Parallel-plate MEMS Mirror Design for Large On
... <100> silicon wafer. The 500 µm thick wafer was patterned with photoresist on the front using the mask pattern shown in Figure 1. The backside was patterned with a mask containing only the frame and the central square. The nitride was then removed from the exposed areas by a plasma dry-etch, after w ...
... <100> silicon wafer. The 500 µm thick wafer was patterned with photoresist on the front using the mask pattern shown in Figure 1. The backside was patterned with a mask containing only the frame and the central square. The nitride was then removed from the exposed areas by a plasma dry-etch, after w ...
Quiz 9
... qt = -(na/nw)pt = -(1/1.33)×15 = -11.28 cm or 11.28 cm below the water surface. Light rays from the bottom surface of the plate are refracted twice, once at the top of the plate and once at the water surface. The location of the image formed by the top surface of the plate is q1b = -(nw/ng)p1b = -(1 ...
... qt = -(na/nw)pt = -(1/1.33)×15 = -11.28 cm or 11.28 cm below the water surface. Light rays from the bottom surface of the plate are refracted twice, once at the top of the plate and once at the water surface. The location of the image formed by the top surface of the plate is q1b = -(nw/ng)p1b = -(1 ...
11.1 law of reflection and curved mirrors
... because light rays that hit a plane mirror are reflected right back along the same path That means a point on your left side is reflected off the right side of the mirror – therefore making it look like the image is reversed when it returns to your eyes ...
... because light rays that hit a plane mirror are reflected right back along the same path That means a point on your left side is reflected off the right side of the mirror – therefore making it look like the image is reversed when it returns to your eyes ...
PHYS 1111 Mechanics, Waves, & Thermodynamics
... First consider the common flat mirror to make some definitions We will call the source of light, the object (O). The object will be a point source with rays radiating in all directions (spherical waves). ...
... First consider the common flat mirror to make some definitions We will call the source of light, the object (O). The object will be a point source with rays radiating in all directions (spherical waves). ...
File
... • A light source radiates millions of light rays in all directions, but you are only concerned with the rays that actually strike the mirror and are reflected into your eyes, with the angle of incidence being equal to the angle of reflection. • In an image, the distance from the object to the mirror ...
... • A light source radiates millions of light rays in all directions, but you are only concerned with the rays that actually strike the mirror and are reflected into your eyes, with the angle of incidence being equal to the angle of reflection. • In an image, the distance from the object to the mirror ...
Physics116_L22
... All multiple choice, similar to HW problems, same format as Exam 1 •! YOU must bring a standard mark-sense (bubble) sheet ...
... All multiple choice, similar to HW problems, same format as Exam 1 •! YOU must bring a standard mark-sense (bubble) sheet ...
Reflection - TeacherWeb
... REFLECTION AND REFRACTION Reflection occurs when an object or a wave bounces back off a surface. The Law of Reflection: The angle of incidence equals the angle of reflection. ...
... REFLECTION AND REFRACTION Reflection occurs when an object or a wave bounces back off a surface. The Law of Reflection: The angle of incidence equals the angle of reflection. ...
Grade 10 Academic Science – Optics (Physics) Laboratory
... 2. Mount the plane mirror on the line. NOTE: The back edge of the mirror should be on the line. 3. Using the pencil, draw an arrow on the paper IN FRONT of the mirror. The arrow should be at an angle to the mirror. 4. Draw a small circle over the arrowhead and label it O1 5. Draw a small circle over ...
... 2. Mount the plane mirror on the line. NOTE: The back edge of the mirror should be on the line. 3. Using the pencil, draw an arrow on the paper IN FRONT of the mirror. The arrow should be at an angle to the mirror. 4. Draw a small circle over the arrowhead and label it O1 5. Draw a small circle over ...
Magic Mirror (Snow White)
The Magic Mirror is a mystical object that is featured in the story of Snow White.