When a ray of light strikes the interface between two transparent materials with an angle of incidence Oincident, a portion of the light is reflected back into the first medium at an angle of Oreflect, as governed by the Law of Reflection, and a portion is transmitted into the second medium at the refracted angle of Orefract, as governed by Snell's Law. All angles are measured from the normal to the interface. For convenience, the index of refraction for a variety of materials is provided below. Materials at 20°C for light with a vacuum wavelength of 589 nm. Material benzene n Material n Material n 1.501 diamond 2.419 plexiglass 1.51 carbon disulfide 1.628 fluorite 1.434 quartz (crystalline) 1.544 carbon tetrachloride 1.461 glass (crown) 1.52 quartz (fused) 1.458 ethanol glycerine 1.361 glass (flint) 1.66 sodium chloride 1.544 1.473 ice (0°C) 1.309 zircon 1.923 water (fresh) 1.333 polystyrene 1.49 air 1.00029 Each diagram shows an incident ray that strikes the interface between two different materials that are clearly labeled, and the angle of incidence is identical for all diagrams. The resulting reflected and refracted rays are not shown, but they may be inferred based upon your knowledge of the Law of Reflection and Snell's Law. Rank the diagrams from the smallest angle of refraction to the largest angle of refraction by dragging each diagram to the appropriate position in the designated area. Smaller Angle of Refraction Grade Summary Deductions Potential Late Work % Late Potential Submissions 4% 96% 90% 86.4% Attempt(s) Remaining: 4% Deduction per Attempt detailed view water Larger Angle of Refraction water zircon plexiglass 1 4% Each diagram shows an incident ray that strikes the interface between two different materials that are clearly labeled, and the angle of incidence is identical for all diagrams. The resulting reflected and refracted rays are not shown, but they may be inferred based upon your knowledge of the Law of Reflection and Snell's Law. Rank the diagrams from the smallest angle of refraction to the largest angle of refraction by dragging each diagram to the appropriate position in the designated area. Smaller Angle of Refraction Grade Summary Deductions 4% Potential 96% Late Work % 90% Late Potential 86.4% water Larger Angle of Refraction water zircon plexiglass water water air flint glass Submissions Attempt(s) Remaining: 2 4% Deduction per Attempt detailed view 1 4%

Transcribed Image Text:

When a ray of light strikes the interface between two transparent materials with an angle of incidence Oincident, a portion of the light is reflected back into the first medium at an angle of Oreflect, as governed by the Law of Reflection, and a portion is transmitted into the second medium at the refracted angle of Orefract, as governed by Snell's Law. All angles are measured from the normal to the interface. For convenience, the index of refraction for a variety of materials is provided below. Materials at 20°C for light with a vacuum wavelength of 589 nm. Material benzene n Material n Material n 1.501 diamond 2.419 plexiglass 1.51 carbon disulfide 1.628 fluorite 1.434 quartz (crystalline) 1.544 carbon tetrachloride 1.461 glass (crown) 1.52 quartz (fused) 1.458 ethanol glycerine 1.361 glass (flint) 1.66 sodium chloride 1.544 1.473 ice (0°C) 1.309 zircon 1.923 water (fresh) 1.333 polystyrene 1.49 air 1.00029 Each diagram shows an incident ray that strikes the interface between two different materials that are clearly labeled, and the angle of incidence is identical for all diagrams. The resulting reflected and refracted rays are not shown, but they may be inferred based upon your knowledge of the Law of Reflection and Snell's Law. Rank the diagrams from the smallest angle of refraction to the largest angle of refraction by dragging each diagram to the appropriate position in the designated area. Smaller Angle of Refraction Grade Summary Deductions Potential Late Work % Late Potential Submissions 4% 96% 90% 86.4% Attempt(s) Remaining: 4% Deduction per Attempt detailed view water Larger Angle of Refraction water zircon plexiglass 1 4%

Transcribed Image Text:

Each diagram shows an incident ray that strikes the interface between two different materials that are clearly labeled, and the angle of incidence is identical for all diagrams. The resulting reflected and refracted rays are not shown, but they may be inferred based upon your knowledge of the Law of Reflection and Snell's Law. Rank the diagrams from the smallest angle of refraction to the largest angle of refraction by dragging each diagram to the appropriate position in the designated area. Smaller Angle of Refraction Grade Summary Deductions 4% Potential 96% Late Work % 90% Late Potential 86.4% water Larger Angle of Refraction water zircon plexiglass water water air flint glass Submissions Attempt(s) Remaining: 2 4% Deduction per Attempt detailed view 1 4%