In the figure below, a red laser beam is incident on a triangular prism for which all of the interior angles are equal. The index of refraction of the prism is 1.59. What is the smallest value of the angle 0 shown in the figure such that light refracts out of the prism at the right side? Provide your answer äs an integer in degrees. Hint: draw a big picturę to help with the geometry!
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- A beam of white light is incident on the surface of a diamond at an angle θa. (Figure 1) Since the index of refraction depends on the light's wavelength, the different colors that comprise white light will spread out as they pass through the diamond. For example, the indices of refraction in diamond are nred=2.410 for red light and nblue=2.450 for blue light. Thus, blue light and red light are refracted at different angles inside the diamond, as shown in the picture. The surrounding air has nair=1.000. Note that the angles in the figure are not to scale. Now consider θc, the angle at which the blue refracted ray hits the bottom surface of the diamond. If θc is larger than the critical angle θcrit, the light will not be refracted out into the air, but instead it will be totally internally reflected back into the diamond. Find θcrit.Note: this is not a writing assignment which will violate your honor code. THis is simply just a question that I wanted to clarify. So please if you do have any idea, just please answer my quesry. Query: what is the relationship between the incident angle of light with respect to the index of refraction of a triangular prism? can someone help me. I am becoming more confused. like if the overall index of refraction of a prism is smaller regardless of how small the angle of incidence it still will be refracted. and the greater the index of refraction there are instances when the smaller the angle of incidence such as 30 degrees no refraction of light will occur? This hypothesis was based on my observation with my performed simulation. Can someone answer this. Please. would mean a lot. thanksProblem 1: In the ray diagram shown below (angles not to scale), the ray is incident a the critical angle on the interface between materials 2 and 3. Angle = 60.0°, and two of the indexes of refraction are n₁ = 1.70 and n2 = 1.60. (a). What is the index of refraction n3? (b). What is the angle 0? (c). If decreased, does light refract into material 3? N2 nz n1 Ө
- A beam of light is incident from a liquid on the surface of transparent solid. The angle of incidence is 30°and the angle of refraction is 18°. Draw clear physics diagram of the problem – one for each part of the problem (3 total). label relevant angles. Find the critical angle for this solid when it is surrounded by the liquid. What is the angle between the reflected and refracted rays when the angle of incidence is 3°less than the critical angle?White light is incident onto a 30° prism at the 40° angle shown in the figure. Violet light emerges perpendicular to the rear face of the prism. The index of refraction of violet light in this glass is 2.0% larger than the index of refraction of red light. (Figure 1) Figure White light 40⁰ 30° 1 of 1 Part A At what angle does red light emerge from the rear face? Express your answer with the appropriate units. 6 = ☐ O μA Value Submit Request Answer < Return to Assignment Units Provide Feedback ?A beam of light is incident upon a stack of four flat transparent materials with indices of refraction of n1 =1.8, n2 =1.5 , n3 =1.3 , and n4 =1.2, see figure. a. If θ1 is 29o, what angle θ2 does the beam make to the normal when in emerges into the air after passing through the entire stack? b. What must the incident angle θ1 be to have total internal reflection at the surface between medium n4 and n?
- A ray of red light in air (=650 nm) is incident on a semicircular block of clear plastic (n = 1.51 for this light), as shown above. The ray strikes the block at its center of curvature at an angle of incidence of 27°. Part of the incident ray is reflected and part is refracted at the first interface. On paper, print or redraw the figure seen. A. Determine the angle of reflection at the first interface. Draw and clearly label the reflected ray on the diagram. B. Determine the angle of refraction at the first interface. Draw and clearly label the refracted ray on the diagram. C. Determine the speed of the light in the plastic block. D. Determine the wavelength of the light in the plastic block. E. The light exits the plastic through the semicircular side. Draw in the ray showing the light exiting back into the air. If any, what will the angle change be as it enters the air? Justify.Light travels from air into a fluid which has a refractive index of 1.55. The angle of incidence is 41o.a)Calculate sin of the angle of incidence. Give your answer to 3 decimal places and use it to this accuracy in any subsequent calculations, if needed. Hint: make sure your calculator is on degrees (not radians or grads). b)Calculate the angle of refraction (in degrees). Take the index of refraction of air as 1.Make sure you do all working to at least 3 decimal places. Give your answer to 1 decimal place. c)Light travels out of the fluid into air at the critical angle. What is the angle of refraction (in degrees)? Give your answer as a whole number. d)Calculate the critical angle (in degrees). Give your answer to 1 decimal place.The prism in the figure below is made of glass with an index of refraction of 1.72 for blue light and 1.67 for red light. Find 8p, the angle of deviation for red light, and &g, the angle of deviation for blue light, if white light is incident on the prism at an angle of 30.0°. (Enter your answers in degrees.) HINT 30.0° White light dB 60.0° (a) SR, the angle of deviation for red light (b) BI the angle of deviation for blue light