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1. A beam of light shines into a liquid. The angle of incidence is 31°. The angle of refraction is 22° as shown opposite. a. Use Snell's law to calculate the refractive index of the liquid. b. Calculate the angle of refraction, 6₂, when the angle of incidence is 45°. air liquid 319 220

1. A beam of light shines into a liquid. The angle of incidence is 31°. The angle of refraction is 22° as shown opposite. a. Use Snell's law to calculate the refractive index of the liquid. b. Calculate the angle of refraction, 6₂, when the angle of incidence is 45°. air liquid 319 220

College Physics
College Physics
11th Edition
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Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
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Snell's Law Working with the speed of light is not always practical. It is often better to measure the angle of incidence, 0, and the angle of refraction, 0₂, as shown opposite. The refractive index is given by Snell's law, 2. Sin(0,) Sin(8₂) A beam of light shines into liquid. The angle of incidence is 31°. The angle of refraction is 22° as shown opposite. Use Snell's law to calculate the refractive index of the liquid. b. Calculate the angle of refraction, 0,, when the angle of incidence is 45°. A light ray passes from air into glass. Calculate the angle of refraction, 8,, when the angle of incidence is 40°. (Use the n value above.) plass b. Calculate the angle of refraction, 6₂, when the angle of incidence is 20°. air glass air liquid 01 310 229
Transcribed Image Text:Snell's Law Working with the speed of light is not always practical. It is often better to measure the angle of incidence, 0, and the angle of refraction, 0₂, as shown opposite. The refractive index is given by Snell's law, 2. Sin(0,) Sin(8₂) A beam of light shines into liquid. The angle of incidence is 31°. The angle of refraction is 22° as shown opposite. Use Snell's law to calculate the refractive index of the liquid. b. Calculate the angle of refraction, 0,, when the angle of incidence is 45°. A light ray passes from air into glass. Calculate the angle of refraction, 8,, when the angle of incidence is 40°. (Use the n value above.) plass b. Calculate the angle of refraction, 6₂, when the angle of incidence is 20°. air glass air liquid 01 310 229
3 4. A light ray passes from air into water Calculate the angle of refraction when the angle of incidence is 40°, d. b. Calculate the angle of refraction when the angle of incidence is 20°. The diagram opposite shows the apparatus used by some physics students to investigate Snell's law. A laser light beam is shone through a semi-circular glass block. You have to show how the angle of incidence. e, and the angle of refraction, 0, are related. The students shine the laser beam at vanaus angles of incidence to obtain the data below, b. 15 sin(8) sin(0) 0.07 0.26 30 45 60 32 0.48 0.53 39 0.97 90 1.00 0.66 Why do we need to calculate values for sin(,) and sin(0) (instead of simply using 4, and 0,)? Hence calculate the refractive Index of the glass. Plot a graph of sin (6) against sin (8₂) with sin (8) on the vertical axis. What feature of the graph can be used to obtain the refractive index of the glass?
Transcribed Image Text:3 4. A light ray passes from air into water Calculate the angle of refraction when the angle of incidence is 40°, d. b. Calculate the angle of refraction when the angle of incidence is 20°. The diagram opposite shows the apparatus used by some physics students to investigate Snell's law. A laser light beam is shone through a semi-circular glass block. You have to show how the angle of incidence. e, and the angle of refraction, 0, are related. The students shine the laser beam at vanaus angles of incidence to obtain the data below, b. 15 sin(8) sin(0) 0.07 0.26 30 45 60 32 0.48 0.53 39 0.97 90 1.00 0.66 Why do we need to calculate values for sin(,) and sin(0) (instead of simply using 4, and 0,)? Hence calculate the refractive Index of the glass. Plot a graph of sin (6) against sin (8₂) with sin (8) on the vertical axis. What feature of the graph can be used to obtain the refractive index of the glass?
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