l evitation of objects using a standing ultrasonic wave
DESCRIPTION
T .Chikazawa H .Nakayama R .Makii. L evitation of objects using a standing ultrasonic wave. F irst, “what is an ultrasonic wave? ”. It is a sound over 20,000 Hz Short wavelength Big amplitude. ① W ave ② Remains in a constant position ③ Most vibration ・ ・・ anti-node - PowerPoint PPT PresentationTRANSCRIPT
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Levitation of objects using a standing ultrasonic wave
T.ChikazawaH.NakayamaR.Makii
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It is a sound over 20,000 Hz Short wavelength
Big amplitude.
First, “what is an ultrasonic wave? ”
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① Wave
② Remains in a constant position
③ Most vibration ・・・ anti-node
No vibration ・・・ node ④Anti-node ~ Node ・・・ ¼ wavelength Node ~ Node ・・・ ½ wavelength
“What is a standing wave ? ”
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Using the formula for acoustic velocity
V=fλ V=331.6+0.6t V : Acoustic velocity (m/s) f : Pitch (Hz) λ: Wavelength (m) t : Temperature (℃ or )
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( m ) = 8.5(mm)
anti-node ~ node 1/4λ ≒2.13(mm) node ~ node 1/2λ
≒4.25(mm)
We can calculate the theoretical levitation position
from this value!!
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【 Study motive 】
We were interested in an experiment about acoustic levitation done by last
year’s students.
When we used a ultrasonic wave, we found that the object levitate more
easily.
We studied the relationship between the sound wave and object.
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At the beginning……
We used a couple of objects.
We also use ultrasonic wave because it is highly directional.
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【 experiment 】< Purpose >
・ We find whether or not there was only other resistance force causing the objects to float.
⊿x 1
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【 Expectation 】Acting forces are only ‘ gravi
ty’ .
⊿x would have a constant value.
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Ⅰ ・ We levitated object 1.
・ We levitated object 2 , and measured the distance between object 1 and 2.(⊿X1)
【 Experimental method 】
⊿x1
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Ⅱ ・ We levitated object 3 ,and measured the distance between object 2 and 3.(⊿X 2 )
・ We also measured the distance between object 1and 2 again.(⊿X 3 )
⊿x 2⊿x 3
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11μm 26μm
⊿X1 4.45mm 4.19mm
⊿X2 4.41mm 4.34mm
⊿X3 4.30mm 4.19mm
【 Result 】Value of each
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We showed to graph the average value.
0 1 2 3 4 50
1
2
3
4
5The distance between the ob-
ject 11μ m
26μ m
(mm) The size of the object
Distance
⊿x have a similar value between 4.1mm and 4.5mm.
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【 Consideration 】We found that ⊿X is nearly λ/2(≒ 4.2
5 mm) in any case .↓
There is no other resistance force
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【 Future 】We want to increase the sample size of our experiment to make sure that our result are reproducible!
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THANK FOR
LISTENING
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object⊿X≒λ/2(=4.25mm)