Yara Soares
COMSOL Employee
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Posted:
7 years ago
1 mag 2018, 10:30 GMT-4
Dear Chirag,
For a quick response, consider submitting your question to support@comsol.com.
Kind regards,
Yara Soares
Dear Chirag,
For a quick response, consider submitting your question to support@comsol.com.
Kind regards,
Yara Soares
Please login with a confirmed email address before reporting spam
Posted:
7 years ago
1 mag 2018, 10:31 GMT-4
Dear Chirag,
For a quick response, consider submitting your question to support@comsol.com.
Kind regards,
Yara Soares
Hi, I have tried but it was not of much help
>Dear Chirag,
>
>For a quick response, consider submitting your question to support@comsol.com.
>
>Kind regards,
>
>Yara Soares
Hi, I have tried but it was not of much help
Please login with a confirmed email address before reporting spam
Posted:
7 years ago
4 mag 2018, 07:15 GMT-4
Updated:
7 years ago
4 mag 2018, 07:17 GMT-4
Hello Chirag,
I think your question might be too general. At first, you need to investigate the "physics" you are working on. It seems that you work in "Acoustics", once again, make sure that you pick the right one because there are several "physics" inside "Acoustics Module". You should take a look at the manual of this module and several examples on the library. For an array of loudspeakers, you might look at the example "Bessel Panel".
The Bessel Panel describes how to use "Points" to model an array . You might plot a circle or any shapes and define them with "Incident Pressure Field" to mimic a source.
Best,
Quoc
Hello Chirag,
I think your question might be too general. At first, you need to investigate the "physics" you are working on. It seems that you work in "Acoustics", once again, make sure that you pick the right one because there are several "physics" inside "Acoustics Module". You should take a look at the manual of this module and several examples on the library. For an array of loudspeakers, you might look at the example "Bessel Panel".
The Bessel Panel describes how to use "Points" to model an array . You might plot a circle or any shapes and define them with "Incident Pressure Field" to mimic a source.
Best,
Quoc
Please login with a confirmed email address before reporting spam
Posted:
7 years ago
4 mag 2018, 07:20 GMT-4
Hello Chirag,
I think your question might be too general. At first, you need to investigate the "physics" you are working on. It seems that you work in "Acoustics", once again, make sure that you pick the right one because there are several "physics" inside "Acoustics Module". You should take a look at the manual of this module and several examples on the library. For an array of loudspeakers, you might look at the example "Bessel Panel".
The Bessel Panel describes how to use "Points" to model one source. You might plot a circle or any shapes and define them with "Incident Pressure Field" to mimic a source.
Best,
Quoc
Hi Quoc,
Thank you for your reply. What i am trying to do is model the beam field from a pizeoelectric transducer into a solid, when the transducer is in contact with the solid or when there is water between the pzt and solid. The frequency is in terms of MHz. So the physics underlying would be acoustic in terms of fluid case and then structural interaction
>Hello Chirag,
>
>I think your question might be too general. At first, you need to investigate the "physics" you are working on. It seems that you work in "Acoustics", once again, make sure that you pick the right one because there are several "physics" inside "Acoustics Module". You should take a look at the manual of this module and several examples on the library. For an array of loudspeakers, you might look at the example "Bessel Panel".
>
>The Bessel Panel describes how to use "Points" to model one source. You might plot a circle or any shapes and define them with "Incident Pressure Field" to mimic a source.
>
>Best,
>
>Quoc
Hi Quoc,
Thank you for your reply. What i am trying to do is model the beam field from a pizeoelectric transducer into a solid, when the transducer is in contact with the solid or when there is water between the pzt and solid. The frequency is in terms of MHz. So the physics underlying would be acoustic in terms of fluid case and then structural interaction