Refraction Lesson On Optician works

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What is the index of refraction?

- The index of refraction tells us how much a given material will slow down and change the direction of a ray of light passing through it. - The index of refraction is a numerical representation of how much a specific material will slow the speed of light when it is traveling through it. - The amount of reduction is based on a relationship between the speed of light in air and the speed of light in the given material.

As the index of refraction goes up, what happens to the speed of light?

As the index goes up the speed goes down.

What is the speed of light passing through CR -39 and its index of refraction?

CR-39 = 1.498 Speed of light in CR-39 = 124,165 Polycarbonate = 1.586 Speed of light in polycarbonate = 117,276 High index plastic = 1.66 Speed of light in high index plastic 1.66 = 112,048

Example of how to calculate index of refraction in crown glass.

For example: The index of refraction in crown glass is 1.523. - We can know that for sure if we know the speed at which light travels through the material crown glass. - If I tell you that light travels through crown glass at 122,127 mile per second (mps) then you can plug it into the formula and find the index of refraction: n = speed of light in crown glass Divided by the speed of light in air So n = 186,000 / 122,127 = 1.523 Crown glass has an index of refraction of 1.523 To use the formula in reverse or when you have the index of refraction but need the speed of light in the material divide 186,000 by the index you have. Speed of light when passing through some common lens materials CR-39 = 1.498 Speed of light in CR-39 = 124,165 186,000 / 1.498 = 124,165 186,000 / 124,165 = 1.498 Trivex = 1.532 Speed of light in Trivex = 121,409 Polycarbonate = 1.586 Speed of light in polycarbonate = 117,276 High index plastic = 1.66 Speed of light in high index plastic 1.66 = 112,048 Note how as the index goes up the speed goes down.

What is the speed of light passing through high index plastic and its index of refraction?

High index plastic = 1.66 Speed of light in high index plastic 1.66 = 112,048

How does a higher index material affect prism?

If the material is in the form of a prism (a lens), not only will the light slow, it will also bend. The higher the index the more bending will take place in less material.

What is the speed of light passing through crown glass and its index of refraction?

Light travels through crown glass at 122,127 mile per second (mps) Crown glass has an index of refraction of 1.523

What is the speed of light passing through Polycarbonate and its index of refraction?

Polycarbonate = 1.586 Speed of light in polycarbonate = 117,276

What is the relationship between index of refraction and lens power?

The higher the index or "n" the thinner a lens can be and produce the same power.

How is the index of refraction expressed?

The index of refraction is expressed by: "n".

What is the formula for index of refraction?

The index of refraction, 'n' is based on a formula, which divides the speed of light in air by the speed of light in a given medium. The speed of light in air is 186,000 miles per second. For the purposes of dispensing, all "n" (index) values are calculated based on this fact. n = index of refraction n = speed of light in air - always 186,000/ speed of light in a material

What is the speed of light passing through CR -39 and its index of refraction?

Trivex = 1.532 Speed of light in Trivex = 121,409

What is the speed of light passing through Trivex and its index of refraction?

Trivex = 1.532 Speed of light in Trivex = 121,409

Does a higher index slow the light more than one with a lower index.

Yes A material with a higher index of refraction will slow the light more than one with a lower index.


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