xxx k Pulley. mass moment of inertia J 77777. Fig.Q1 The system shown in Fig.Q1 has a natural frequency of 5 Hz for the following data: Mass moment of inertia of the pulley Jo = 5 kgm², inner radius r₁ = 10 cm and outer radius 12 25cm and attached external mass m = 10 kg. When the system is disturbed by giving it an initial displacement, the amplitude of free vibration is reduced by 80% in 10 cycles. Determine the value of spring constant (k) and damping coefficient (c).

Elements Of Electromagnetics
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0000
k
Pulley.
mass moment of inertia J
77777.
Fig.Q1
The system shown in Fig.Q1 has a natural frequency of 5 Hz for the following data:
Mass moment of inertia of the pulley Jo = 5 kgm², inner radius r₁ = 10 cm and outer radius 12
25cm and attached external mass m = 10 kg. When the system is disturbed by giving it an initial
displacement, the amplitude of free vibration is reduced by 80% in 10 cycles.
Determine the value of spring constant (k) and damping coefficient (c).
Transcribed Image Text:0000 k Pulley. mass moment of inertia J 77777. Fig.Q1 The system shown in Fig.Q1 has a natural frequency of 5 Hz for the following data: Mass moment of inertia of the pulley Jo = 5 kgm², inner radius r₁ = 10 cm and outer radius 12 25cm and attached external mass m = 10 kg. When the system is disturbed by giving it an initial displacement, the amplitude of free vibration is reduced by 80% in 10 cycles. Determine the value of spring constant (k) and damping coefficient (c).
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