Polarised light: Difference between revisions
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Created page with "Light from a regular sources such as sunlight and lamplight is unpolarised. This means that the oscillations of the electric and magnetic waves that make up light occur in any pl..." |
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Light from a regular sources such as sunlight and lamplight is unpolarised. This means that the oscillations of the electric and magnetic waves that make up light occur in any plane. However, by using a polariser we can only allow a certain specific orientation of these EM waves through. Therefore, polarised light is defined as EM waves that oscillate in one plane < | Light from a regular sources such as sunlight and lamplight is unpolarised. This means that the oscillations of the electric and magnetic waves that make up light occur in any plane. However, by using a polariser we can only allow a certain specific orientation of these EM waves through. Therefore, polarised light is defined as EM waves that oscillate in one plane<ref>(1) https://www.physicsclassroom.com/class/light/Lesson-1/Polarization</ref> . | ||
Here is a link to a page with a simple diagram to demonstrate ([[Polarised_light]]). | |||
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Revision as of 11:26, 23 October 2018
Light from a regular sources such as sunlight and lamplight is unpolarised. This means that the oscillations of the electric and magnetic waves that make up light occur in any plane. However, by using a polariser we can only allow a certain specific orientation of these EM waves through. Therefore, polarised light is defined as EM waves that oscillate in one plane[1] .
Here is a link to a page with a simple diagram to demonstrate (Polarised_light).