What is the science behind a diamond's sparkle?

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Homework Help Overview

The discussion revolves around understanding the optical properties of diamonds, particularly why they appear brilliant and sparkly to the eye. The subject area includes concepts from optics and light refraction, specifically focusing on the high index of refraction of diamonds.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants explore the relationship between light refraction and the brilliance of diamonds, discussing the effects of the high index of refraction. Questions arise regarding the bending of light and how different colors are affected as they pass through the diamond.

Discussion Status

Some participants have provided insights into the refractive index and its impact on light behavior in diamonds, while others express confusion about the explanations given. There is an ongoing exploration of the concepts, with various interpretations of how light interacts with diamonds being discussed.

Contextual Notes

Participants mention specific formulas related to refraction and the bending of light, indicating a focus on the mathematical aspects of the problem. There is also a reference to the complexity of light behavior due to the diamond's cut and structure.

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I was asked by someone, "Why do diamonds appear brilliant to the eye?" I am having trouble coming up with a solid answer. All I could find out was it has a high index of refraction of about 2.42. I need some assistance with this.
 
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basicaly because of how much light is refracted. The diamond will redirect the light all through out it which gives it the so called fire. A higher index of refraction means more reflected light. I believe the formula is n is congruent to c over v phase
 
Tom McCurdy said:
basicaly because of how much light is refracted. The diamond will redirect the light all through out it which gives it the so called fire. A higher index of refraction means more reflected light. I believe the formula is n is congruent to c over v phase

Exactly. The term for it is cleavage.
 
two words: bling bling
 
Well i Certainly Didn't understand what you said but i will explain what i know.

basically when light moves through the diamond which does have a refactive index of 2.42 light refracts (bends).

Light is made up off all the diferent colors Red Orange Yellow Green Blue Violet Indigo .

When light moves through an object the light is bent (towards the normal which is perpendicular to the surface its hitting), but, all the different colors bend different amounts, Most of the time it isn't noticable, because the refractive index is low. But in a diamond, where the refractive index is high, the different colors bend enough to break apart the white light into a rainbow of color.

When the light exits the object it is bent again ( away from the normal) and because most cut diamonds have many diferent sides light is bent in many different directions giving it a sparkly effect.

The only basically you need to know is N1/N2 = SIN I / SIN R
Where N1 = refractive index of first substance and N2 = Refractive index of second substance, I = Incidence and R= Refraction. You can just transpose this basically around to get what you want.

Of the top of my head I think Red is refracted the most and indigo is refracted the least.
 

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