Hell Sas, you are welcome, and I am glad I could avoid you headaches! As I told another viewer, providing these videos is my little contribution (I feel gratitude, so I enjoy paying back some of the gifts nature gave me)
Really appreciate the time you do for these videos, best teacher on RUclips by far. I've been looking for the explanations of magnetic and electric fields, and after many videos trying to explain it, you were the only one breaking it down and really explained it.
Wow, thank you Karl for this really kind comment! *** Blush*** It really motivates me to produce more videos like this one. I am glad to have improved your understanding of electric and magnetic fields. Maybe you can try the videos that didn't hit it at first and see if they appear clearer now.
I've started with my AS levels and was having a really hard time with physics.. I don't usually comment on videos but the explanation was awesome and I understood everything! Keep up the good work!
Hi Artemis. Your comment expresses exactly what I am trying to do here: To put students on the right track so that they can fly with they own wings. I am truly glad my explanation improved your understanding of polarization. Good luck with your studies!
Thank you so much for that explanation, you put it in such a way that I will always be able to visualize and understand in the future! This is exactly what I needed!🙏
I agree with the top liked comment here, I've gone through a few videos looking for an to understand explanation and you were the only one I found until now who could give it, so thank you very much!
Hi Sacco, yes, simple things around us, usually taken for granted, are actually quite amazing when you look at them in more detail... Thx for your feedback!
I can not find a world to describe your power of teaching, They say, the knowledge is power and I would say, your power of teaching is only comparable with the power of sun ☀️ A million thanks for being out there for physics lovers. ❤️❤️
Wow thank you Sam, for these very encouraging words! I do not know if my power of teaching is 4 x 10^26 Watts, haha, but if it can help students to avoid the pain I went through when I was a student, that is enough to make me happy!
Good stuff. Presented clearly and thoroughly. Not only illuminating in terms of polarised light....but heck! Never conciously occured to me that unpolorised light waves oscillate (I guess) in all directions simultaneously. (will have to watch more of your videos to get a better grasp on that : )
Thanks Sailor! You seem to like sailing. Try that: Buy yourself a polariser (like a polarising filter for phorography). When you enjoying your freedom sailing at sea under a a shiny sun, look at the flickering reflections of the sunlight on the water waves. Then look under the polariser, and rotate it. You will see some of these reflection disappear. Welcome to the world of Brewster's angle!
Hi Mapato, thank you, greetings to you too, from the other side of the world (Being a GenX, how far the Internet has gone remains an amazement for me. It is so common in everyday's life nowdays, that we don't realise it anymore... and take it for granted, but if you think about it, it is truely amaxing!)
TY. Great tangible application with the oven rack. What I am really wondering now is how would one make a polarizer. It’s like the magic trick in this equation. ☃️🎯🔦
Well, it is like an oven rack but at a much smaller scale so that the EM wave gets impacted by the geometry of the arrangement of the molecules of the material: You take a substrat on which you stretch and align long polymeric chain. See this process as an example: www.kentfaith.co.uk/blog/article_how-are-polarizing-filters-made_2480?srsltid=AfmBOoqIHLj092ZHepN7ESPKGeFonAlHj8-5PV1UonrZtGTHGgZCFVxW
haha, yes it's always a lot of fun walking around the house wondering what to use out of my everyday stuff to help at the visualization of a concept. I was pretty proud of the idea of the oven rack to polarize a mechanical wave :-).
I got first aware with this phenomenon from the experiment of faraday. My head was hurting how such thing was possible. It takes a special kind of talent to explain such a complicated phenomena to people who cant understand it, yet! Thank you!
Thank you for your kind words Dennis. My experience as a teacher has shown me that every students, even the weakest one, can grasp notions that are considered like difficult (for example electric potentials). Society / scholar system is very elitist, too elitist for my taste. So progressively I developed teaching strategies to render these notions accessible to all. And when I have some time, I produce a video presenting a notion for which I developed this pedagogy for my real life students. I am glad it helps you understand a little more the universe we live in!
Wow I understood every step... Simplicity is the best way for me, some ppl speak so mechanical they lose you in just hearing the syllables in the words you don't understand😩
A classroom of neurons in my brain just lost their shit for a second when you said the double arrow was oscillation 😂 im like brooooo that makes so many things make sense right now. I never learned that part so i thought the up amplitude plus the down amplitude was .. just the amplitude? 😂 Thank u!!
Glad ny video could clarify this for you Jacelyn. Amplitude is indeed the difference between max position and equilibrium position :-) You seemed to have had an 'haha' moment. Cool feeling isn't it? Try other videos: for example, the 1-minute physics vids I made some time ago: ruclips.net/p/PLU0ETLdKNmc6mDYvNXWDWWUPxGNkvYEtA
Thank you so much for the video, I finally understood what is a plane-polarised light the day before my physics exam! They should replace all the texts in the book with this video!
Merci Shual. My video replacing text books, maybe not haha! But seeing it at as a good complement, or starting point, yes. The idea with my videos is to read the text book after seeing the video: the goal is to provide a basis of conceptual understanding so that the viewer can dig deeper by himself.
My own! I compose and produce all background tracks for my channel. You can check the physics Made Easy album here: edouardreny.bandcamp.com/album/physics-made-easy-the-soundtracks However, I didn't select 'Sirens' (the track on this video) for the album. One of my editors placed it on spotify: open.spotify.com/track/3BSAiNq3dwtBOGcwIMcdpp?si=fb6d5b640d054026 Or if you do not have spotify, you can here it here: www.royaltyfreemusicclips.com/music-download/sirens-5014006/
That was a great explanation. For a polarized light why do we only talk about the electric field oscilating in one plane and not about the magetic field??
According to Maxwell equations, a fluctuation of E in space, generates a fluctuation of B in time (and vice versa) perpendicular to the plane where the electric field fluctuates. Therefore, one implies the other. The origin is actually the electric field, the magnetic field being just a consequence of special relativity. When we talk about one, we imply the other. So for simplicity, when discussing linear polarization at the level of the video, it is not really necessary to discuss the magnetic field. the latter is implied.
Hi Aamir, you should find what you need to an answer that question in my video: "What are waves?". ruclips.net/video/LoRRE2aG3AY/видео.htmlsi=alXB8FrPioNMT-hb The amplitude is the difference between the highest position (what you call the top peak - the max y of the sine curve- which is also called a 'crest'), and the equilibrium position (y = 0). For an EM wave, it represents the maximum value of the oscillating electric field strength (check my video, what is an EM Wave) The bottom peak (called a trough), is also a maximum displacement (in the negative direction this time). For an EM wave, it represents the maximum negative value of the electric field strength. Thus, it also also represents the amplitude.
Thank you for explaining this important concept so effectively and thoroughly. I have a couple of questions about polarization, especially when interacting with a surface and creating the angle of incidence equal to the angle of reflectance. First, I'd like to understand the relationship between the direction of propagation and the direction of oscillation in an electromagnetic wave. Is the axis of oscillation always perpendicular to the direction of propagation? In other words, can an oscillation propagate horizontally while oscillating vertically in relation to the axis it travels along? Secondly, I'm curious about what causes some reflections to come back unpolarized, such as those from bare metals (usually cross-polarisation is required to minimized direct reflection in those cases). Typically, the reflection off the surface of water is polarized, with light oscillating in a plane parallel to the surface and the detector being at the same opposite angle of the angle of incidence. In other words, the surface acts as a polarizing filter. I appreciate any input you can provide. Thank you!
Hi, interesting questions jdr... Hi jdr, Question 1 : Light is a transversal wave, so the direction of oscillation is perpendicular to the direction of transfer of energy (= direction of propagation). So to your question : « can an oscillation propagate horizontally while oscillating vertically in relation to the axis it travels along? »… Yes, light always does ! Note that there are waves where the oscillation is parallel to the direction of propagation, these are called longitudinal waves. Sound in an example of such wave… Question 2 : When a beam of light hits an interface, some of the beam reflects and some of it refracts. Such interface could be air/water for example. Both refraction and reflexion are generated by the same oscillating charges. The two beams interfere at source. When the incident light arrives at Brewster’s angle (incident angle such as reflected and refracted rays are 90 degrees apart), the interference leads to the cancellation of a component of the electric field vector (the one perpendicular to the surface). Loosing a component leads automatically to linear polarisation. So for light arriving at this angle, yes, the surface of the water acts like a polariser! As for metal, their electronic structure does that metals do not refract light… so there cannot be any interference here, thus no polarisation of the reflected light.
@@PhysicsMadeEasy Thank You So Much! With interference, do you mean the encroachment of two or more oscillations oscillating in different planes on the same ray? As for metals, are you essentially stating that due to their structure bare metals are also reflecting light oscillating in a plane that is perpendicular to their surface along with oscillations parallel to the surface? That would make sense when cross-polarizing incoming light in that we would be selectively blocking different components of the light both at its source and at the end of the detector.
Congratulations, you did a great job in explaining the matter, an the example with the rack was brilliant. I have a question, maybe you can enlighten me. Based on my current understanding, one lens of the polarizing 3D glasses will allow the vertical polarized light to pass and the other one will allow the horizontal one. I tried to put one above the other, hoping to filter out most of the light. However, this did not happen, how should I understand this ?
If these are basic polarizing 3D glasses, all light should be stopped. But, maybe modern ones have a different way of working: there is some electronics in them that actually is synced to a signal that can make the polarisation axes of each lens flip in synchronicity with the movie...If this is true: the axis of pol between left and right may not necessarily be perpendicular in the absence of a sync signal. I am only speculating there... and I might be completely wrong, so you should check this by yourself on the web.
How does the polarisation of light be affected by the arrangement of molecules....explaination in terms of absorbing and emitting light please....thanx
Hi David, That would be too long to explain in one comment. Rotation of the polarisation plane by molecules is called circular birefringence. I invite you to consult this wikipedia article that is pretty good: en.wikipedia.org/wiki/Optical_rotation Enjoy!
Thank you so much for the video, it is genius! May I ask if the electric fields of the light waves are always fluctuating in a single plane or they rotate through time? thank you so much
Hi Eduard,. Yes the polarization plane of the electric field can rotate through time (thus, through space). This is called circular polarization. More info here: en.wikipedia.org/wiki/Circular_polarization#:~:text=In%20electrodynamics%2C%20circular%20polarization%20of,the%20direction%20of%20the%20wave.
Im impressed, your the only perso who explained it in a way that made sense. Tyvm
honestly🤣
Using the oven rack and the bass guitar cable was a great way to visualize it and make it memorable. Thank you!
So that’s one concept you will not have trouble remembering. Goal Achieved !
This channel has saved me hours of headache. I salute you sir for doing this amazing job and providing all of this education for free.
Hell Sas, you are welcome, and I am glad I could avoid you headaches! As I told another viewer, providing these videos is my little contribution (I feel gratitude, so I enjoy paying back some of the gifts nature gave me)
This is really a time saving video.... didn't regret clicking....
Thanks!
Thank you so much for your support Denisep!
Really appreciate the time you do for these videos, best teacher on RUclips by far. I've been looking for the explanations of magnetic and electric fields, and after many videos trying to explain it, you were the only one breaking it down and really explained it.
Wow, thank you Karl for this really kind comment! *** Blush*** It really motivates me to produce more videos like this one. I am glad to have improved your understanding of electric and magnetic fields. Maybe you can try the videos that didn't hit it at first and see if they appear clearer now.
Sir I have seen many videos of urs... omg what an explanation... seriously u are doing a great job making our life easier sir... thanks a lot..
Thank you very much Krithika for your encouragements!
I've started with my AS levels and was having a really hard time with physics.. I don't usually comment on videos but the explanation was awesome and I understood everything! Keep up the good work!
Hi Artemis. Your comment expresses exactly what I am trying to do here: To put students on the right track so that they can fly with they own wings. I am truly glad my explanation improved your understanding of polarization. Good luck with your studies!
Really appreciate your videos. You have a good way of explaining things. Much respect
Thank you D. That's why I am teacher :-)!
I like how you used everyday objects to demonstrate :)
Excellent. Seen lots of different videos and this is by far the most informative and interesting oft them all.
Thank you so much for your kind words vogahl! It's appreciated :-)
Thank you so much for that explanation, you put it in such a way that I will always be able to visualize and understand in the future! This is exactly what I needed!🙏
You are welcome, I am glad my work helped! :-)
Everything is very clearly explained and illustrated, so impressing 🙏🙏
Thank you for your kind words Ageu!
I agree with the top liked comment here, I've gone through a few videos looking for an to understand explanation and you were the only one I found until now who could give it, so thank you very much!
Merci Arnaud, I am glad my videos clarified things for you :-)!
Fascinating. I had no idea about these nuances about light polarization. Thank you.
Hi Sacco, yes, simple things around us, usually taken for granted, are actually quite amazing when you look at them in more detail... Thx for your feedback!
Best explanation on RUclips. Liked and subscribed
Hi Puniyani, thank you for your words of encouragement! ❤
This was awesome. I went to fix a polarizer lamp in the lab and went down a rabbit hole. Glad it led me here :)
Yes Alice ;-), Physics can be a real box of wonders!
Awesome video, very clear explaination, thank you!
You are warmly welcome @mwerensteijn!
from the bottom of my heart, THANK YOU.🥳
Thank you so much for this video, I found it very easy to understand
I usually don't leave a comment but man! this video compelled me to do so. Thank you for this..
You are welcome Manav, I am glad you enjoyed my work :-)!
Wonderful explanation you are a great teacher. Loved your video to core of my brain.
Thank you Hakeem,. I am glad you enjoy my work!
Studying with visualisation here😍.. thanks sir..
Really beautifully explained, not even my physics teacher could explain it the way you did, respect mate!
Thank you Driftin! Maybe you can show the videos to your teacher -)
Its really an interesting video, sir. You made physics easy. "Physics made easy".
excellent video! such a simple, yet informative explanation!
Thank you Aisha for your kind words :-)
Physics in simplicity is just awesome!
I fully agree, that is why I do what I do ;-)
i saw the intro and knew it was gonna be a great video, thank you :-)
Glad you liked it!
I can not find a world to describe your power of teaching,
They say, the knowledge is power and I would say, your power of teaching is only comparable with the power of sun ☀️
A million thanks for being out there for physics lovers. ❤️❤️
Wow thank you Sam, for these very encouraging words! I do not know if my power of teaching is 4 x 10^26 Watts, haha, but if it can help students to avoid the pain I went through when I was a student, that is enough to make me happy!
Best explanation on the net.
Thank you :-)
@@PhysicsMadeEasy Thank you!
Just loved it man
This was a great explanation subscription earned!
I am glad you enjoyed my work! Welcome to Physics Made Easy :-)!
thanks sir..... your way of of teaching is super duper
Excellent explanation and demonstration. Kudos!
Thank you for kind word and encouragment!
Wonderful explanation, simple but accurate. Thanks.
Thank you for your kind words Minh!
Good stuff. Presented clearly and thoroughly. Not only illuminating in terms of polarised light....but heck! Never conciously occured to me that unpolorised light waves oscillate (I guess) in all directions simultaneously. (will have to watch more of your videos to get a better grasp on that : )
Thanks Sailor! You seem to like sailing. Try that:
Buy yourself a polariser (like a polarising filter for phorography). When you enjoying your freedom sailing at sea under a a shiny sun, look at the flickering reflections of the sunlight on the water waves. Then look under the polariser, and rotate it. You will see some of these reflection disappear. Welcome to the world of Brewster's angle!
Such a great and fun explanation !!
Thank you :)
Amazing video amazing all around thank you the guitar cameo was great! Such excellent material that makes things intuitive and learning deeply
Thank you Nimisha! How's your one-man show initiative going? I haven't seen any new video on your channel :-(
I loved the example
OMG, OMG, OMG. What a wonderful video!!! Thank you, sir!!!
Hi, you are warmly welcome. I am glad you enjoyed my work!
Great explanation, thank you
I love your explanation, thanks alot!!
You are welcome Moritz :-)
This is very simplified and understandable❤
I try to make Physics Easy while keeping things rigorous. Thank you for letting me know it works :-)!
Superb explanation and demonstration. Subscribed.
Thank you , and I am glad you enjoyed my work :-)
Clearly explained.. Great video.
Thank you Edro, I am glad you enjoyed it!
Thanks a lot, from a chemist at the university of Dodoma, all the way from Tanzania
Hi Mapato, thank you, greetings to you too, from the other side of the world
(Being a GenX, how far the Internet has gone remains an amazement for me. It is so common in everyday's life nowdays, that we don't realise it anymore... and take it for granted, but if you think about it, it is truely amaxing!)
Wow. Great explanation
Merci Elorm, I am glad if the video helped you understand Polarisation!
You're the best 🌟
great explanation professor thanks a lot.
You are welcome Tamer!
You are a living legend ❤️
You made it easy! Thank you!
Hey Andres, I am glad it helped you!
Thanks, Sir, for this markable effort!
You are welcome Jassim. I hope my videos help you in physics!
TY. Great tangible application with the oven rack. What I am really wondering now is how would one make a polarizer. It’s like the magic trick in this equation. ☃️🎯🔦
Well, it is like an oven rack but at a much smaller scale so that the EM wave gets impacted by the geometry of the arrangement of the molecules of the material: You take a substrat on which you stretch and align long polymeric chain.
See this process as an example: www.kentfaith.co.uk/blog/article_how-are-polarizing-filters-made_2480?srsltid=AfmBOoqIHLj092ZHepN7ESPKGeFonAlHj8-5PV1UonrZtGTHGgZCFVxW
Awesome 👌
Fantastic explanation - especially the oven rack! 😀
haha, yes it's always a lot of fun walking around the house wondering what to use out of my everyday stuff to help at the visualization of a concept. I was pretty proud of the idea of the oven rack to polarize a mechanical wave :-).
The video editing is amazing
Thank you so much, it is the most time consuming part of producing the video: I am glad you enjoyed it.
Inpressed 😮
Thank you Moulik!
Really good video. Thanks.
Excellent Information
Great sir...
i love this so much very well explained!!
Thank you Khadija
Excellent
May God bless you Sir.
I got first aware with this phenomenon from the experiment of faraday. My head was hurting how such thing was possible. It takes a special kind of talent to explain such a complicated phenomena to people who cant understand it, yet! Thank you!
Thank you for your kind words Dennis. My experience as a teacher has shown me that every students, even the weakest one, can grasp notions that are considered like difficult (for example electric potentials). Society / scholar system is very elitist, too elitist for my taste. So progressively I developed teaching strategies to render these notions accessible to all. And when I have some time, I produce a video presenting a notion for which I developed this pedagogy for my real life students. I am glad it helps you understand a little more the universe we live in!
Great video now I know about polarization
You are welcome Logan. Thx for your feedback.
i am so glad that you made this vedio. honestly it has helped alot😊
Thank you Muneeb
Very good 🙏🙏🙏🙏🙏
Wow I understood every step... Simplicity is the best way for me, some ppl speak so mechanical they lose you in just hearing the syllables in the words you don't understand😩
Hey. Thank you. I am glad you enjoyed the video.
A classroom of neurons in my brain just lost their shit for a second when you said the double arrow was oscillation 😂 im like brooooo that makes so many things make sense right now. I never learned that part so i thought the up amplitude plus the down amplitude was .. just the amplitude? 😂 Thank u!!
Glad ny video could clarify this for you Jacelyn. Amplitude is indeed the difference between max position and equilibrium position :-)
You seemed to have had an 'haha' moment. Cool feeling isn't it? Try other videos: for example, the 1-minute physics vids I made some time ago:
ruclips.net/p/PLU0ETLdKNmc6mDYvNXWDWWUPxGNkvYEtA
Thank you!
great video 👏👏
Thank you for your feedback Nicola :-)
Thank you so much for the video, I finally understood what is a plane-polarised light the day before my physics exam! They should replace all the texts in the book with this video!
Merci Shual. My video replacing text books, maybe not haha! But seeing it at as a good complement, or starting point, yes. The idea with my videos is to read the text book after seeing the video: the goal is to provide a basis of conceptual understanding so that the viewer can dig deeper by himself.
Well explained thankyou sir 👏 👍 ❤
You are welcome Chenuka :-)
Thank you sir
Awesome video thank you!
You are welcome Roma :-) I am glad you enjoyed it.
good man! thanks. very good vid and super helpful explanation. keep it up!
Thank you Harlan for the encouragement!
Amazing sir. Thanks for using your oven and guitar
My oven and my (bass) guitar let you know that you are welcome :-)
Very nice explination ❤️. Amazing video
Thank You So Much Sir 😊
You Helped me a lot
Hi Pratiksha, I am glad o be of help!
Excellent 😄❤️
I enjoyed watching.
what is ur intro music!
My own! I compose and produce all background tracks for my channel.
You can check the physics Made Easy album here: edouardreny.bandcamp.com/album/physics-made-easy-the-soundtracks
However, I didn't select 'Sirens' (the track on this video) for the album.
One of my editors placed it on spotify: open.spotify.com/track/3BSAiNq3dwtBOGcwIMcdpp?si=fb6d5b640d054026
Or if you do not have spotify, you can here it here: www.royaltyfreemusicclips.com/music-download/sirens-5014006/
wow , what an explanation
Thank you Nitesh :-)
Great.. thank u.. ❤️
You are welcome Kathir
Thanks sir
❤️ thanks a lot ❤️
very very very good video thank you!!!!
Thank you!
thanks
🙏🙏🙏 really sir
Thanks
That was a great explanation. For a polarized light why do we only talk about the electric field oscilating in one plane and not about the magetic field??
According to Maxwell equations, a fluctuation of E in space, generates a fluctuation of B in time (and vice versa) perpendicular to the plane where the electric field fluctuates. Therefore, one implies the other. The origin is actually the electric field, the magnetic field being just a consequence of special relativity. When we talk about one, we imply the other. So for simplicity, when discussing linear polarization at the level of the video, it is not really necessary to discuss the magnetic field. the latter is implied.
When EM wave are represented as a sine wave, for example, top peak represents the amplitude, what does the bottom peak represent
Hi Aamir, you should find what you need to an answer that question in my video: "What are waves?". ruclips.net/video/LoRRE2aG3AY/видео.htmlsi=alXB8FrPioNMT-hb
The amplitude is the difference between the highest position (what you call the top peak - the max y of the sine curve- which is also called a 'crest'), and the equilibrium position (y = 0). For an EM wave, it represents the maximum value of the oscillating electric field strength (check my video, what is an EM Wave)
The bottom peak (called a trough), is also a maximum displacement (in the negative direction this time). For an EM wave, it represents the maximum negative value of the electric field strength. Thus, it also also represents the amplitude.
Nice!
Thanks for this :)
Thank you for explaining this important concept so effectively and thoroughly. I have a couple of questions about polarization, especially when interacting with a surface and creating the angle of incidence equal to the angle of reflectance.
First, I'd like to understand the relationship between the direction of propagation and the direction of oscillation in an electromagnetic wave. Is the axis of oscillation always perpendicular to the direction of propagation? In other words, can an oscillation propagate horizontally while oscillating vertically in relation to the axis it travels along?
Secondly, I'm curious about what causes some reflections to come back unpolarized, such as those from bare metals (usually cross-polarisation is required to minimized direct reflection in those cases). Typically, the reflection off the surface of water is polarized, with light oscillating in a plane parallel to the surface and the detector being at the same opposite angle of the angle of incidence. In other words, the surface acts as a polarizing filter.
I appreciate any input you can provide. Thank you!
Hi, interesting questions jdr...
Hi jdr,
Question 1 : Light is a transversal wave, so the direction of oscillation is perpendicular to the direction of transfer of energy (= direction of propagation). So to your question : « can an oscillation propagate horizontally while oscillating vertically in relation to the axis it travels along? »… Yes, light always does !
Note that there are waves where the oscillation is parallel to the direction of propagation, these are called longitudinal waves. Sound in an example of such wave…
Question 2 : When a beam of light hits an interface, some of the beam reflects and some of it refracts. Such interface could be air/water for example. Both refraction and reflexion are generated by the same oscillating charges. The two beams interfere at source. When the incident light arrives at Brewster’s angle (incident angle such as reflected and refracted rays are 90 degrees apart), the interference leads to the cancellation of a component of the electric field vector (the one perpendicular to the surface). Loosing a component leads automatically to linear polarisation. So for light arriving at this angle, yes, the surface of the water acts like a polariser!
As for metal, their electronic structure does that metals do not refract light… so there cannot be any interference here, thus no polarisation of the reflected light.
@@PhysicsMadeEasy Thank You So Much! With interference, do you mean the encroachment of two or more oscillations oscillating in different planes on the same ray? As for metals, are you essentially stating that due to their structure bare metals are also reflecting light oscillating in a plane that is perpendicular to their surface along with oscillations parallel to the surface? That would make sense when cross-polarizing incoming light in that we would be selectively blocking different components of the light both at its source and at the end of the detector.
Congratulations, you did a great job in explaining the matter, an the example with the rack was brilliant. I have a question, maybe you can enlighten me. Based on my current understanding, one lens of the polarizing 3D glasses will allow the vertical polarized light to pass and the other one will allow the horizontal one. I tried to put one above the other, hoping to filter out most of the light. However, this did not happen, how should I understand this ?
If these are basic polarizing 3D glasses, all light should be stopped. But, maybe modern ones have a different way of working: there is some electronics in them that actually is synced to a signal that can make the polarisation axes of each lens flip in synchronicity with the movie...If this is true: the axis of pol between left and right may not necessarily be perpendicular in the absence of a sync signal. I am only speculating there... and I might be completely wrong, so you should check this by yourself on the web.
I Enjoyed video
Thank u, it's an interesting video and really helpful
Merci Carolina, I am happy your enjoyed my work!
How does the polarisation of light be affected by the arrangement of molecules....explaination in terms of absorbing and emitting light please....thanx
Hi David,
That would be too long to explain in one comment. Rotation of the polarisation plane by molecules is called circular birefringence. I invite you to consult this wikipedia article that is pretty good: en.wikipedia.org/wiki/Optical_rotation
Enjoy!
Thank you so much for the video, it is genius! May I ask if the electric fields of the light waves are always fluctuating in a single plane or they rotate through time? thank you so much
Hi Eduard,. Yes the polarization plane of the electric field can rotate through time (thus, through space). This is called circular polarization. More info here: en.wikipedia.org/wiki/Circular_polarization#:~:text=In%20electrodynamics%2C%20circular%20polarization%20of,the%20direction%20of%20the%20wave.