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$Waves - Diffraction (2)$

Waves - Diffraction (2)

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Diffraction grating

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Waves. Diffraction

1.

Recording Notice
This lesson is
being recorded

3.

Explore 1: Diffraction and Pulse echo technique
Waves – Diffraction – Week 24

4.

Objectives
Keywords: de Broglie equation, diffraction, diffraction grating, pulse echo technique

Starter – Post your answer in the poll.
What is wavelength if there are 400 lines per mm and the angle of the
third order maxima is 14.9°?
Step
Detail
Identify
λ = ? lines = 400/mm θ = 14.9°
n=3
Match
d = 0.001m ÷ 400 = 2.5 × 10-6 m
Formula
nλ = d sin θ
Arrange
λ = d sin θ ÷ 3
Substitute
λ = 2.5 × 10-6 sin (14.9) ÷ 3
Total
λ = 214.3 nm
EXTENSION for Explore 1 and 2: Questions from Week 24 PHY Explore 1 and 2 EXTENSION - Waves
When finished, post your score in the Q and A.
SLIDE:
5

6.

Starter 2
What is wavelength if there are 300 lines per mm and the angle of the second
order maxima is 23.7°. Send your answer in the Q and A.
SLIDE:
6
Step
Detail
Identify
λ = ? lines = 300/mm θ = 23.7°
n=2
Match
d = 0.001m ÷ 300 = 3.3 × 10-6 m
Formula
nλ = d sin θ
Arrange
λ = d sin θ ÷ 2
Substitute
λ = 3.3 × 10-6 sin (23.7) ÷ 2
Total
λ = 669.9 nm

7.

Human Echolocation
Ben Underwood 3.02 min
SLIDE:
7

8.

Calculation
What return time must Ben be
interpreting? The speed of sound is
146 cm
340 m/s.
• t=d÷s
• t = (2 × 1.46) ÷ 340 ms-1
• t = 8.6 ms
SLIDE:
8

9.

Dolphin Echolocation
How do dolphins use echolocation to
navigate the deep seas? 4.55 min
SLIDE:
9

10.

Dolphin Wavelength
What will be the wavelength if
frequency is 130 kHz?
Speed of sound in water = 1482 ms -1
• v = fλ
• λ=v÷f
• λ = 1482 ÷ 130,000
• λ = 1.14 cm
SLIDE:
10

11.

Plenary: Wordwall (Quiz option)
https://wordwall.net/resource/9424639/diffraction
Post your score in the poll.
SLIDE:
11

12.

Explore 2: Exam Practice
Waves – Diffraction – Week 24

13.

Objectives
Keywords: de Broglie equation, diffraction, diffraction grating, pulse echo technique

14.

Starter
How much bigger than an atom is a
light wave?
A. × 10
B. × 100
C. × 1000
D. × 10,000
E. × 100,000
E
SLIDE:
14

15.

Animal Perception II
Magnetoperception in Foxes 3.15 min
SLIDE:
15

16.

Explore Activity
SLIDE:
16

17.

Q1 Optional Questions & Answers
SLIDE:
17

18.

Q1
SLIDE:
18

19.

Q2
SLIDE:
19

20.

Q2
SLIDE:
20

21.

Q2
SLIDE:
21

22.

Q2
SLIDE:
22

23.

Q3
SLIDE:
23

24.

Q3
SLIDE:
24

25.

Q4
SLIDE:
25

26.

Q4
SLIDE:
26

27.

Q5
SLIDE:
27

28.

Q5
SLIDE:
28

29.

Q5
SLIDE:
29

30.

Plenary
What does laser stand for?
A. Light Arrest by streamlined
empowerment of resistance
B. Light Attenuation by strong
encasement of radon
C. Light Augmentation by striated
enthrallment of rays
D. Light Amplification by stimulated
emission of radiation
D
SLIDE:
30

31.

Objectives
Keywords: de Broglie equation, diffraction, diffraction grating, pulse echo technique
SLIDE:
31

32.

Explore 3: Practical
Waves – Diffraction – Week 24

33.

Objectives
Keywords: de Broglie equation, diffraction, diffraction grating, pulse echo technique
SLIDE:
33

34.

Starter
Why measure the lengths of the
triangle and use trigonometry instead
of just using a protractor?
• The uncertainty with a protractor
will be greater.
Trigonometry
sin(θ) = O ÷ H
θ = sin -1 (7.8 ÷ 20.3) = 22.6°
0.05 cm ÷ 7.8 cm 0.6%
0.05 cm ÷ 20.3 cm 0.3%
Total uncert = 0.9 %
Protractor
1° ÷ 22° 4.5% uncert
SLIDE:
34
7.8 cm
20.3 cm