the same direction of energy transport then the wave is a wave 1 If the particles of the medium are vibrating to and fro in the same direction of energy transport then the wave is a ID: 741311
Download Presentation The PPT/PDF document "If the particles of the medium are vibr..." is the property of its rightful owner. Permission is granted to download and print the materials on this web site for personal, non-commercial use only, and to display it on your personal computer provided you do not modify the materials and that you retain all copyright notices contained in the materials. By downloading content from our website, you accept the terms of this agreement.
Slide1
If the particles of the medium are vibrating to and fro in the same direction of energy transport, then the wave is a ____ wave.
1. Slide2
If the particles of the medium are vibrating to and fro in the same direction of energy transport, then the wave is a longitudinal
wave.
1. Slide3
When the particles of a medium are vibrating at right angles to the direction of energy transport, then the wave is a ____ wave.
2
. Slide4
When the particles of a medium are vibrating at right angles to the direction of energy transport, then the wave is a transverse
wave.
2
. Slide5
If the energy in a longitudinal wave travels from south to north, the particles of the medium would be vibrating _____.
3. Slide6
If the energy in a longitudinal wave travels from south to north, the particles of the medium would be vibrating south and north.
3. Slide7
What is the amplitude of the wave in the diagram below?
4. Slide8
What is the amplitude of the wave in the diagram below? 30 meters
4. Slide9
What is the wavelength of the wave in the diagram below?
5
. Slide10
What is the wavelength of the wave in the diagram below? 8
0 meters
5
. Slide11
How many complete waves are shown in the diagram?
6
. Slide12
How many complete waves are shown in the diagram? 1.5 waves
6
. Slide13
The number of waves per second is defined as a wave's ____.
7. Slide14
The number of waves per second is defined as a wave's frequency
.
7. Slide15
A sound wave hits your ear at 10,000 Hz. How many waves per second are hitting your ear?
8. Slide16
A sound wave hits your ear at 10,000 Hz. How many waves per second are hitting your ear? 10,000 waves
8. Slide17
9.
a. True
b. False
The SI unit for frequency is hertz. Slide18
9.
a. True
b. False
The SI unit for frequency is hertz. Slide19
If a speaker is playing a song and the amplitude is increased, the sound will:a. Get louder
b. Get higher pitched
c. Get lower pitched
d. Get quieter
e. Nothing will change
10. Slide20
If a speaker is playing a song and the amplitude is increased, the sound will:
a. Get louder
b. Get higher pitched
c. Get lower pitched
d. Get quieter
e. Nothing will change
10. Slide21
If a speaker is playing a song and the frequency is decreased, the sound will:a. Get louder
b. Get higher pitched
c. Get lower pitched
d. Get quieter
e. Nothing will change
11. Slide22
If a speaker is playing a song and the frequency is decreased, the sound will:a. Get louder
b. Get higher pitched
c. Get lower pitched
d. Get quieter
e. Nothing will change
11. Slide23
A wave in the water is:a. A transverse wave
b. A longitudinal wave
c. A surface wave
d. None of the above
12. Slide24
A wave in the water is:a. A transverse wave
b. A longitudinal wave
c. A surface wave
d. None of the above
12. Slide25
A wave made by whipping a rope up and down is:a. A transverse wave
b. A longitudinal wave
c. A surface wave
d. None of the above
13. Slide26
A wave made by whipping a rope up and down is:a. A transverse wave
b. A longitudinal wave
c. A surface wave
d. None of the above
13. Slide27
A 60 watt lightbulb is less bright than a 120 watt lightbulb. The 120 watt lightbulb has:a. greater frequency
b. longer wavelength
c. higher amplitude
d. less frequency
e. shorter wavelength
f. lower amplitude
14. Slide28
A 60 watt lightbulb is less bright than a 120 watt lightbulb. The 120 watt lightbulb has:a. greater frequency
b. longer wavelength
c. higher amplitude
d. less frequency
e. shorter wavelength
f. lower amplitude
14. Slide29
Big wave surfers try to find the ocean waves with the greatest possible…a. amplitude
b. frequency
c. wavelength
d. awesomeness
15. Slide30
Big wave surfers try to find the ocean waves with the greatest possible…a. amplitude
b. frequency
c. wavelength
d. awesomeness
15. Slide31
The reason the sound wave coming out of a test tube would have a higher pitch is because the wave has…a. greater frequency
b
.
higher amplitude
c.
less
frequency
d.
lower amplitude
16. Slide32
The reason the sound wave coming out of a test tube would have a higher pitch is because the wave has…
a. greater
frequency
b
.
higher amplitude
c.
less
frequency
d.
lower amplitude
16. Slide33
A stage light begins to change color from red to yellow in a theater. What is changing about the wave?a.
wavelength
b. amplitude
c. size
d. pitch
17. Slide34
A stage light begins to change color from red to yellow in a theater. What is changing about the wave?
a.
wavelength
b. amplitude
c. size
d. pitch
17. Slide35
If wavelength goes down, energy goes…
18.
orSlide36
If wavelength goes down, energy goes…
18.
orSlide37
If frequency goes up, energy goes…
19.
orSlide38
If frequency goes up, energy goes…
19.
orSlide39
If amplitude goes up, energy goes…
20.
orSlide40
If amplitude goes up, energy goes…
20.
orSlide41
Which one has the greatest amplitude?
a.
Figure 1
b.
Figure 2
c.
Figure 3
d.
Figure 4
21. Slide42
Which one has the greatest amplitude?
a.
Figure 1
b.
Figure 2
c.
Figure 3
d.
Figure 4
21. Slide43
Which one has the greatest frequency?
a.
Figure 1
b.
Figure 2
c.
Figure 3
d.
Figure 4
22. Slide44
Which one has the greatest frequency?
a.
Figure 1
b.
Figure 2
c.
Figure 3
d.
Figure 4
22. Slide45
Which one has the greatest wavelength?
a.
Figure 1
b.
Figure 2
c.
Figure 3
d.
Figure 4
23. Slide46
Which one has the greatest wavelength?
a.
Figure 1
b.
Figure 2
c.
Figure 3
d.
Figure 4
23. Slide47
24.
a. True
b. False
Sound can travel through solidsSlide48
24.
a. True
b. False
Sound can travel through solidsSlide49
25.
a. True
b. False
Sound can travel through liquidsSlide50
25.
a. True
b. False
Sound can travel through liquidsSlide51
26.
a. True
b. False
Sound can travel through
empty spaceSlide52
26.
a. True
b. False
Sound can travel through
empty spaceSlide53
27.
A spectroscope separates light into different colors. In other words, it separates light by…
Wavelength
Size
Amplitude
PitchSlide54
27.
A spectroscope separates light into different colors. In other words, it separates light by…
Wavelength
Size
Amplitude
PitchSlide55
28.
a. True
b. False
Light
can travel
through empty space, solids, liquids, and gases.Slide56
28.
a. True
b. False
Light
can travel
through empty space, solids, liquids, and gases.Slide57
29.
Transverse wave
Longitudinal wave
This is a
…Slide58
29.
Transverse wave
Longitudinal wave
This is a
…Slide59
30
.
Transverse
wave
Longitudinal wave
This is a
…Slide60
30
.
Transverse
wave
Longitudinal wave
This is a
…