machine of mass 2000kg originally placed at midspan of a simply supported beam of length 1.2 m having a rectangular cross -section (depth = 0.1 and width +1.2 m) and young's modulus of elasticity 206 GPa. To reduce the vertical deflection of the beam, two springs with the same stiffness will be attached at midspan, see figure below. A.) Determine the value of the stiffness of the spring to reduce the deflection of the beam by 10%, B.) What is the natural frequency of the system?

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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A machine of mass 2000kg originally placed at midspan of a simply supported beam of length 1.2 m having a rectangular cross -section (depth = 0.1 and width +1.2 m) and young's modulus of elasticity 206 GPa. To reduce the vertical deflection of the beam, two springs with the same stiffness will be attached at midspan, see figure below. A.) Determine the value of the stiffness of the spring to reduce the deflection of the beam by 10%, B.) What is the natural frequency of the system?

H.W3
A machine of mass m = 500 kg is mounted on a simply supported steel beam of
L= 2 m having rectangular cross section (depth = 0.1 m, width = 1.2 m) and
Young's modulus E= 2.06 x 1011 N/m?. To reduce the vertical deflection of the
beam, a spring of stiffness k is attached at the mid- span, as shown in Figure.
Determine the value of k needed to reduce the deflection of the bearh to one-third
of its original value. Assume that the mass of the beam is negligible.
m
Transcribed Image Text:H.W3 A machine of mass m = 500 kg is mounted on a simply supported steel beam of L= 2 m having rectangular cross section (depth = 0.1 m, width = 1.2 m) and Young's modulus E= 2.06 x 1011 N/m?. To reduce the vertical deflection of the beam, a spring of stiffness k is attached at the mid- span, as shown in Figure. Determine the value of k needed to reduce the deflection of the bearh to one-third of its original value. Assume that the mass of the beam is negligible. m
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