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Quote from: hamdani yusuf on 02/09/2023 13:54:48Don't you realize that the experiment in the video uses linearly polarized light, instead of circularly polarized light?Yes, of course I realised that.Quote from: hamdani yusuf on 02/09/2023 13:54:48You are confused between Circular dichroism and circular birefringence.That can't be right because circular birefringence does not, of itself explain the colours.Actually, I got CD muddled with optical rotatory dispersion (ORD).Sorry about that.But the fact that I mislabelled the phenomenon doesn't mean that I was making the wrong assumption so... Once again...Quote from: Bored chemist on 02/09/2023 13:14:17What "false assumptions" were you talking about?
Don't you realize that the experiment in the video uses linearly polarized light, instead of circularly polarized light?
You are confused between Circular dichroism and circular birefringence.
What "false assumptions" were you talking about?
Your reply indicates that you've made the same assumption.
The host seemed to expect that the results weren't widely known yet.
Steve Mould seemed to assume that optical rotation isn't affected by light frequency
Once again...Quote from: Bored chemist on Today at 13:14:17What "false assumptions" were you talking about?
Here's a picture of two clips from that video. They both show pictures from Steve Mould's video.In it, you can clearly see the different colours you get at different angles.And yet you say that he didn't expect to see different colours.Your assertion is absurd.
Quote from: Bored chemist on 02/09/2023 16:06:22Once again...Quote from: Bored chemist on Today at 13:14:17What "false assumptions" were you talking about?
Quote from: hamdani yusuf on 02/09/2023 16:59:31Your reply indicates that you've made the same assumption.No.My reply says that optical rotation is affected by wavelength.That's what ORD is.Try reading what I said a few times.
That can't be right because circular birefringence does not, of itself explain the colours.
The next video will demonstrate circular polarization using double 3D glasses.
In 3B1B's video, Steve was asked to predict the result, and he literally said nothing will happen.
Perhaps he would have if he had been given longer to think about it.
he made some implicit assumptions which he wasn't aware of
Quote from: Bored chemist on Yesterday at 13:14:17What "false assumptions" were you talking about?
Unexpected results come from false assumptions.
I pointed in the comments section about a problem with the explanation at 4:30. It says that receiving particle is accelerated perpendicular to the acceleration of the transmitting particle. But experiments with dipole antennas show that they are parallel to each other.
Quote from: hamdani yusuf on Yesterday at 13:54:48Don't you realize that the experiment in the video uses linearly polarized light, instead of circularly polarized light?
For what it's worth, I think you are right.But I don't think it matters much.At about 07:15 he gets it right.So, you can't say "He is making a false assumption", But you can say he messed up when writing his script.Congratulations! you proved he's human.
Polarizer ? How it Works: Visible Light Linear PolarizersMETHODS OF PRODUCING LINEAR POLARIZED LIGHT:There are numerous ways of developing linearly polarized light. There are three widely known mechanisms:Double refraction or birefringenceReflectionDichroism... DICHROIC ABSORPTIVE POLARIZERSAPI?s and most commercially produced polarizers are dichroic polarizers. They exhibit dichroism; the property of absorbing light that is polarized in a particular direction. A dichroic linear polarizer can be considered as having an indicated absorption and transmission axis. The transmission axis is also referred to as the ?polarizing axis.? Stretched Polyvinyl Alcohol (PVA) is most commonly used in dichroic polarizers.https://www.apioptics.com/about-api/resources/visible-light-linear-polarizer/