Monster magnet meets monster laser...

Magnetic fields *can* influence on light/laser beams. Not as bending the beam, but as slightly change the polarization angle in the cross section area. This can be done with a polarized laser (or a random polarized laser with a polarizing filter as "polaroid"), a photo detector and a second polarizing filter. The effect is "Faraday rotation".

So funny that after all these years you still haven't been able to disconnect the 2 magnets 😅

I always feel welcomed whenever I hear him say hi.

Puts enormous magnet near complex electronic thing
"Why does this shut down?"

I don't know if someone else mentioned it in the comments, but YOU CAN in fact modify the properties of light with a change in the magnetic field. It's called the "Magneto-Optical Kerr Effect" (MOKE). In short, when you shine polarized light on a magnetized surface, the polarisation of the reflected light will be affected. Based on the direction of the magnetic field at the point of reflection, the polarisation will turn.

6:50 that's how Comic Sans font was discovered

If you want to see the effect of a magnet on light you need the magnetic field to be parallel to the light path and the light has to be polarised, and the plane of polarisation is then rotated by the magnetic field, it is known as the Faraday effect

6:48 oh, so this is how MS got their Comic sans font.

> Makes a video with a sponsored product
*Destroys it*

I wish my science teachers had been as friendly and welcoming as you are, not to mention as knowledgeable and fun. I've learned (retained) more about science and technology watching your channel than I did in all my years in school.

*"We're just throwing science at the wall here, and seeing what sticks."*

I like how you think about what may happen, before it happens. This is so grown up and intelligent. Other people just do something and they get into deep truble or loose an eye for the show.

3:30 I love how he say Brrrrright

The faraday effect:
Am I a joke to you ?

I like how you approach problems and how your humour makes the videos fun. Thanks keep up the good work.

8:53 An incredibly elegant explanation of a very complex concept... well done.

7:53
It shut down because you put two, '6-inch-mega-monster-magnets-strong-enough-to-pull-an-airplane-down' magnet near it.

How did I get jumpscared by the intro lmao

Nice! Super strong magnets and high power lasers together. I can appreciate the last test you did because I've done similar setups with my high power lasers and know how hard it is to get the shot you want while still being safe.

I think this is the part that a lot of science misses these days. Experiments that show some intuition is all psychological. When I was a kid... I had an intuitive understanding of how microwaves worked... but it was wrong. And my dad didn't tell me i was wrong, so much as he said, ok, well let's try to put a lego block in the microwave. No water. Let's see what happens? and to my amazement and humbling, I grabbed a perfectly normal temp lego block out of the microwave. It was an important experience. I'm so glad this video is out there. People who want to be curious need to also have accurate intuitions. I think the important thing was to do the laser first, no effect, and then to show hey, if it were to effect a laser, it would effect a ruler too!~ and that's the missing piece. Why do we imagine an effect when we never see a magnet warping light in the first place. No mirage, no nothing. And I think it should be common on these media to take common misconceptions and have genuine experiments to have a contrary example.
Anyway, great vid. Thanks!

"...magnets will bite you beyong repair" :'D good one

You're my science ASMR channel. I usually fall asleep during and have to rewatch the day after. Also I've worked in this field. You are correct. Magnetic and electric fields don't affect photons "in vacuum". Maybe you already know about this but if not you can have look at here: en.m.wikipedia.org/wiki/Faraday_effect
So maybe try in a medium like transparent solids or liquids next time and observe the effect.

These videos are like getting a science lesson from the Danish Mister Rogers

I think it would be awesome if you could buy a magnetic chamber with two strong magnets, one on top, one on the bottom, and when you put something that’s medal inside it just floats! That would be sick!

I thought this was about bending light with magnets and doing highly detailed measurements of the beam.

9:01 best explanation of light i've heard, THANK YOU

I am thuroughly impressed with your work on magnets and have learned a lot about the metals you have used in your videos. Nice work!!!

I know CERN uses magnets to bend their laser. However, this might be due to the fact that the particles they are accelerating (with/in/around the laser) have charge. IDK but I must get to the bottom of this. Thanks for your very satisfying video :)

3:30 no ones gonna talk about this?

I have a question. :) What kind of target do you use when filming these videos with high power burning lasers? The beam was on for a long time as you moved the magnet around it on the floor, and I'm curious what was on the other side of your house that allowed the beam to hit it and not start a fire.

So it seems the light's electromagnetic nature is a legend, until now nobody could demonstrate that. Tip: try the effect of a piece of Wolfram over a beam ;)

You got the projector to make Comic Sans! Cheers, mate.

1:42 I KNEW IT! You're "Magneto" from the X Men.

I've been bitten beyond repair, but that's what attracted me to her in the first place.🧲

Your explanation for laser beam's immunity towards magnetic fields was bang on target.
I wonder if the magnets might change the laser's plane of polarisation, though. There might be some effect there, maybe worth trying. I think you did show how you polarise candlelight with magnets yet, didn't you?

1:19 Damn. I looked into the laser.
Had better done what he said at the beginning of the video.

In order to affect a laser beam, you’d need a pretty strong gravity field... like a black hole.

This channel stands on the edge of a sliver future.

Take a piece of copper, preferably a cutout of a sheet. The Faraday effect predicts an imposed wave function over the light itself. This effect, as you probably already know, is called birefringence.
The effect of holding the copper near the circumference of the magnet looks like fuzzy reflection at first, but hold it closer with a bright flashlight at 90 degrees, perpendicular with the field. The magnet becomes clearly reflective with a notch of dark bands above or below it.
If you notice your magnet, it's not anywhere near as reflective as a mirror yet it starts to become one as the copper gets closer... Very cool effect.

3:46 "the closest shave you'll ever have"

1:21 OH NO I FORGOT TO PUT ON GOGGLES BEFORE WATCHING THIS VIDEO!

Yoink!
Also I think the purple laser was affected in such a way because you cracked the crystal or something.

5:40 Everything is said here!
Nice demonstration ;-)

The only thing I can think of with the laser show that would make it shut down is maybe it has something to do with the Hall Effect interfering with the electronics. The motors also work with magnets, but you wouldn't think that would affect the actual operation of the lasers themselves. Beyond that, I can't think of anything specific.

As light could be dielectric, perhaps try exposing the magnets plane of inertia - bloch wall - plane of equillibrium, to the beam rather than just magnetic displacement.

Imagine bringing that monster magnet to the international space station!

The reason why the bigger magnet shut down your laser is that it enlarged the scan angle too much and the galvos started to draw too much more current than the power supply's capacity (bigger angle = more current on the galvo's coil), so the output voltage from the power supply dropped from +/-24V to a very low voltage thus the galvos stopped working, which is why you still see a single laser beam but wasn't moving , that's because the galvo went dead just when the mirrors were at that angle. Cycle the projector power the power supply output regulator restored thus fixing it.

You should absolutely do some videos combining different types of glass, the magnet, and the laser. A magnetic field may not change the path of light in free space, but it will affect materials, and the effect on some materials could be enough to observe using a laser and looking for say, a change in the beam's polarization as it passes through.

I guess technically your magnet did alter the path of the laser, if only because of the bending of the beam due to the gravity of the mass of the magnet pulling on the photons, aka gravitational lensing.

What about powerful magnets vs flying drone it would be a fun thing to watch a drone react to a 🧲

magnets affect polarity, or cause twists in lasers. That's about it. very cool video!

5:57
Me: Yeah! A laser show for free!!
6:02
Me: Dude, ur blocking my path.

I’ve always had the feeling that light is much more complex than we imagine... just think about the double slit experiment, when light is shined against two separated lines, a pattern of light-lines come out of the slits instead of two lines. This result changes when a particle detector is used. When the detector is used, the pattern of light lines disappear and two lines come out, like the photons or the light itself was alive or had awareness... Now, What if light is much more than just a wave or a particle? What if light is something else that covers both features but has many more that we dont understand? And are we ever going to understand what light and Quantum mechanics is?
Talking with my physics profesor, he said something that’s actually kinda true... Us trying to understand the secrets of the universe and the Quantum mechanics is like expecting a dog to learn physics. Is out of the dog’s range and is out of our mind’s range.

could maybe try shining the laser through an electro magnet to see if that has an effect? 🤔🤷‍♂️

Nice demonstration allthought I expected to see Zeeman Effect :)

I have an idea.
Use a C shape magnet instead of cylindrical / disc magnet. One that has a narrow gap produce a stronger gap flux
Another variable to this experiment.
If laser beam can be polarized, try different polar angle to see after polarized filtering will the beam respond to the H field at what polarized angle.
By the way H field bends electron beam.
Under what conditions can plasma field bends light beam? (I don’t mean radial plasma in vacuum ball) I mean plasma filament in between an obvious electrodes, anode and cathode.

Magnet=sleep
Laser=me

Powerful magnets vs bullets

Thanks for brightening up a dull Saturday evening.

Now you need to set up some sort of electric field to see how your laser light 'can' be affected. :)

5:05 Nada! 😂

Just once, I want to see one of these "monster magnet" videos contain the guy from Monster Magnet. :)

Please do another RUclips video where you measure the change in the spectral lines via the Zeeman Effect with your skills, lasers, and very strong magnets. This video attempted to measure lateral and vertical beam deflection with an applied static magnetic field; however, you never discussed the Zeeman Effect. Thank you for considering this request. And thumbs up!

That is one scary magnet. I'd be afraid to go anywhere near that thing.

I’m guessing the show laser shut down because maybe the magnet is very close to the magnetic field sensors, and when it goes above a certain threshold, it shuts down to protect itself or something similar.

NOTIFICATION SQUAD, hilsen fra Norge :D

My heart rate spiked when you brought the magnet up to what *looked* like a giant metal box lmao

Wow you got some serious die-cast motorcycle and car collections!

Hi, and sorry for multiple replies
((What i explain is from what little physics i learned in electrical engineering, so if i went wrong, please correct me))
First: why light isn't affected by constant magnetic or electric fields: light is composed of varying circular electric and magnetic fields which generate each other, explained by maxwell's equations, which consist of only summation, multiplication, derivatives and integrals all of which are linear, and states that magnitude of each of them is proportional to the other's change in a time unit(d/dt)
so if we add an extra CONSTANT magnetic or electric field, while in VACUUM, which is a perfectly linear media, we can use superposition: derivative of sums = sum of derivatives
derivative of (varying fields of light + constant fields) = derivative of (varying fields of light) + derivative of (constant fields)
and the last term equals zero, thus magnitude of varying fields is not affected by the constant fields.
BUT if we use other media (not vacuum environment), then we are in non-linear conditions, thus no superposition, and magnitudes change according to extent of nonlinearity and magnitude of constant fields, where light dose get affected (an example being the "faraday effect" witch our friend, Marc G. Wathelet
, mentioned) so light isn't affected by constant fields, but affected by "matter under the fields".
And second: why do electronics get affected?
well, our friends mentioned lots of possible reasons all of which make perfect sense, including magnetic mechanical parts like relays, affected inductors, and hall effect, on which i'd like to elaborate:
duo to moving charges inside conductors being subject to force from magnetic field (orientations are important), the charges swarm to one side of the conductor, which will alter resistance, but insignificantly.
yet, when it comes to semiconductor parts, the story changes: the magnetic field can push the tiny conduction channel and significantly affect all Field Effect Transistors (FETs) and disrupt anything like a MOSFET (which is used in virtually every electronic device, like hundreds of them in simple ICs to billions in CPUs) or delicate sensors.
so given a strong enough magnetic field (like 100,000,000,000 Tesla from a magnetar 😆) any electronic circuit will malfunction, or worse...
(being used as fuel for near-light-speed super-jets of it😆)
en.wikipedia.org/wiki/Magnetar

3:39 When he shoots for the thumbnail 😆

0:46 “And powerful layers will burn you faster than you can blink” 1:16 *proceeds to point laser directly at camera*

That was cool. I didn't expect light to be effected by the strong magnetic field. But light is bent around very dense objects in space, like neutron stars or black holes. They create a gravitational lens allowing one to see what is behind the object. So, it light effected by the magnetic field, or the intense gravitational power?

In the classical picture the key is your magnet has a static field, a constant background. Like increasing sea level has no effect on the waves.
Also, it's important to understand, there is no magnetic field itself. It's always an interaction between moving charged particles (mostly electrons). And photons have no charge. But electrons can interact with both photons and magnetic field generated by other electrons, which leads to this device:
en.m.wikipedia.org/wiki/Magneto-optical_drive
Another, but not significant effect: according to the general relativity, static magnetic field has effect on the space-time curvature which has effect on the light. But it's negligible, and it's also related to the electrons, which generate the field.

I very much appreciate your very careful handling of powerful lasers and strong magnets!!!
As a science and gadget geek I love both of these and I refuse to buy them because I have respect for their power and recognise their potentially dangerous nature.
So I watched RUclips videos of other people who have purchased such science toys instead.
But I feel that most people don't handle these objects with the level of care that they need to be treated with.
Thank you for the warning at then start of the video and for practicing and demonstrating safe handling of these devices!!!! 🙏🙏🙏

I like this channel. I've so far only watched 2 videos, but your voice is significantly less grating than most magnet/laser/general science related channels I come across.
This channel is more along the line of: this is science. Science is to be respected, but let's also enjoy the "why" of things.
Most other channels are more along: HEY LET'S FAFF ABOUT WITH THIS HIGHLY REACTIVE AND POTENTIALLY TOXIC MATERIAL IN A PUBLIC ENVIRONMENT AND SEE WHAT IT DO!
While I do enjoy the spectacle of science, I don't often see it respected as the study of our governing forces that it is.
Kudos, good sir. Definitely subscribed.

Your videos are amazing !
I really do enjoy them . :)

08:33 Wouldn't even have been surprised if the TV blew the f*** up

Love your Channel. Lasers are affected by magnets. Magnets may be incorporated in lasers for several reasons including the suppression of IR spectral lines to improve efficiency and to boost power at visible wavelengths, to control its >>>polarization

Put two Monster magnets on top of eachother with both of them facing the same pole and watch one float on top of the other.

you have the best job ever! would love to do things like this!

Fantastic video. This would be an excellent video to show to grade school science classes. Your showing the cool laser and monster magnet was great, then showing how lasers are just light, and the magnet does not bend any light. Your style of humor, and pacing is perfect for maintaining attention, and communicating in a way that can be retained, and used in every day.
As for the magnet and the laser show. I would suspect you are triggering thermal sensors, or thermal management by messing with the fan motors. Would not be surprised if the RPM of the fans are being monitored, and if the fan's RPM fall out of tolerance then the system might shut down,.

Great video, you explain things very well.

That model car cabinet needs a bit of showcasing, looks really neat!

If you're looking for the Faraday effect you'll find it on the street. Underneath the power lines to be precise. Notice how the Shadow from the power line is quite a bit thicker than the Shadow from the pole. Note, this effect can only be seen if there is a significant amount of power flowing through the power line.

Arrgh! You've blinded my eye pointing that laser at me in the video.

Next time, you have to try a tiny black hole with the laser light. It bends light easily.

Photons are not affected by magnets because they are not charged particles.
We often say that photons transmit the electromagnetic force, but it's actually virtual photons which do this. These virtual photons can not be observed/measured. Only their effect on charged particles can be measured.
Where we do see magnetic and electric effects on particles is in atomic spectra. Electron orbitals are affected by magnets (Zeeman effect) as well as electric field (Stark effect).

The background music is exactly my ringtone so I was going crazy the whole first minute or two wondering why I couldn't answer my phone lmao

The show laser issue: the emf of the magnetic is vastly insufficient to affect the laser beam but would definitely be enough to disrupt the electron flow within the emitter.

That's what I've been waiting for. Thank you. I was hoping for the light bending...

Good video but i think that a mention (or a test) of the Zeeman effect would have been appropriate.

To see an effect on the laser you would need to fine tune the environment, by sub zero and vacuum to increase the permeability of the field generated by the laser :)

3:30 is *_BRRRRIIIGHT!_*

A camera fpv goggles set would look better than not seeing lights at all, like using a VR headset in passthrough mode

if light can be bend by magnets, we wouldn't need any glass lenses or mirror lenses. moreover, we would see a distorted field around magnets, similar to mirages.

Monster in the title gets you a lot views mate. This is gonna blow up my man!!! Great work keep it up :) 💪👌👍

A visually pleasant video. Thank you. :) Also, nice background music, interestingly atmospheric. :)

The effects are not visible, however there are effects of magnetic fields in terms of spectral line width and line splitting IIRC for HeNe lasers. This effect is actually exploited to create spectrally pure lasers.

It could be also be the wire in the laser diode that's moving because of the super strong magnetic field.

Lack of interaction with magnet is due to photons having no charge. But if instead use an electromagnet source like a coil, things get exciting pretty quickly.