How Does Light Behave When It Strikes a Glass Plate?

In summary: Now you should be able to set up a Snell's law equation, which you can solve for θ. That might take a bit of work. (You can also just 'cheat' and plug in the answer choices--only one will satisfy the equation.)
  • #1
kevnm67
43
0

Homework Statement




A light ray in air is incident on a glass plate whose index of refraction is 1.42. The angle of refraction (transmitted angle) is one-half the angle of reflection. (Take the index of refraction in air to = 1.00).
A) Relative to the normal to the plate’s surface, what direction does the ray entering the glass bend?
a. toward the normal b. away from the normal c. neither

B) How is the reflected angle related to the incident angle?
a. 2 x the incident angle b. unrelated c. equal to the incident angle

C) What is the angle of refraction?
a. 37 b. 41 c. 45


Homework Equations



M=h'/h = -s'/s
1/f =1/s +1/s'

The Attempt at a Solution



I can't figure out part C and I am looking for some help.
 
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  • #2
According to the 2nd law of reflection, the angle of incidence is equal to the angle of reflection which means that the angle of refraction is indeed half of the angle of incidence, and if you know Snell's law the problem is all yours!
 
  • #3
Ok, so I do know Snells law and was thinking it should be 45...but is this the only angle it could be?
 
  • #4
kevnm67 said:
Ok, so I do know Snells law and was thinking it should be 45...but is this the only angle it could be?
No guessing! Set up an equation using Snell's law and solve for the angle. (You'll need a bit of trig.)
 
  • #5
Ha, no exactly sure where to start without angles. My thought is since the angle of refraction is half that of the incident angle and your working within 90 degrees, 45 degrees is the only possibility?
 
  • #6
kevnm67 said:
Ha, no exactly sure where to start without angles. My thought is since the angle of refraction is half that of the incident angle and your working within 90 degrees, 45 degrees is the only possibility?
Call the angle of refraction θ. What would be the angle of incidence in terms of θ? Write Snell's law.
 
  • #7
Doc Al said:
Call the angle of refraction θ. What would be the angle of incidence in terms of θ? Write Snell's law.

The angle of refraction is half the angle of incidence, so θ refraction is .5 θ incidence.
 
  • #8
kevnm67 said:
The angle of refraction is half the angle of incidence, so θ refraction is .5 θ incidence.
Write it this way: If the angle of refraction is θ, then the angle of incidence is 2θ.

Now you should be able to set up a Snell's law equation, which you can solve for θ. That might take a bit of work. (You can also just 'cheat' and plug in the answer choices--only one will satisfy the equation.)
 

1. How does light reflect off different surfaces?

When light hits a surface, it can either be absorbed, transmitted, or reflected. The way light reflects off a surface depends on the material and texture of the surface. Smooth, shiny surfaces like mirrors reflect light in a predictable, organized manner, while rough or uneven surfaces scatter light in different directions.

2. What is the law of reflection?

The law of reflection states that when light reflects off a surface, the angle of incidence (the angle between the incident ray and the normal) is equal to the angle of reflection (the angle between the reflected ray and the normal). This law applies to all types of surfaces, including mirrors, water, and even rough surfaces.

3. How does the angle of incidence affect the angle of reflection?

The angle of incidence and the angle of reflection are always equal, according to the law of reflection. This means that if the incident ray hits the surface at a 30-degree angle, the reflected ray will also leave the surface at a 30-degree angle. The angle of reflection is always measured from the normal, which is an imaginary line perpendicular to the surface at the point of incidence.

4. Can light be reflected more than once?

Yes, light can be reflected multiple times off different surfaces. This is known as multiple reflections or multiple scattering. For example, when light hits a mirror, it reflects off the surface and can then reflect off other nearby surfaces, creating multiple reflections.

5. How does the color of a surface affect the reflection of light?

The color of a surface affects the reflection of light in two main ways. First, the color of a surface determines how much light is absorbed, transmitted, or reflected. For example, a black surface absorbs more light than a white surface. Second, the color of a surface can also affect the wavelength of light that is reflected. For instance, a red surface reflects red light and absorbs other colors, while a blue surface reflects blue light and absorbs other colors.

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