Why don't dispersion occur in glass blocks?

In summary, The question being discussed is why dispersion occurs in a glass prism but not in a glass block despite the same angle of incidence. The explanation is that dispersion is caused by the different speeds of different colored light in glass, and this phenomenon also occurs in a glass block, but it is difficult to observe. The reason for this difficulty is that when light passes through a parallel slab, the outgoing beam is parallel to the incoming beam but is slightly displaced due to dispersion within the slab. On the other hand, a prism gives each frequency a different exit angle, making the dispersion more visible. However, in a non-parallel slab, the direction change is reversed, making the effect less noticeable.
  • #1
Latrommi
2
1
This question bothered me for some time.

From what i have seen in textbooks, dispersion occurs as soon as white light passes from air into a glass prism, but why not for a glass block, assuming that the angle of incidence is the same?

The standard answer for why dispersion happens in glass prism is because of the different speeds of different coloured light in glass, so why is there a difference between a glass block and a glass prism? :confused:
 
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  • #2
Latrommi said:
, so why is there a difference between a glass block and a glass prism? :confused:
There is no difference. Dispersion does not depend upon shape of the glass.
 
  • #3
Silly me.

Yes, it does happen in a glass block, except the phenonmenon is very difficult to observe. A more detailed explanation is given here:

http://www.physlink.com/Education/AskExperts/ae184.cfm

Thks for replying anyway.
 
  • #4
The back side, which is parallel to the front side, reverses the effect.
 
  • #5
Gonzolo said:
The back side, which is parallel to the front side, reverses the effect.
Not exactly. When light passes through a parallel slab the outgoing beam is parallel to the incoming beam, but its exit point is displaced a bit from its entrance point. Due to dispersion within the slab, each frequency is displaced slightly differently.

Of course a prism gives each frequency a different exit angle, so it's much easier to see the dispersion. (Check out the link that Latrommi posted; it's not bad.)
 
  • #6
I totally agree, but this displacement also happens with non-parallel faces. It is the effect of direction change that is critical here, and that gets reversed with a slab.
 

Related to Why don't dispersion occur in glass blocks?

1. Why does light not disperse when passing through a glass block?

Dispersion occurs when different wavelengths of light are refracted at different angles, causing them to separate and create a rainbow effect. In glass blocks, the refractive index is uniform, meaning that all wavelengths of light are refracted at the same angle, leading to no dispersion.

2. How does the atomic structure of glass prevent dispersion?

Glass is an amorphous solid, meaning that its atoms are not arranged in a regular lattice like crystalline solids. This lack of structure causes all wavelengths of light to be refracted at the same angle, preventing dispersion.

3. Is it possible to create dispersion in glass blocks?

Yes, it is possible to create dispersion in glass blocks by introducing impurities or altering the composition of the glass. For example, adding lead to glass can increase its refractive index and create dispersion.

4. Why do some materials, like water, exhibit dispersion while others, like glass, do not?

The amount of dispersion a material exhibits depends on its refractive index and how much it varies with different wavelengths of light. Materials with a high and varying refractive index, like water, will have more dispersion than materials with a uniform refractive index, like glass.

5. Can glass blocks be made to disperse light?

Yes, through methods such as doping or using materials with varying refractive indices, glass blocks can be made to disperse light. However, this may alter other properties of the glass and is not commonly used in everyday applications.

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