As you may have learned when studying the properties of thermal energy, building
ID: 1493479 • Letter: A
Question
As you may have learned when studying the properties of thermal energy, building contractors often install double-glazed windows to prevent thermal energy ("heat") from entering/exiting the building. Although effective as insulators, such windows present interesting optical effects. In the figure, a double-glazed window comprises two identical panes of glass (ng = 1.54) separated by an air gap. If the light encounters the glass at an angle of 40.00degree with respect to the glass, find the shift in path Ax as the light enters the room. (Use n_a = 1.00)Explanation / Answer
In case of no deflection,
tan(90 - 40) = Perpendicular/ (32.0 + 25.6 + 32.0)
h = 106.78 mm
In Case of Deflection,
Using Snell's law,
1 * sin(50) = 1.54 * sin()
= 29.8 o
h1 = 32.0 * tan(29.8)
h1 = 18.33 mm
Again using Snell's law,
1.54 * sin(29.8) = 1.0 * sin()
= 50o
h2 = 25.6 * tan(50)
h2 = 30.51 mm
Again using Snll's law for second slab we can find, h3 = 18.33 mm
Total = h1 + h2 + h3
Total = 18.33 + 30.51 + 18.33 = 67.17 mm
x = 106.78 mm - 67.17 mm
x = 39.61 mm