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prescribed displacement/frequency domain study

Posted 20 janv. 2024, 15:54 UTC−5 Studies & Solvers, Structural Mechanics, Physics Interfaces Version 6.1 6 Replies

Nelson Leon
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im doing a 3d beam that have a prescribed displacement in the z direction but I needed to be with respect to time using this function below 200sin(120pi*t)[um] how do it add it on comsol

also how do i do a frequency domain study because it giving me a error that t is not defined.

6 Replies Last Post 23 janv. 2024, 02:15 UTC−5
Acculution ApS Certified Consultant
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Posted: 2 years ago 21 janv. 2024, 08:23 UTC−5

Start out with a frequency domain study (steady-state). Your frequency is seemingly 60 Hz, so that is what you input. Then go to a time-domain study.

-------------------
René Christensen, PhD
Acculution ApS
www.acculution.com
info@acculution.com
Start out with a frequency domain study (steady-state). Your frequency is seemingly 60 Hz, so that is what you input. Then go to a time-domain study.
Nelson Leon
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Posted: 2 years ago 21 janv. 2024, 16:04 UTC−5
Updated: 2 years ago 21 janv. 2024, 16:04 UTC−5

that correct my frequency is 60 Hz so i need to do a

  1. frequency domain, then using the result use
  2. frequency to time domain as the next step?
that correct my frequency is 60 Hz so i need to do a 1. frequency domain, then using the result use 2. frequency to time domain as the next step?
Dave Greve
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Posted: 2 years ago 21 janv. 2024, 19:20 UTC−5
Updated: 2 years ago 21 janv. 2024, 19:12 UTC−5

Frequency dependent gets you the sinusoidal steady state solution.

Time dependent with sin(wt) gets you the initial transient when the sinusoidal excitation is turned on at t = 0.

Which one do you want??

Frequency dependent gets you the sinusoidal steady state solution. Time dependent with sin(wt) gets you the initial transient when the sinusoidal excitation is turned on at t = 0. Which one do you want??
Nelson Leon
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Posted: 2 years ago 22 janv. 2024, 16:33 UTC−5
Updated: 2 years ago 22 janv. 2024, 16:25 UTC−5

when t = 0

when t = 0
Dave Greve
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Posted: 2 years ago 22 janv. 2024, 18:13 UTC−5
Updated: 2 years ago 22 janv. 2024, 18:06 UTC−5

OK if you are doing a time-dependent study then t is automatically time and the driving function should be written 200[um]sin(2pi60[1/s]t).

(If you do a frequency dependent study all quantities are phasors and time does not explicitly appear.)

(The website seems to remove asterisks from equations so you need to put them where they belong).

OK if you are doing a time-dependent study then t is automatically time and the driving function should be written 200[um]*sin(2*pi*60[1/s]*t). (If you do a frequency dependent study all quantities are phasors and time does not explicitly appear.) (The website seems to remove asterisks from equations so you need to put them where they belong).
Henrik Sönnerlind COMSOL Employee

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Posted: 2 years ago 23 janv. 2024, 02:15 UTC−5
Updated: 2 years ago 23 janv. 2024, 08:41 UTC−5

A comment on the formatting: The forum uses the 'Markdown' syntax. Asterisk then means italic. If you want the asterisk to be shown as is, put a backslash ( \ ) in front of it. For more details, see https://www.comsol.com/forum/formatting-guide

The expression should then look like 200[um]*sin(2*pi*60[1/s]*t).

Entered as

200[um]\*sin(2\*pi\*60[1/s]\*t)
-------------------
Henrik Sönnerlind
COMSOL
A comment on the formatting: The forum uses the 'Markdown' syntax. Asterisk then means *italic*. If you want the asterisk to be shown as is, put a backslash ( \ ) in front of it. For more details, see The expression should then look like 200[um]\*sin(2\*pi\*60[1/s]\*t). Entered as 200[um]\*sin(2\*pi\*60[1/s]\*t)

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