The frequency equation of vibrating beam shown in figure below is coskl. coshkl = -1 Where k? =2,a² Determine the natural circular frequency (p) of the beam %3D radian/sec of the beam if the following data are provided L-4m 1=8x 10- m* E-200Gpa y = 76 x 10'N/m³ A-0.02 m -981 ms
The frequency equation of vibrating beam shown in figure below is coskl. coshkl = -1 Where k? =2,a² Determine the natural circular frequency (p) of the beam %3D radian/sec of the beam if the following data are provided L-4m 1=8x 10- m* E-200Gpa y = 76 x 10'N/m³ A-0.02 m -981 ms
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![The frequency equation of vibrating beam shown in figure below is
coskl coshkl = -1
Where k2 =,a² =
Elg
Determine the natural circular frequency (p) of the beam
Ay
radian/sec of the beam if the following data are provided
L-4m
I =8x 10- m
E-200Gpa
y= 76 x 10'N/m
A-0.02 m
g-9.81 m/s](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc7be5825-aa69-4dc6-96a4-9f2db9fd6ccc%2F479b899e-eb38-4b20-8353-42fb43c8f80f%2F1qjtqid_processed.png&w=3840&q=75)
Transcribed Image Text:The frequency equation of vibrating beam shown in figure below is
coskl coshkl = -1
Where k2 =,a² =
Elg
Determine the natural circular frequency (p) of the beam
Ay
radian/sec of the beam if the following data are provided
L-4m
I =8x 10- m
E-200Gpa
y= 76 x 10'N/m
A-0.02 m
g-9.81 m/s
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