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The tip of a massless clamped-free beam connected to mass m = 2 kg by a spring with stiffness k = 4000 N/m. The mass is excited by a force 10 cos(49) N. The beam is made of a solid piece of steel with Young's Modulus of E = 200 GPa, second moment of area I = 270000 mm and length L = 3 m. Neglecting the damping, the amplitude of the mass mat t = 1s -13.36 mm -5.40 mm ○ 12.63mm 1.67 mm ○ -16.10 mm 4 massless k E,I,L T m x(t) Fo cos(wt)

The tip of a massless clamped-free beam connected to mass m = 2 kg by a spring with stiffness k = 4000 N/m. The mass is excited by a force 10 cos(49) N. The beam is made of a solid piece of steel with Young's Modulus of E = 200 GPa, second moment of area I = 270000 mm and length L = 3 m. Neglecting the damping, the amplitude of the mass mat t = 1s -13.36 mm -5.40 mm ○ 12.63mm 1.67 mm ○ -16.10 mm 4 massless k E,I,L T m x(t) Fo cos(wt)

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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The tip of a massless clamped-free beam connected to mass m = 2 kg by a spring with stiffness k = 4000 N/m. The mass is excited by a force 10 cos(49t) N. The beam is made of a solid piece of steel with Young's Modulus of E = 200 GPa, second moment of area I = 270000 mm² and length L = 3 m. Neglecting the damping, the amplitude of the mass matt = 1s -13.36 mm -5.40 mm 12.63 mm 1.67 mm -16.10 mm massless k E,I,L m x(t) Fo cos(wt)
Transcribed Image Text:The tip of a massless clamped-free beam connected to mass m = 2 kg by a spring with stiffness k = 4000 N/m. The mass is excited by a force 10 cos(49t) N. The beam is made of a solid piece of steel with Young's Modulus of E = 200 GPa, second moment of area I = 270000 mm² and length L = 3 m. Neglecting the damping, the amplitude of the mass matt = 1s -13.36 mm -5.40 mm 12.63 mm 1.67 mm -16.10 mm massless k E,I,L m x(t) Fo cos(wt)
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