physics - 7 - waves - light€¦ · sound _____ light _____ change in frequency change in frequency...
TRANSCRIPT
![Page 1: Physics - 7 - Waves - Light€¦ · Sound _____ Light _____ Change in Frequency Change in Frequency Pitch Color. Frequency and Light. Speed of Electromagnetic Waves In a vacuum All](https://reader035.vdocuments.site/reader035/viewer/2022071005/5fc2fedde4f11e0cc50ed498/html5/thumbnails/1.jpg)
WAVES - LIGHTIB PHYSICS | UNIT 7 | WAVES - LIGHT
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Light and the EM SpectrumIB PHYSICS | UNIT 7 | WAVES - LIGHT
7.1
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Frequency and Light
Sound _______
Light _______
Change in Frequency
Change in Frequency
Pitch
Color
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Frequency and Light
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Speed of Electromagnetic Waves
In a vacuum All electromagnetic waves travel at:
c = 3.00 × 108 m s-1
c = 299,792,458 m s-1
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Speed of Electromagnetic Waves
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Try this…
The sun is roughly 149,600,000 km from Earth, how long has the light from the sun
been traveling before it gets here?
𝑡 =𝑣
𝑑=149,600,000,000 m
3.00 × 108 m s−1
𝑡 = 499 s = 8.31 min
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Light Equation
You already know the wave speed equation
v = f λ
Works the same for electromagnetic waves
c = f λ
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Electromagnetic Waves
Transverseor
Longitudinal
? ?
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Electromagnetic Spectrum
Visible light is just part of the picture…
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Try this…
How far between antinodes of a 2450 MHz standing wave in a microwave?
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Electromagnetic Spectrum
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Not everything makes it to Earth
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Gamma Rays
Wavelength: 10-12 m | 1 pm
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X-Rays
Wavelength: 10-10 m | 10 nm
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Ultraviolet
Wavelength: 10-8 m | 10 nm
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Visible Light
Wavelength: 0.5 × 10-12 m | 500 nm
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Infrared
Wavelength: 10-5 m | 0.01 mm
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Microwaves
Wavelength: 10-2 m | 1 cm
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Radiowaves
Wavelength: 103 m | 1 km
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Wireless Data Transfer
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Wireless Data Transfer
• Garage door openers, alarm systems, etc: 40MHz• Baby monitors: 49MHz• Radio controlled toys: 27-75MHz• Cell phones: 824-849MHz, 869-894MHz, 1850-1990MHz• Public safety (fire, police, ambulance): 849-869MHz • Global Positioning System: 1.227-1.575MHz• Satellite radio: 2.3GHz• WiFi/802.11b/g and Bluetooth: 2.4GHz• Microwave ovens: 2.4Ghz • TV: 54-216 (VHF 2-13), 470-806MHz (UHF 14-69)
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Can you name them? You should.
A Radio
B Microwaves
C Infrared
D Visible
E Ultraviolet
F X-Rays
G Gamma
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Wavefronts
The farther you get from
the source, the wave is
spread out over more
area and the intensity
(amplitude) drops.
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Amplitude and Intensity
𝐼 ∝ 𝑥−2
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Amplitude and Intensity
How much brighter is a light if you go from 21 meters away to 7 meters away?
𝐼 ∝ 𝑥−2
3x Closer
9x Brighter
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Amplitude and Intensity
How much quieter does it get if you move from the front of the stage (5 meters away) to sit farther back (20 meters away)?
5 m away
20 m away
4x Further Away
1/16 of the Intensity
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IB Physics Data Booklet
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Reflection & RefractionIB PHYSICS | UNIT 7 | WAVES - LIGHT
7.2
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Warm Up #1
What is the wavelength of a 5.0 × 109 Hz microwave?
What is the frequency of a radio wave with a wavelength of 24 meters?
c = 3.00 × 108 m s-1
𝑐 = 𝑓𝜆 𝜆 =𝑐
𝑓=3.00 × 108
5.0 × 109= 0.06 m
𝑓 =𝑐
𝜆=3.00 × 108
24= 12,500,000 Hz
= 12.5 MHz
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Warm Up #2
A Radio
B Microwaves
C Infrared
D Visible
E Ultraviolet
F X-Rays
G Gamma
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Reflection
Angle of ______________ = Angle of _______________Incidence Reflection
Normal Line (⟂ to surface)
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Reflection
Virtual
Image
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Predict
Can this person see their feet in the mirror?
NoIf the angle of reflection equals the
angle of incidence, the light can never
reflect from their feet into their eyes
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“Full Length” Mirrors
How do I use the reflections off of a mirror to see my full reflection?What parts of the mirror are being used? Does it change
45 cm
207 cm
Same mirror size
and placement for
any distance
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Not every surface is a flat mirror
Even surfaces that seem nice and flat are often textured
Diffuse Reflection
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Retro-reflective Mirrors
Light always reflects directly back to the source
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Retro-reflective Mirrors
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Colors
We perceive colors in objects depending on how different wavelengths are reflected
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Refraction
Bends because of a change in medium
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Speed of Light
In a vacuum all electromagnetic waves travel at:
c = 299,792,458 m/s = 3.00 × 108 m/s
Light slows down when it travels through different mediums
Air 2.999 × 108 m s-1
Water 2.256 × 108 m s-1
Glass 1.974 × 108 m s-1
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Index of Refraction → n
Vacuum 3.00 × 108 m s-1 1
Air 2.999 × 108 m s-1 1.0003
Water 2.256 × 108 m s-1 1.33
Glass 1.974 × 108 m s-1 1.52
𝑛1𝑛2
=𝑣2𝑣1
1.52
1=
3.00 × 108
1.974 × 108
~ 1
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Try This
How fast does light travel through cubic zirconia (n = 2.15)?
1
2.15=
𝑣23.00 × 108
𝑛1𝑛2
=𝑣2𝑣1
𝑣2 = 1.40 × 108 m s−1
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Refraction Boundary
n = 1
n = 1.33
Bends toward the most
optically dense medium
normal line
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Snell’s Law
n1
n2θ2
θ1
𝑛1𝑛2
=𝑠𝑖𝑛𝜃2𝑠𝑖𝑛𝜃1
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Snell’s Law - Relationship
What’s the relationship between index of refraction (n) and the amount that light bends?
Water
n = 1.33
Glass
n = 1.52
Air
n = 1
Water
n = 1.33
Air
n = 1
Larger difference
in index means
more bending at
boundary
More to less
optically dense
will bend away
from normal
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IB Physics Data Booklet
𝑛1𝑛2
=𝑠𝑖𝑛𝜃2𝑠𝑖𝑛𝜃1
=𝑣2𝑣1
𝑛1𝑛2
=𝑣2𝑣1
𝑛1𝑛2
=𝑠𝑖𝑛𝜃2𝑠𝑖𝑛𝜃1
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Try This
θ2
80°While aiming at a marble at the bottom of a fish tank filled with water (n2 = 1.33), you point so that you can measure the angle of your incident rays. What is the angle of refraction?
Where does it “appear” the marble is?
𝑛1𝑛2
=𝑠𝑖𝑛𝜃2𝑠𝑖𝑛𝜃1
𝜃2 = 𝑠𝑖𝑛−11sin(80°)
1.33= 𝟒𝟕. 𝟖°
n1 = 1
n2 = 1.33
𝜃2 = 𝑠𝑖𝑛−1𝑛1𝑠𝑖𝑛𝜃1
𝑛2
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Critical Angle & PolarizationIB PHYSICS | UNIT 7 | WAVES - LIGHT
7.3
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IB Physics Data Booklet
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Warm Up
If the light travels from air to diamond (n = 2.42) at an angle of incidence of 34°, find the angle of refraction.
𝑛1𝑛2
=𝑠𝑖𝑛𝜃2𝑠𝑖𝑛𝜃1
𝜃2 = 𝑠𝑖𝑛−11sin(34°)
1.33= 𝟏𝟑. 𝟒°
𝜃2 = 𝑠𝑖𝑛−1𝑛1𝑠𝑖𝑛𝜃1
𝑛2n1 = 1
n2 = 2.42
34°
θ2
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Critical Angle
Critical Angle:
n2 = 1
n1 = 1.33
θcAngle at which θ2 = 90° so light does not escape
θ2 = 90°
θc
Beyond the critical angle → total internal reflection
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Critical Angle
𝑛1𝑛2
=𝑠𝑖𝑛𝜃2𝑠𝑖𝑛𝜃1
n2 = 1
n1 = 1.33
𝜃1 = 𝑠𝑖𝑛−1𝑛2𝑠𝑖𝑛𝜃2
𝑛1
𝜃𝑐 = 𝑠𝑖𝑛−1𝑛2𝐬𝐢𝐧(𝟗𝟎°)
𝑛1= 𝑠𝑖𝑛−1
𝑛2𝑛1
Note: this only happens when transitioning from more dense to less dense
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Why does it matter?
Snell’s Circle
Total Internal
Reflection
Fiber Optic Cables for transmitting
information with light
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Try This
n2 = 1
n1 = 1.52
What’s the critical angle between glass and air?
θc
1.52
1=sin(90°)
𝑠𝑖𝑛𝜃𝑐𝜃𝑐 = 𝑠𝑖𝑛−1
1
1.52= 𝟒𝟏. 𝟏°
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Light is a Transverse Wave
This isn’t the whole story though…
When unpolarized, light can
be thought of as oscillating
at every perpendicular to
the wave’s motion Diagram of a light ray
coming out of the page
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Light is a Transverse Wave
Unpolarized light loses 50%
intensity when passing
through a polarizer
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Polarized Light
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Malus’ Law
𝑰 = 𝑰𝟎 𝒄𝒐𝒔𝟐𝜽I0
I
θ
θ = angle between filters
𝑰 = 𝑰𝟎 (𝒄𝒐𝒔𝜽)𝟐
Same thing as
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IB Physics Data Booklet
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Loses Intensity Twice
-50%
50% loss when
unpolarized light
is polarized
Equation calculates
loss through
subsequent filters𝐼 = 𝐼0 𝑐𝑜𝑠
2𝜃
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Try This
The intensity of plane polarized light, at 40° to the vertical is I0. After passing through an analyzer at 60° to the vertical, what is the intensity measured?
𝜃 = 60° − 40° = 20°
𝐼 = 𝐼0 𝑐𝑜𝑠2 20° = 0.883 𝑰𝟎
88.3% of the
original intensity
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This isn’t the only way
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What about 3D Movies?
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Try This
Polarized light of intensity I0 is incident on a polarizing filter. The angle between the plane of polarization of the incident light and the transmission plane of the polarizer is θ. Which graph shows how the intensity I of the light transmitted through the polarizer varies with θ?
90° → Intensity = 0
cos2 shape
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DiffractionIB PHYSICS | UNIT 7 | WAVES - LIGHT
7.4
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IB Physics Data Booklet
![Page 68: Physics - 7 - Waves - Light€¦ · Sound _____ Light _____ Change in Frequency Change in Frequency Pitch Color. Frequency and Light. Speed of Electromagnetic Waves In a vacuum All](https://reader035.vdocuments.site/reader035/viewer/2022071005/5fc2fedde4f11e0cc50ed498/html5/thumbnails/68.jpg)
Warm Up #1
A light ray is incident on an air–diamond boundary. The refractive index of diamond is greater than 1. Which diagram shows the correct path of the light ray?
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Warm Up #2
After passing through one polarized filter, the intensity of vertically polarized light is 60 W m-2. What is the angle of the analyzer relative to the vertical if the intensity observed is 20 W m-2?
What was the intensity of the unpolarized light?
𝐼 = 𝐼0 𝑐𝑜𝑠2𝜃
𝐼 = 𝐼0 (cos 𝜃)2
20 = 60 (cos 𝜃)2
cos 𝜃 = cos−1 2060 = 𝟓𝟒. 𝟕°
120 W m-2
Loses 50% from first filter
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Diffraction
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Remember Interference?
A
B
C
B
A
C
Constructive:Path Difference = nλ
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Remember Interference?
Destructive:Path Difference = (n+½)λ
D
E
E
D
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Do you remember??
Two speakers are separated by a distance of 5 meters, if they emit a coherent sound signal of 850 Hz. If the speed of sound is 340 m s-1, is this person in a maximum or minimum location?
5 m
1.9 m 3.1 m
Path Difference
3.1 – 1.9 = 1.2 m
𝑣 = 𝑓𝜆
𝜆 =𝑣
𝑓=340
850= 0.4 𝑚
1.2
0.4= 𝟑
Maximum because result
is a perfect integer
Path Difference = (___) × λ
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Double Slit Experiment
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Double Slit Experiment
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Double Slit Experiment
𝑠 =𝜆𝐷
𝑑
D
dλ→ wavelength
s
s
s
s
![Page 77: Physics - 7 - Waves - Light€¦ · Sound _____ Light _____ Change in Frequency Change in Frequency Pitch Color. Frequency and Light. Speed of Electromagnetic Waves In a vacuum All](https://reader035.vdocuments.site/reader035/viewer/2022071005/5fc2fedde4f11e0cc50ed498/html5/thumbnails/77.jpg)
Double Slit Experiment
𝑠 =𝜆𝐷
𝑑
As wavelength (λ) increases,
As gap (d) increases,
s increases
s decreases
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Try This
Blue laser light of wavelength 450 nm is shone on two slits that are 0.1 mm apart. How far apart are the fringes on a screen placed 5.0 m away?
Would red laser light have fringes closer together or farther apart?
λ = 450 nm = 450 × 10-9 m
d = 0.1 mm = 0.1 × 10-3 m
D = 5 m
𝑠 =(450 × 10−9)(5)
(0.1 × 10−3)
𝑠 = 𝟎. 𝟎𝟐 𝐦
Increasing
Wavelength
As wavelength increases,
fringes get farther apart
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Whole Class Lab
What is the wavelength of the green laser?