Transcript Snell`s Law
Snell's Law By: Brown Sugar, Oatmeal, and Skim Milk* aka Ali Rangwala, Apoorva Sharma, and Zachary Praiss *All parts of a healthy breakfast. Purpose Investigate the relationship between theangle of incidence and the angle of refraction for an air-plastic and an air-water interface. Angles Normal Line Angle of Incidence θi θr Angle of Refraction Semi-Chords Normal Line Incident Semi-Chord Di Dr Refracted Semi-Chord Hypothesis We predicted that the angle of refraction would be directly proportional to the angle of incidence. Equipment - Laser Semicircular water container Plaster semicircle Reference circle Protractor Ruler Setup Angle of Incidence Angle of Refraction Air-Plastic Apparatus Laser Plastic Air-Water Apparatus Laser Water Procedure 1. Set up apparatus as shown. 2. Shine laser beam at an angle of 0° from the normal line. 3. Record position of refracted beam on circle. 4. Repeat for 10°, 20°, 30°, 40°, 50°, 60°, 70°, and 80°. 5. Measure angles of refraction and semichords of incidence and refraction. Raw Data Air → Plastic Air → Water Data Tables Mathematical Analysis: Air→Plastic Semi-Chord of Incidence → Di Semi-Chord of Refraction → Dr Dr ∝ Di Dr = kDi k = ΔDr/ΔDi k = 0.652 (From Logger Pro) Dr = 0.652 Di Mathematical Analysis: Air→Water Semi-Chord of Incidence → Di Semi-Chord of Refraction → Dr Dr ∝ Di Dr = kDi k = ΔDr/ΔDi k = 0.7414 (From Logger Pro) Dr = 0.7414 Di Mathematical Analysis: Air→Plastic Angle of Incidence → θi Angle of Refraction → θr sin(θr) ∝ sin(θi) sin(θr) = k sin(θi) k = Δsin(θr)/Δsin(θi) k = 0.6655 (From Logger Pro) sin(θr) = 0.6655 sin(θi) Mathematical Analysis: Air→Water Angle of Incidence → θi Angle of Refraction → θr sin(θr) ∝ sin(θi) sin(θr) = k sin(θi) k = Δsin(θr)/Δsin(θi) k = 0.7504 (From Logger Pro) sin(θr) = 0.7504 sin(θi) Error Analysis for Semi-Chord's index of Refraction Semi-Chords Plexiglass Absolute Error = |ACC - EXP| Absolute Error = |1.51 – 1.53| Absolute Error = 0.02 Relative Error = (Absolute Error) / ACC Relative Error = (0.02) / 1.51 Relative Error = 1.32% Semi-Chords Water Absolute Error = |ACC - EXP| Absolute Error = |1.33 – 1.35| Absolute Error = 0.02 Relative Error = (Absolute Error) / ACC Relative Error = (0.02) / 1.33 Relative Error = 1.50% Error Analysis for Sin(θ)'s Index of Refraction Plexiglass Absolute Error = |ACC - EXP| Absolute Error = |1.51 – 1.50| Absolute Error = 0.01 Relative Error = (Absolute Error) / ACC Relative Error = (0.01) / 1.51 Relative Error = 0.662% Water Absolute Error = |ACC - EXP| Absolute Error = |1.33 – 1.33| Absolute Error = 0 Relative Error = (Absolute Error) / ACC Relative Error = (0) / 1.33 Relative Error = 0% Sources of Error Inaccuracies while tracing the laser and measuring the angles. Impurities in the water and the plexiglass varying from typical plexiglass causing the light to travel at a different speed through those materials. Plastic container of water slightly refracted the water for the trials involving the angle of refraction for water. Conclusion k = n1/n2 where n is specific indices of refraction for specific materials sin(θr) = k sin(θi) sin(θr) = n1/n2 sin(θi) n1sin(θ1) = n2sin(θ2) → General Model where n is the index of refraction or the ratio of the speed with which light travels through a vacuum over the speed light travels through a given medium. Ray Diagram Normal Line Angle of Incidence θi θr Angle of Refraction THE END