5. For a linear viscoelastic material, assume its = 3 seconds, T = 31 seconds, ER = 150 MPa, please (a) determine the Debye peak's magnitude and frequency in Hertz (Hz), (b) what is the magnitude of the complex modulus at the Debye frequency, (c) what is the relaxed modulus, (d) what is the instantaneous modulus?
5. For a linear viscoelastic material, assume its = 3 seconds, T = 31 seconds, ER = 150 MPa, please (a) determine the Debye peak's magnitude and frequency in Hertz (Hz), (b) what is the magnitude of the complex modulus at the Debye frequency, (c) what is the relaxed modulus, (d) what is the instantaneous modulus?
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Transcribed Image Text:5. For a linear viscoelastic material, assume its = 3 seconds, T = 31 seconds, ER = 150
MPa, please (a) determine the Debye peak's magnitude and frequency in Hertz (Hz), (b) what is
the magnitude of the complex modulus at the Debye frequency, (c) what is the relaxed modulus,
(d) what is the instantaneous modulus?
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