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Snell’s Law MS&T Physics 2135, Lab E5. Objectives  Verify Snell’s Law using a prism. Note: As you approach the critical angle, you may see the refracted.

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Presentation on theme: "Snell’s Law MS&T Physics 2135, Lab E5. Objectives  Verify Snell’s Law using a prism. Note: As you approach the critical angle, you may see the refracted."— Presentation transcript:

1 Snell’s Law MS&T Physics 2135, Lab E5

2 Objectives  Verify Snell’s Law using a prism. Note: As you approach the critical angle, you may see the refracted ray spread and separate into a spectrum. This is called dispersion, and it is unavoidable. You will need to make a judgment call in measuring θ C. You should justify your decision in the error analysis section of your conclusions. MS&T Physics 2135, Lab E5: Snell’s LawSlide 2/6

3 Snell’s Law: Low n to High n  When light passes from a low index of refraction into a higher one, it refracts toward a line normal to the surface of the interface.  Here, the light passes from air into the prism at the flat interface.  Note the lack of refraction at the curved interface. This is the subject of the first analysis question. MS&T Physics 2135, Lab E5: Snell’s LawSlide 3/6

4 Snell’s Law: High n to Low n  When light passes from a high index of refraction into a lower one, it refracts away from the normal.  Here, the light passes from the prism into air at the flat interface.  Note the reflected ray, and the dispersion in the refracted ray. MS&T Physics 2135, Lab E5: Snell’s LawSlide 4/6

5 Total Internal Reflection  If we increase the incident angle past θ C as seen here, the refracted ray disappears entirely.  Thus, all incident light is reflected from the interface back into the prism. Note: Be careful as you rotate the ray table; it’s fairly easy to inadvertently knock it out of alignment, as seen in this image. MS&T Physics 2135, Lab E5: Snell’s LawSlide 5/6

6 Notes on Analysis  The index of refraction of most known materials is greater than one. If you find n<1, you most likely have your angles reversed.  Remember from Physics 1135 that “error” in the sense used in today’s lab really means “uncertainty”.  In the case of measuring a length with a meterstick, the smallest marked increment is 1mm, so Δl = 1mm for a meterstick.  Similarly, Δθ here is just an estimate of how accurately you can measure θ.  In calculating Δn, you must express Δθ in radians. Otherwise, you significantly overestimate the error in your determined n.  The sign of Δn is not terribly meaningful; take the absolute value if you like. MS&T Physics 2135, Lab E5: Snell’s LawSlide 6/6

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