25.4 Total internal reflection

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Explain the phenomenon of total internal reflection.
Describe the workings and uses of fiber optics.
Analyze the reason for the sparkle of diamonds.

A good-quality mirror may reflect more than 90% of the light that falls on it, absorbing the rest. But it would be useful to have a mirror that reflects all of the light that falls on it. Interestingly, we can produce total reflection using an aspect of refraction .

Consider what happens when a ray of light strikes the surface between two materials, such as is shown in [link] (a). Part of the light crosses the boundary and is refracted; the rest is reflected. If, as shown in the figure, the index of refraction for the second medium is less than for the first, the ray bends away from the perpendicular. (Since $n_{1} > n_{2}$ , the angle of refraction is greater than the angle of incidence—that is, $θ_{1} > θ_{2}$ .) Now imagine what happens as the incident angle is increased. This causes $θ_{2}$ to increase also. The largest the angle of refraction $θ_{2}$ can be is $90º$ , as shown in [link] (b).The critical angle $θ_{c}$ for a combination of materials is defined to be the incident angle $θ_{1}$ that produces an angle of refraction of $90º$ . That is, $θ_{c}$ is the incident angle for which $θ_{2} = 90º$ . If the incident angle $θ_{1}$ is greater than the critical angle, as shown in [link] (c), then all of the light is reflected back into medium 1, a condition called total internal reflection .

Critical angle

The incident angle

θ_{1}

that produces an angle of refraction of $90º$ is called the critical angle,

θ_{c}

In the first figure, an incident ray at an angle theta 1 with a perpendicular line drawn at the point of incidence travels from n1 to n2. The incident ray suffers both refraction and reflection. The angle of refraction is theta 2. In the second figure, as theta 1 is increased, the angle of refraction theta 2 becomes 90 degrees and the angle of reflection corresponding to 90 degrees is theta c. In the third figure, theta c greater than theta i, total internal reflection takes place and instead of refraction, reflection takes place and the light ray travels back into medium n1. — (a) A ray of light crosses a boundary where the speed of light increases and the index of refraction decreases. That is, *$n_{2} < n_{1}$* . The ray bends away from the perpendicular. (b) The critical angle *$θ_{c}$* is the one for which the angle of refraction is . (c) Total internal reflection occurs when the incident angle is greater than the critical angle.

Snell’s law states the relationship between angles and indices of refraction. It is given by

n_{1} sin θ_{1} = n_{2} sin θ_{2} .

When the incident angle equals the critical angle ( $θ_{1} = θ_{c}$ ), the angle of refraction is $90º$ ( $θ_{2} = 90º$ ). Noting that $sin 90º =1$ , Snell’s law in this case becomes

n_{1} sin θ_{1} = n_{2} .

The critical angle $θ_{c}$ for a given combination of materials is thus

θ_{c} = {sin}^{- 1} (n_{2} / n_{1}) for n_{1} > n_{2} .

Total internal reflection occurs for any incident angle greater than the critical angle $θ_{c}$ , and it can only occur when the second medium has an index of refraction less than the first. Note the above equation is written for a light ray that travels in medium 1 and reflects from medium 2, as shown in the figure.

How big is the critical angle here?

What is the critical angle for light traveling in a polystyrene (a type of plastic) pipe surrounded by air?

Strategy

The index of refraction for polystyrene is found to be 1.49 in [link] , and the index of refraction of air can be taken to be 1.00, as before. Thus, the condition that the second medium (air) has an index of refraction less than the first (plastic) is satisfied, and the equation $θ_{c} = {sin}^{- 1} (n_{2} / n_{1})$ can be used to find the critical angle $θ_{c}$ . Here, then, $n_{2} = 1 . 00$ and $n_{1} = 1 . 49$ .

Solution

The critical angle is given by

θ_{c} = {sin}^{- 1} (n_{2} / n_{1}) .

Substituting the identified values gives

\begin{matrix} θ_{c} = {sin}^{- 1} (1.00 / 1.49) = {sin}^{- 1} (0.671) \\ 42.2º. \end{matrix}

Discussion

This means that any ray of light inside the plastic that strikes the surface at an angle greater than $42.2º$ will be totally reflected. This will make the inside surface of the clear plastic a perfect mirror for such rays without any need for the silvering used on common mirrors. Different combinations of materials have different critical angles, but any combination with $n_{1} > n_{2}$ can produce total internal reflection. The same calculation as made here shows that the critical angle for a ray going from water to air is $48 . 6º$ , while that from diamond to air is $24 . 4º$ , and that from flint glass to crown glass is $66 . 3º$ . There is no total reflection for rays going in the other direction—for example, from air to water—since the condition that the second medium must have a smaller index of refraction is not satisfied. A number of interesting applications of total internal reflection follow.

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A golfer on a fairway is 70 m away from the green, which sits below the level of the fairway by 20 m. If the golfer hits the ball at an angle of 40° with an initial speed of 20 m/s, how close to the green does she come?

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can someone explain to me, an ignorant high school student, why the trend of the graph doesn't follow the fact that the higher frequency a sound wave is, the more power it is, hence, making me think the phons output would follow this general trend?

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Follow up question, does anyone know where I can find a graph that accuretly depicts the actual relative "power" output of sound over its frequency instead of just humans hearing

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Source: OpenStax, College physics. OpenStax CNX. Jul 27, 2015 Download for free at http://legacy.cnx.org/content/col11406/1.9

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