What Causes the Colorful Effects in Polarised Light Waves?

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The colorful effects observed in polarized light waves when passing through a mixture of milk and water are attributed to the Tyndall Effect and diffraction caused by the colloidal suspension of milk particles. These tiny globules of butterfat scatter light, leading to variations in color similar to oil on water. When light interacts with particles smaller than its wavelength, Rayleigh Scattering occurs, which results in blue light being polarized at right angles to the incoming rays. This phenomenon explains why the light beam appears colored when viewed through a polarized lens. Understanding these interactions enhances comprehension of light behavior in colloidal mixtures.
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Heres a quick question: while conducting an experiment to demonstrate the effect of polarising light waves, i noticed a strange effect. The lecturer used milk and water mixed in a container with a light shining through, allowing the light beam to show. When we looked at the beam from the side, through a polarised lense, the light beam appeared to be coloured, like the surface of oil. I guess this is something to do with defraction, but when i asked the lecturer he did not know how it happened. Can someone explain how this happens.
 
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When the particles are much smaller than the wavelength, we have Rayleigh Scattering. In this case, the energy of the scattered waves is strongly dependent on the particle size, hence the colour. In the direction at right angles to the incoming rays, the light should be blue and polarised, like the sky.
 
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