Here is a figure that shows a light ray that is H=23cm parallel to and above the ground.
The light ray goes through a medium with an index of refraction of n1=1.2, and some of it reflects and some of it refracts.
The refracting part goes into a medium with an index of refraction of n2=1.5.
If the angle ? = 30 degrees:
What is the distance between point A and point B (in cm)?
What is the angle between the refracted and reflected rays?
Here is a figure that shows a light ray that is H=23cm parallel to and above...
An incident ray coming from the left with height H-23cm travels through medium with index of refraction ni-1.2, and part of it is reflected while the other is refracted into a medium with index of refraction n2-1.5. If a is 30° Find the distance between A & B Find the angle between the reflected & refracted rays. Reflected Ray Incident Ray n2 Rfred Ray ni
Question 2 20 points A ray of light from air is incident on the surface of the water and is reflected and refracted. If the angle of refraction is 30° and the index of refraction for water is 1.33 what is the angle in degrees between the reflected and refractad rays?
The drawing shows a ray of light traveling through three materials whose surfaces are parallel to each other. The refracted rays (but not the reflected rays) are shown as the light passes through each material. A ray of light strikes the a–b interface at a 50.0˚ angle of incidence. The index of refraction of material a is na = 1.20. The angles of refraction in materials b and c are, respectively, 38.7˚ and 58.1˚. Find the indices of refraction in...
In thin film interference, an (a) incident wave reflects off of the front interface of the thin film and (b) refracts into the thin film.This refracted wave then (c) reflects off of the back interface of the thin film yet also (d) transmits through the film.This reflected wave then (e) refracts back through the front interface of the thin film in order to interfere with the wave that initially reflected off of the front interface.Apply the Fresnel equations that we...
The drawing shows a ray of light traveling through three materials whose surfaces are parallel to each other. The refracted rays (but not the reflected rays) are shown as the light passes through each material. A ray of light strikes the a–b interface at a 50.0˚ angle of incidence. The index of refraction of material a is na = 1.20. The angles of refraction in materials b and c are, respectively, 44.0˚ and 53.5˚. Find the indices of refraction in...
The drawing shows a ray of light traveling through three materials whose surfaces are parallel to each other. The refracted rays (but not the reflected rays) are shown as the light passes through each material. A ray of light strikes the a-b interface at a 50.0 degree angle of incidence. The index of refraction of material a is n_a = 1.20. The angles of refraction in materials b and c are, respectively, 45.0 degree and 56.7 degree. Find the indices...
When a light ray travels from a more dense medium to a less dense medium and the light ray intercepts the interface at some angle, the light ray will be deviated away from the normal to the interface. When the angle of the incident light ray is equal or greater than some critical angle , the light ray will be bent away from the normal unit the angle of refraction becomes 90, and total internal reflection occurs. The critical angle, , for two...
A Ray of light is incident on an equilateral triangle parallel to its base as shown in the figure below. a) What is the index of refraction of the prism if the angle between the incident ray and the emergent ray is 40 degrees? [1 point) b) Identify the the medium filling the prism [1 point) Type your answers in the same box separated by a coma (e.g. Ans-a, Ans-b) Incident roy Emergent roy
Polarizers can be made based on the principle of Brewster angle. In Fig. 2, a light ray (with 50% s-polarized light and 50% p-polarized light) s incident from material 1 (n! 1.33) on a flat layer of material 2 that has an index of refraction n2-1.5. Beneath material 2 is material 3 with an index of refraction n3 - 1.0. The ray of light reflected into material I happens to be the linearly polarized light. (a) What is the angle...
Light of wavelength 500nm traveling in air is incident along the normal on Face A of a 60-60-60 glass prism of refractive index 1.52, as shown in the figure. a) The refracted ray is incident to Face B. Calculate the angle of incidence of the ray, the angle of refraction of the refracted ray (if any) and the angle of reflection of the reflected ray. Draw the rays. b) The reflected ray at Face B is incident on Face C....