Refraction and Its Applications

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Refraction and Its Applications Background: Snell s Law describes how light is refracted as it passes between two mediums. This happens when light travels at different speeds in each medium. The way we describe the speed of light in a medium is by using the refractive index, n. A refractive index of n= 1 means that light travels at c = 3.0 10 8 m/s, and a larger refractive index indicates that light travels at a slower speed. By the ratio below, we can figure out the angle at which a light ray traveling through one material is refracted as it enters another material: θ 1 is the angle of incidence θ 2 is the angle of refraction n 1 and n 2 are the refractive indices of mediums 1 and 2 For air, n 1. Experiment 1: Refraction between air and water Aim: To measure the refractive index of water. Materials: Plastic box Incense stick Lighter Laser Protractor Method: 1. Fill the plastic box with water up to the center of the protractors. 2. Put the cover on the box. Light the incense, insert it into the hole on the side of the box, and fill the rest of the container with smoke. This will allow you to see the path of the laser light as it travels through air. 3. Use the protractors to shine the laser beam at a 40 angle to water s surface. Make sure to measure the angle coming down from the top! (In the diagram above, we want to make θ 1 =40 ). 4. Measure the angle of refraction, θ 2, the angle made by the beam visible in the water. Record this in the results table. 1

5. Using Snell s law, calculate the ratio n 2 / n 1 from your measurements. Because n 1 = 1 for air, this will give you n 2, the refractive index of water. Record your data in the results table. 6. Repeat steps 3 and 4 for 30, 20, and 10. 7. Calculate the average refractive index. Results: incidence 40 30 20 10 refraction Refractive index n 2 = n 2 / n 1 = sin θ 1 /sin θ 2 Average: Question: The refractive index is a property of the material, so ideally each angle of incidence would give you the same refractive index. What do you think accounts for the difference between the average refractive index and your measurements for each angle? 2

Experiment 2: Determining the size of a damaged zone in an acrylic block Aim: To use a non-destructive test for measuring the size of a damaged zone in a block of acrylic. We will simulate this by using two acrylic blocks with an air gap between them. Materials: 2 Acrylic blocks Worksheet Poster board Pencil Laser Protractor 4 Pins Tape Part 1 - Finding the refractive index of acrylic Method: Instructions Diagram 1 Measure the 60 angle of incidence with the protractor to make sure it is accurate. For the 55 and 45 angles, measure and draw the angle of incidence from the dotted line. 2 Tape the worksheet to the poster board. Place the two acrylic blocks in the outline on the paper. Note: the blocks have rough sides and smooth sides. Make sure you put the smooth sides together (rough sides facing up). 3 Shine the laser parallel to the table and along the 60 line. 4 Place two pins on the path of the beam coming out the bottom side of the blocks. Draw a line from the edge of the block and passing through the two pins. 3

5 Remove the acrylic blocks. Connect the ends of the two lines you ve drawn with a third straight line. This line represents the direction the light traveled through the block. 6 Measure the angle of refraction using the line drawn in step 5. 7 Use the formula for Snell s law to calculate the refractive index. 8 Repeat steps 2-6 for 55 and 45 angles of incidence. 9 Calculate the average refractive index for the 3 angles of incidence. Results: incidence 45 55 60 refraction n 2 = n 2 / n 1 = sin θ 1 /sin θ 2 Average: Question: The refractive index of acrylic is 1.49. How did your calculation compare? What do you think might have caused your results to differ? 4

Part 2 - Determining the size of the air gap between two acrylic blocks Method: Instruction Diagram 1 Now take out the worksheet with the blocks placed a small distance apart. This simulates a damaged area inside a block of acrylic, and your goal is to figure out the size (width) of this region using the refractive properties of light. 2 Check to make sure the 60 angle of incidence is accurate. For the 55 and 45 angles, measure and draw the angle of incidence from the dotted line. 3 Place the acrylic blocks in their outlines. Shine the laser parallel to the table and along the 60 line. 4 Place two pins on the path of the beam coming out the bottom side of the blocks. Draw a line from the edge of the block and passing through the two pins. 5

5 Measure the distance between the dotted line and the point on the lower block where the light comes out. Record under Beam displacement in the results table. 6 7 Use the computer program provided by your teacher to calculate the width of the air gap. This program uses Snell s law at each of the four interfaces and calculates the expected gap width. Record this in the results table. Now, you can use a ruler to measure the actual width of the air gap. Record in the results table. 8 Repeat steps 2-7 for 55 and 45 angles of incidence. Results: incidence Beam displacement (cm) Calculated gap size (cm) Actual gap size (cm) 45 55 60 6

Calculate the percent error for each of your angles. Show your work below. Error = Actual gap size, then convert from decimal to percent Calculated gap size Actual gap size 45 55 60 Did you have any errors greater than 5%? If so, what might have caused this? 7

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