Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
29 apr 2010, 04:48 GMT-4
Hi
when I set up a subdomain condition B = mu_zero*H+mu_zero*M and define a M as (MMx*x, MMy*y) I can setup a gradient at will, is it that you want ?
OK for a boudary, its the same (in x and y)
Have fun Comsoling
Ivar
Hi
when I set up a subdomain condition B = mu_zero*H+mu_zero*M and define a M as (MMx*x, MMy*y) I can setup a gradient at will, is it that you want ?
OK for a boudary, its the same (in x and y)
Have fun Comsoling
Ivar
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Posted:
1 decade ago
29 apr 2010, 10:28 GMT-4
Thanks Ivar. It works perfectly. However I did notice that if I wanted a linear gradient in x and y directions I required placing MMy*y in the x component space and MMx*x in the y component of subdomain M. But yes it works!!
Thanks again.
Thanks Ivar. It works perfectly. However I did notice that if I wanted a linear gradient in x and y directions I required placing MMy*y in the x component space and MMx*x in the y component of subdomain M. But yes it works!!
Thanks again.
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Posted:
1 decade ago
30 apr 2010, 16:16 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:18 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:18 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:18 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:18 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:25 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:27 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:27 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
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Posted:
1 decade ago
30 apr 2010, 16:29 GMT-4
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.
I wish to see how the particle trajectory around an obstacle varies in the presence of an externally imposed magnetic flux. I am solving the attached model in a step by step fashion. I am solving the magnetic field using magnetostatic module and following it with a
NS module which has additional force per volume terms as defined in the subdomain forces.
The solution is not converging. Could you please tell me the reason for it.