Theme C - Wave Behaviour
Mastering Snell's Law: The Physics of Refraction Explained
Table of content
Snell's law
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Definition: It predicts how waves bend when they pass from one medium to another.
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Formula: \(\frac {v1}{v2} = \frac {sinθ1}{sinθ2}\)
- v1 and v2 = Wave speeds in medium 1 and 2.
- θ1 and θ2 = Angles between rays and normal to the boundary.
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Did You Know? It was named after Snellius, but he wasn't the first to discover it. Ibn Sahl talked about it around 1000 CE.
Light in a vacuum
- Speed of light in a vacuum = c
- Formula: 2sinθ2\(\frac {sinθ \ vacuum}{sinθ2} = \frac {c}{v2}\)
- Refractive Index (n): n = \(\frac {c}{v2}\). This gives the slowing factor of light in a medium.
- It doesn't have a unit!
- Always > 1 when light moves from vacuum to another medium.
Refractive index part 2
Formula Twist: Using the refractive index, Snell's Law can be expressed as: \(\frac {sinθ1}{sinθ2} =\frac {n2}{n1}\)
Refraction's physics
- What’s Happening? Light energy makes electrons in materials vibrate. Unless the light's frequency matches a material's "natural frequency," the energy is re-emitted but after a delay.
- Real-world Analogy: Think of it like passing a message in a game of "Telephone". The message (light) gets slightly altered (slowed) as each person (material) takes a moment to understand and then pass it on.
- More atoms in a material = Slower light travels through it.
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Theme C - Wave Behaviour
Mastering Snell's Law: The Physics of Refraction Explained
Table of content
Snell's law
-
Definition: It predicts how waves bend when they pass from one medium to another.
-
Formula: \(\frac {v1}{v2} = \frac {sinθ1}{sinθ2}\)
- v1 and v2 = Wave speeds in medium 1 and 2.
- θ1 and θ2 = Angles between rays and normal to the boundary.
-
Did You Know? It was named after Snellius, but he wasn't the first to discover it. Ibn Sahl talked about it around 1000 CE.
Light in a vacuum
- Speed of light in a vacuum = c
- Formula: 2sinθ2\(\frac {sinθ \ vacuum}{sinθ2} = \frac {c}{v2}\)
- Refractive Index (n): n = \(\frac {c}{v2}\). This gives the slowing factor of light in a medium.
- It doesn't have a unit!
- Always > 1 when light moves from vacuum to another medium.
Refractive index part 2
Formula Twist: Using the refractive index, Snell's Law can be expressed as: \(\frac {sinθ1}{sinθ2} =\frac {n2}{n1}\)
Refraction's physics
- What’s Happening? Light energy makes electrons in materials vibrate. Unless the light's frequency matches a material's "natural frequency," the energy is re-emitted but after a delay.
- Real-world Analogy: Think of it like passing a message in a game of "Telephone". The message (light) gets slightly altered (slowed) as each person (material) takes a moment to understand and then pass it on.
- More atoms in a material = Slower light travels through it.
Unlock the Full Content!
Dive deeper and gain exclusive access to premium files of Physics SL. Subscribe now and get closer to that 45 🌟
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