubled its size, I feel like it has much more reach. Need to make a video about it measuring in more details what effect it has at distance to double the length/thickness of a magnet. Thanks for watching carefully!
Man i had to double check this wasn't an old video being recomended again by youtube like the old server meets magnet and such, i legit thoughr "has it really been 10 years? dayum" and i had to double check myself 😂😂😂
Holy COW! I had no idea your big magnet would screw with a CRT so badly and even from so far away! Yeah, I've messed up CRTs with even tiny magnets as a kid, and what sucked is that some were so old that they didn't have a degausser, so like... on my parents' TV they'd just get mad for a bit and then we'd have to wait months for the discoloration to finally be gone. What was fun later is to mess with a CRT that has a degausser and then you can just degauss it once or twice and it's back to normal.
there's something nostalgic about having silly considerations like the speakers being shielded or they mess with your monitor. That anything could interact with anything in the house.. Like the GSM's made the speakers do *that sound*.
Growing up we had a busted TV that had some warped color, I had played around with magnets on the TV before and wondered if they could fix as well as break the image, and crazy enough it did work, it would also maintain the "fix" if you turned the TV off with the magnet on the TV but then removed it and turned the TV back on. Never investigated deep enough to figure out why though.
Interesting. Degaussing with a permanent magnet is not an easy thing. As I remember it, the professional degaussing coils for CRTs (yes, it was a thing back then) used an AC magnet with quickly switching magnetic poles. Thanks for sharing!
That's impressive... I struggle to keep modern laptops in working condition for more than 5 years... My first Samsung TV only lasted for 3 years. The 46" TV frame in the video... Had it repaired professionally for ~$400 and it broke a year after that again... (found out later it was leaking capacitors and they only changed 3 of 5 - a year after the 'repair' the two last ones failed). So seeing a 28 years monitor just work makes me miss the good old days x)
like a wave power electric generator, but the turns most be finely winded with two cylindrical magnets on a pendulum and two coils at each side, the magnet moving back and forth with each wave impact, must use 500 turns of thick wire 1mm to 2mm at each side, with a 30 amp schottky diode Full Bridge Rectifier!! if u did please first show case a tiny one..
>monster magnet waaaaahhhh space lord mother mother! made me listen to this band again as you destroy a perfectly working HP monitor beyond degaussing.
Haven't tried it. Plasma is affected by a magnetic field but I am not sure it would be noticeably in such small pixels (especially if they are run on AC current?). But the magnet surely would affect the transformer lighting up the plasma pixels :)
There's an old saying "All roads lead to Rome", now i wonder if "All compasses point to Brainiac" Maybe a suggestion, take your magnet somewhere, then use a standard compass and maybe mobile phone compass app to see how far away you need to be to not have then influenced by the magnet. ;)
In the 90s, a colleague of mine, moved a magnet around our boss' CRT resulting in nice rainbows. When he turned it off and back on, it was still LGBTQ+ friendly. I left him get cold sweat for a minute before showing him that it had a "degauss" button. 😆
I never bought it. As I remember it, I got it for free from my workplace. Years back when everyone was changing to flat-screens :) This screen seems almost unbreakable to me. I must admit that I stored it poorly in my sunroom where it has seen freezing temperatures at winters, extreme heat in summers and high humidity in autumns. I have decided to store it inside my house from now on. It deserves better :) And with the very effective degaussing circuit, it is just perfect for magnet tests!
For CRT monitors, Trinitron monitors consume less power. Next time you should try it with a Trinitron monitor. And you should also try an LED backlit LCD monitor.
Hi! Thanks for watching. Comment if you have ideas for further testing of the monitors - or something else the monster magnet should meet...
I would like to test if X-rays/bremsstrahlung escapes when the electrons are focused down to a tiny spot on the CRT screen by a magnet. Does anyone know how to easily detect soft X-rays below 30 keV? They are not ionizing enough for my detectors.
Maybe you could try how a Plasma TV reacts to the Magnet. :)
how about on an ev electrical motor? are they shielded well enough?
What I'm wondering about the 22" monitor from 2009 is if you put a plasma globe near the back where the fluorescent backlight tubes are, what will happen to the video? Because I know that fluorescent tubes are lit by microwave radiation and plasma that comes off a globe. Maybe make a video about that?
Hi Brainiac, I would use a plain and simple electroscope, that should do.
Expect the CRT to be sort-of trashed after you do the experiment. Focusing the electrons to a single point will most likely burn the phosphor in that place (unless you turn the brightness really low).
The patterns on the CRT are actually really beautiful. Always super cool to see physics in action!
I'd love to see how a cassette boombox reacts to the monster magnet!
They look like complex function plots.
I would like to see the boombox as well!
So he was roughly 10 feet away from the monitor with a magnet and it was powerful enough to distort the image. That’s absolutely INSANE!
I wish I had this as a kid, that would be so fun to play with a CRT
Well electrons don't weigh much, so theyre not hard to move exactly
@@sakesauruswell you might end up losing your finger
@@aisultan3329 oh i had some iron magnets. They just weren't as strong
Yeah 3 meters
Big magnets near transformers will also cause the inductance of the windings to decrease, which can cause the current in the primary winding to increase, which might cause a switch mode power supply's overload protection to trigger, a fuse to blow, or something to burn out. My guess is that in the video, some kind of overload protection triggered before any permanent damage was caused.
Seems to be a common feature on integrated controllers.
The discrete solutions are more likely to blow up.
The effect on the ferrite core would be way more relevant than on the winding, ferrite cores when saturated have a very sharp decrease on the inductance mostly if they do not have a magnetic gap which is the case of those transformers in this video, iron powdered inductors are way more tolerant in that regard
Yes it's a switchmode thing
I once made a small magnet from a dvd player get close to a power supply, It shorted out and i NEVER made that magnet get close to that PSU ever again
@@tiagoferreira086 And the saturated ferrite core in turn affects the inductance of the windings.
The magnetic fields in the NMR room back in college were absolutely insane. You had to leave your wallet near the door because they could wipe your cards easily. Monitors 20-30 feet away from the magnets would show color distortion all the time while you used it. The room had an emergency blower system that could completely vent the room and replace the air in under 30 seconds (and it was a BIG room) If you accidentally quenched the magnet the liquid helium would flash vaporize and displace all the oxygen immediately. You had about 20 seconds at most after a quench to get to the wall and pull the handle or you would go unconscious and die.
MRI and NMR are always fascinating, the strong magnetic force but you don't feel anything! Imagine a whole "NMR" apparaturs circling around your body in an MRI scanner... Nowadays even NMR with permanent magnets exist, they don't have to be cooled.
@@Laralindatoo bad permanent magnet NMRs suck, only like 60 MHz vs 1.2 GHz for cryogenic ones. Still useful tho
Why wouldn't it vent automatically?
Good question! It's called multilayer safety. Basically You absolutely have a sensor to detect dangerous events that need reacting to. But...where do you put the sensor? And how sensitive is the sensor? Too sensitive and it goes off just from normal events. Not sensitive enough and it's useless. So you have a middle ground. But that middle ground, plus where you place the sensor may mean that it doesn't detect things as fast as you do. Or maybe it does. Regardless, Having the human being in danger primed to run away from the danger towards a a lever is a good idea. And so the system may already be activating, But on the chance it isn't, the human is a backup safety device. And if the system IS working, the human is running away properly. 2 layers of safety in one device!@@shanent5793
You'd think those two buttons would just be connected. There's no scenario in which you press one but not the other.
2:15. Woah. Anyone else feel a literal flashback as that monitor warmed up and he adjusted the picture? Crazy.
I did ;)
Me too:)
I used to have a 21” CRT monitor, back in the day it was BIG! Taking it home I had to carry it up 3 flights of stairs and this thing was extremely heavy.
It had a degauss button, when pressed the desk shook with the power of the thing.
These days I like to sit back with my average 40” monitor that weighs so little in comparison.
damn I wanna see that now
Yeah, I remember our family's 29" CRT TV took 2 people to move around, not only was it 30+ kg but at that size it's not even just the weight that is a problem. You just can't hold it properly.
It's funny that LCDs weigh so little but in comparison my 21" PC CRT weights proportionally more than the 32" living room TV, both LED backlit ones and the PC monitor doesn't even have a power supply built-in. Guess they just use way thicker glass on it.
that's not a monitor that's a tv lol
@@turkey_sandwhich
Well a 40” TV used as a monitor, it’s all good! 🤣
@stemartin6671 this used to go with a real loud thud, it’d wake the house if you did it late at night.
This reminds me when I was in kindergarten and I was sitting in my chair but too shy to ask the teacher to use the restroom so I inevitably peed my pants and then the kids gathered around when we were about to leave and they kept pointing at the water underneath my chair and they said it looks like something was leaking here and I didn't know either
damn bro thats wild
Thank you for this history. It has changed my life.
Life-changing piece of information.
sometimes i question why i have eyes.
Yeah, I was reminded of when this happened to you too
so happy seeing the return of this crazy magnet after 8+years!
Over 8 years, it has grown and is now double as big ;) Much more encounters to come!
@@brainiac75windows eaten by monster magnet :>
"i will force my way in"
* proceeds to carefully disassemble the screen 😂
Left hand rule is always confusing, but somehow, seeing that Windows 7 screen move up and down just made it click.
I've got a fun idea: can you keep the electron beam stable with two opposing magnets on either side?
No, because the beam travels left to right and down the monitor, exactly like you read the words on a page. Because of that movement, one magnet will always have more effect over the other on the electron beam since it's closer and the image will still be distorted.
Something about the plasma globe + 46" TV lamps scene is absolute art. What a lovely angle and color palette.
This video reminds me of a story that my father told me: His TV wasn't working properly so they had a technician look at it, but he saw no problems. So after he left they set it up again and the issue happened again. The technician came back and it worked fine. This time they set up the TV with it switched on, and when they placed a magnetic sculpture on top the issue came back!
I think when it means "Low Emissions" CRT's that were improperly calibrated would send out xray emissions past the glass, which for a monitor designed to be close to your face, was not very good, and CRT's are also well known to destroy eyesight, I assume that one would be less likely to do so.
The front is quite much a radiation shield (1 cm+ thick glass with additives). The back-side is probably less shielded.
@@erlendse yes. Back in the early days technicians would retune the CRT to but out more brightness, especially when the tube is dying, by doing so would cause the CRT to put out more radiation than is typically safe.
Some models of CRTs actually put out more radiation than the average CRT should've from the factory.
This is just a "hey this monitor won't kill your eyes as much" badge.
@@erlendse the back side is shielded usually with metallic paint on the outside of the glass, it's shielding for the degaussing coil. But otherwise they're painted black for better contrast iirc
X-rays can still pass tho
Another very interesting Video! 👍 :D
2:32 I did absolutely not expect that the magnet has an effect to the screen at this distance...
Shows how powerful that magnet is compared to what we've all undoubtedly played with when messing with CRT's as kids.
Thanks! Adding that extra magnet - doubling the length - really has given the magnet some extra reach!
When I was young and playing this way, there were no such magnets available yet. Looks amazing.😊
You know its dangerous when there is "DIE" printed on the magnet
I love how graphical parts respond to electromagnetic forces! When I was a kid I would watch videos where people would mess around with computers to see what the graphics would do. It's interesting to see it like this.
Since moving magnetic fields induce current, I wonder if you could move a large magnet near either monitor quickly enough to cause permanent damage (in a safe manner)
Pro tip: Use the right hand rule if you want to use the true electron direction :)
Yep, you can use the right hand for the left hand rule if you want to point the middle finger in the electron direction. But the 'right hand rule' term is usually reserved for something else ;) I use it in the Monster magnet meets aluminum can video for eddy currents direction: ua-cam.com/video/IDjqeLpjI4A/v-deo.html
So glad to see the return of this crazy magnet!! Hope all the cameras remained okay!!
Glad you like it! The camera's are fine :) Luckily they don't record on magnetic tape like back in the days but on SD cards which are not affected by magnets: ua-cam.com/video/WhqKYatHW2E/v-deo.html
I have at times seen the autofocus be affected by the magnetic field. And one camera even turned off at some point. I think they use a magnetic sensor to sense when the flip-out monitor on the camera is closed - with a little magnet in the monitor frame. The big magnet made the camera think the monitor was closed which is a sign to turn off :)
Holy crap, I would be afraid to have a magnet as strong as this strongest one of yours at my house!
That's a really good CRT. Very strong degaussing coil too.
I've got a number of cheap Belinea monitors which get easily messed up by a decent sized iron speaker magnet. Took a number of hits with the degauss to get it somewhat repaired.
Finally, an new episode of this series, still an amazing video and it learned us that how dangerous that magnets can do.
As a former physics student I have never watched a better demonstration of the left hand rule. And when I was a student CRTs where basically the only display technology. Guess even then education was starved of resources and nobody wanted to risk breaking a TV.
I have a battery implant that works a bit like a TEMS machine so I cant play with magnets. So Im glad you can "test" things for me 2x👍
Curious if a newer monitor would behave differently, since they mostly use LED backlights now instead of Florescent Tubes, meaning there would not be a high voltage component.
I'm also a little curious if the monitor is still "displaying" an image after it goes black, but just the backlight has shut off so we can't see it.
Probably the switch mode powersupply shut off because of overload. I once put a magnet on a switch mode transformer and the psu gone into error shutdown mode and before that it drew a lot more current. So i think the main powersupply also shut off
That LCD panel from 2009 uses a CCFL tube
CCFL tubes do use more power than LEDs.
CCFL require high voltage to use as seen on the circuit.
LEDs just need 12,24, 36 or 48 volts, larger the monitor the more voltage the LED backlight needs.
5:22 you just unintentionally started 3 separate gang wars across 2 states. And a few turf scuffles in Europe.
😂
Every time that giant magnet makes an appearance I grow more frightened of its awesome power.
Да это точно я конечно понимаю что ты вряд-ли узнаешь что я сказал но я с тобой согласен
@@Minecraftoldreploads Спасибо за ответ, гугл переводчик отличный.
Please try using this super magnet in a camera sensor. I have a hypothesis that the background black response will be upgraded. The magnet will constrain the thermal generated electrons in the sensor area
3 meters away and already influence on a crt, that magnet is No Joke.
Which as a recurring viewer I already knew for years but it still amazes me.
After doubling its size, I feel like the magnet really has gained some reach. Maybe I should buy a second 200x50 mm and compare the difference in reach between a 200x50 mm and doubled 200x100 mm neodymium magnet x) But it is over €1200 and will be a pain to combine the two without breaking both :-[
Use it on watch/clock. Can we adjust time using magnet
Retry the same thing but instead of crt, use plasma display and instead of using lcd, use an OLED or AMOLED
I liked the monitors with manual degausing. I didn't know what it did at the time, but it felt cool to me and I always felt like it made everything look better. Just like the turbo button on my PC.
The CRT Monitor is so much more revivable that even a flatscreen, lmfao. 😂
3:54 I always remembered the focusing magnets on CRTs being on the inside of the neck. I guess there's no difference though.
Oscilloscope CRTs use electrostatic deflection and focusing, so everything is inside the tube except for the trace rotation coil.
Most TVs use electromagnetic deflection, which uses external coils although electrostatic deflection was used in some TVs in the 1930's and 40's.
@@rocketman221projects Funny fact, I've only ever worked on CRTs on old scopes. haha, so your comment certainly tracks!
More like correction magnets. The focus is eletrostatic on all CRT displays I have encountered.
11:00 i like how you used a bike tire lever to take apart some of the monitor. XD
I remember watching this guy when I was like 7. Im 14 now and i can see why i watched him. His videos are very satisfying and cool to watch.
What prevented you from putting something soft over the magnet to protect the monitor and fingers from impacts from the magnet?
Very interesting experiment. I would like to mention something I noticed at 7:13.
When you bring the magnet close to the edge of the monitor the background towards and outside of the window seems to freeze.
Probably just an illusion on my part, with the wind just stopping at that moment.
love your videos. this was special to me as I actually ruined some CRT TVs when I was younger and got in a lot of trouble. I was curious about everything to do with magnets...it felt like magic
I miss the days of CRT tvs.
I had one when i was really young that had a built in VHS player
Fabulous work, I'm impressed how well your CRT monitor was able to degause itself. Thanks Brainiac, take care.
I had a "professional" flat 21" crt, the degauss also shook the table and i had to do it quite often due to having dual 15" speakers on each side of the table for ... Games. When i cranked up the volume the colors got all funky, very fun.
Magnets are so neat.
Imagine creating magnetic pulses using this magnet and a rotating shroud.
ah yes, monitors and magnets. a past time for 5 year old me, a horrible sight for my dad who walked into the living room after realizing i was quiet for too long LOL
When I complained about the necessity to follow the conventional current direction when applying Flemming's left hand rule, my teacher told me just to use my right hand instead as long as I remembered to switch hands when appying it to generators.
Somehow you made me miss him.
2:45 Wow, that's so weird. When the colors first get disrupted, it looks like they're split into Cyan Magenta and Yellow, _not_ RGB... then 2:54 yellow shifts into green, 2:57 cyan shifts into blue, 2:59 and finally the magenta starts to look red. I wonder why that is?
Phase shift
Phase shift, just like the Doppler effect things moving towards you shift blue things moving away from you shift red
@@jermeyplunkett3744 Do you care to elaborate on that? Normally phase shift with electromagnetism occurs at relativistic speed. Why would magnetic interference phase shift colors on a CRT display?
I thought CRT monitors used three guns that emitted electron beams that were pretty much identical except for the angle they were firing from, and the difference in color between R, G & B had to do with the chemistry of the particular phosphor that the beams hit on the inner surface of the screen. Meaning that a magnet bending the electron beams would make them partially or completely miss their intended phosphor regions. In other words, which color a given electron beam excites is discrete, not spectral.
Are the magnets somehow phase shifting the electons in terms of energy, rather than their flight path? Or are you saying that the magnets somehow phase shift the photons emitted by the phosphors after they're excited?
Wow, I can't believe the shadow mask survived that magnet! I thought for sure it would be toast after that magnet.
Reminds me of when i put a magnet on my family TV as a kid and panicked when it left a green "potato" on the screen.
I didn't know about automatic degausing at the time, but after a few power cycles it went away and my dad was no longer angry since i was told not to do it! But i had a black and white TV in my room and they don't care about magnets, so I thought he was lying and had to test it. 😂
An old TV at my folks place still has a blob with a purple hue in the corner. NO IDEA how it got there.
Thanks for sharing! It is a little sad that I have thrown my first TV away. A 14" black and white CRT. As I remember it, the TV still worked when I got rid of it - but without colors it was obsolete even when I bought it in the 1980s x) Could be fun to test with a magnet today. I wonder if I can find a working B&W CRT TV in 2023...
@@brainiac75 good luck finding one, even the most modern monitors from the 2000s are an uncommon find. I myself use a 19" CRT as my main monitor, got it from my parents who had it since it was made in 2002. I have fond memories of playing games like the pinball game installed on copies of Windows XP on it in the olden days
Was always a problem doing magnet therapy with clients watching TV . Even the large screen TV had a CRT in the bottom focused with a Firenzel lenze on the screen.
I remember seeing a story on Reddit about how some office Karen had kept shoving her expensive Bose speakers against a very expensive and high-end monitor, and it had a slight pink tinge at the bottom. In the end, the IT worker had taken it away and commandeered it after it was inteneded to just be thrown away. Last I remember in the story was them using it for years before the pink tinge spread and ruined the monitor.
Does this music remind anyone else of the LA BEAST eating weird stuff lol
0:28 WAIT I HAVE THE 2ND ONE
Judging by the sound the monitor's HV circuit was making the voltage booster inductor was not very happy with a huge magnet fiddling around with the ferrite inductance.
Given how those booster circuits operate the magnet could have stopped the oscillations and the booster could not resume until a power cycle.
I love all your videos and have learned a ton watching them. Thanks
Great - I usually also learn something from making them. Thanks for the early watch!
02:44 Windows be like: Nope, I'm heading out 😂
CRT's are still superior to LCD/LED/OLED displays for some things. Retro gaming to name one.
Seeing the lamp actually slowly wave around as that large magnet entered the room, my eagle eye saw. Even THAT FAR AWAY, can have some pulling effect on things such as that, im not lying, look closely! As the CRT showed the distortion as the magnet wobbled around, you could see the lamp react too in gentle ways!
Yep, you're right. Since the magnet doubled its size, I feel like it has much more reach. Need to make a video about it measuring in more details what effect it has at distance to double the length/thickness of a magnet. Thanks for watching carefully!
Man i had to double check this wasn't an old video being recomended again by youtube like the old server meets magnet and such, i legit thoughr "has it really been 10 years? dayum" and i had to double check myself 😂😂😂
the screen distortion looked so cool
_"The monitor is throwing up all over the place. The computer... is still working."_
7:08 the monitor was like "eww monster magnet i dont want my face to get attached to"
Holy COW! I had no idea your big magnet would screw with a CRT so badly and even from so far away! Yeah, I've messed up CRTs with even tiny magnets as a kid, and what sucked is that some were so old that they didn't have a degausser, so like... on my parents' TV they'd just get mad for a bit and then we'd have to wait months for the discoloration to finally be gone. What was fun later is to mess with a CRT that has a degausser and then you can just degauss it once or twice and it's back to normal.
1:05 this music makes me wanna chug a 30 year old bottle of Crystal Pepsi
there's something nostalgic about having silly considerations like the speakers being shielded or they mess with your monitor. That anything could interact with anything in the house.. Like the GSM's made the speakers do *that sound*.
Growing up we had a busted TV that had some warped color, I had played around with magnets on the TV before and wondered if they could fix as well as break the image, and crazy enough it did work, it would also maintain the "fix" if you turned the TV off with the magnet on the TV but then removed it and turned the TV back on. Never investigated deep enough to figure out why though.
Interesting. Degaussing with a permanent magnet is not an easy thing. As I remember it, the professional degaussing coils for CRTs (yes, it was a thing back then) used an AC magnet with quickly switching magnetic poles. Thanks for sharing!
Fantastic, it's amazing how smart the digital technology is around our houses
Older CRT TV's & Monitors occasionally needed degaussing*.
* the removal of unwanted magnetism from a television or monitor, in order to correct color
What's the deal, YT? Brainiac is the most wholesome channel i sub to and you dont give me notifications when he uploads? SHAME ON UA-cam!
I have a laptop from February 1995 and still works like a dream. I still use it to take notes during lectures.
That's impressive... I struggle to keep modern laptops in working condition for more than 5 years... My first Samsung TV only lasted for 3 years. The 46" TV frame in the video... Had it repaired professionally for ~$400 and it broke a year after that again... (found out later it was leaking capacitors and they only changed 3 of 5 - a year after the 'repair' the two last ones failed). So seeing a 28 years monitor just work makes me miss the good old days x)
@@brainiac75they charged hundreds for replacement of a few caps?
11:43 Those transformers are not iron core, but ferrite core. A strong magnet will saturate the core and screw with the operation.
I first found this channel from “Monster Magnet Meets Computer” years ago. Neat to see a similar video all these years later.
Imagine working on an old decade monitor and someone enters the room with this magnet
I will be afraid of having that magnet anywhere near my home
I've secretly been hoping for another video like this
Hi! Build a wave power electric generator using big neodymium magnets and copper coils..
like a wave power electric generator, but the turns most be finely winded with two cylindrical magnets on a pendulum and two coils at each side, the magnet moving back and forth with each wave impact, must use 500 turns of thick wire 1mm to 2mm at each side, with a 30 amp schottky diode Full Bridge Rectifier!! if u did please first show case a tiny one..
that would be interesting to see!
>monster magnet
waaaaahhhh space lord mother mother!
made me listen to this band again as you destroy a perfectly working HP monitor beyond degaussing.
Legendary comeback
“MAGNETS!”
-Jesse Pinkman
I've veen always curious about it, thanks for the explaining.
6:27 100-240V 1A, wattage is not mentioned? what is the current and voltage then?
Do plasma TVs get affected by strong magnets?
Haven't tried it. Plasma is affected by a magnetic field but I am not sure it would be noticeably in such small pixels (especially if they are run on AC current?). But the magnet surely would affect the transformer lighting up the plasma pixels :)
There's an old saying "All roads lead to Rome", now i wonder if "All compasses point to Brainiac"
Maybe a suggestion, take your magnet somewhere, then use a standard compass and maybe mobile phone compass app to see how far away you need to be to not have then influenced by the magnet. ;)
Finally your back to making a Monster Magnet videos I'll give you a sub
I'v been waiting for this for so long
imagine getting a speaker next to that only to realize your TV got messed up
Amazing explanation
In the 90s, a colleague of mine, moved a magnet around our boss' CRT resulting in nice rainbows. When he turned it off and back on, it was still LGBTQ+ friendly. I left him get cold sweat for a minute before showing him that it had a "degauss" button. 😆
I want to ask : my mother always told me that magnet can f* up a pc for like the stockage and other things , is it true ?
@MachtNixPasstSo thanks
Where do you store a really powerful magnet like this? I assume in a wooden box far away from anything else.
The Nosatlgia in the beggining wow 😂♥️
12:30 do they use Xenon [gas] to light up?
I never knew that hand trick, thanks for showing us thanks
I've got to know where you keep buying these CRT monitors for when they're like $200 a pop on eBay lmao.
Its crazy how 10 - 15 years ago you couldn't even give away CRT monitors for free and now people are paying good money for them.
It's good as they're hellishly awful for the environment when just destroyed. @@spunker88
they are cheap if you just get them anywhere other than the internet lol
I never bought it. As I remember it, I got it for free from my workplace. Years back when everyone was changing to flat-screens :) This screen seems almost unbreakable to me. I must admit that I stored it poorly in my sunroom where it has seen freezing temperatures at winters, extreme heat in summers and high humidity in autumns. I have decided to store it inside my house from now on. It deserves better :) And with the very effective degaussing circuit, it is just perfect for magnet tests!
It's great for the environment and even basic CRT's like these still out do a LOT of LCD and LED monitors. @@brainiac75
Excellent video. Thanks for creating.
For CRT monitors, Trinitron monitors consume less power. Next time you should try it with a Trinitron monitor. And you should also try an LED backlit LCD monitor.
Brainiac I am curious can you increase the Gauss of a solid state magnet if you use it as the core for an electromagnet
Yesss! Upload yay!
Hehe, like your enthusiasm :) Thanks for the early watch!
@@brainiac75 :)