Related Resources: vibration

Beam one End Free Other Fixed Angular Natural Frequency Equations and Calculator

Machine Design and Engineering

Beam with one End Free and Other Hinged Angular Natural Frequency Equations and Calculator


Beam with one End Free and Other Hinged Angular Natural Frequency Equations and Calculator 1
l = 1
Beam with one End Free and Other Hinged Angular Natural Frequency Equations and Calculator 2
Beam with one End Free and Other Hinged Angular Natural Frequency Equations and Calculator 3

 

Beam with one End Free and Other Hinged Angular Natural Frequency Equations and Calculator 4
Beam with one End Free and Other Hinged Angular Natural Frequency Equations and Calculator 5

 

ωn = A [ ( E I ) / ( ( L l )4 µ ] (1/2)

Where:

Nodes are indiated in images as a proportion of length l measured from the the left,
L = Total Length of Beam (in),
l = Length Proportion at Node Location of Beam indicated in images (in),
I = Area Moment of Inertia of Beam Cross Section (in4)
E = Young's Modulus ( lb / in2 ),
µ = Mass per Unit Length of Beam ( lb-sec2/in2 ),
A = Coefficient for given nodes from image table above,
ωn = Angular Natural Frequency ( rad / sec )

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Reference Harris, Shock and Vibration Handbook

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