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In vibration isolation system, if ω/ωn, then the phase difference between the transmitted force and the disturbing force is
- a)0°
- b)90°
- c)180°
- d)270°
Correct answer is option 'C'. Can you explain this answer?
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In vibration isolation system, if ω/ωn, then the phase dif...
In Vibration-isolation system, If the phase difference between transmitted force and the disturbing force is 180°C, then ω/ωn = 1.
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In vibration isolation system, if ω/ωn, then the phase dif...
In spring mass system if the mass is half and the spring stiffness is doubled the natural frequency is
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In vibration isolation system, if ω/ωn, then the phase dif...
In a vibration isolation system, if the natural frequency of the system matches the frequency of the applied vibration, resonance can occur. Resonance is a phenomenon where the amplitude of the vibration increases significantly, leading to potential damage or failure of the system.
To avoid resonance, it is important to design the vibration isolation system with a natural frequency that is significantly different from the expected frequency of the applied vibration. This can be achieved by using appropriate damping materials or by adjusting the stiffness and mass of the system components.
Additionally, the use of vibration isolators or mounts can help in reducing the transmission of vibrations from the source to the system. These isolators are designed to absorb and dissipate the vibrational energy, preventing it from reaching the system and potentially causing resonance.
Overall, the goal of a vibration isolation system is to minimize the effect of external vibrations on the system and maintain its stability and performance.
To avoid resonance, it is important to design the vibration isolation system with a natural frequency that is significantly different from the expected frequency of the applied vibration. This can be achieved by using appropriate damping materials or by adjusting the stiffness and mass of the system components.
Additionally, the use of vibration isolators or mounts can help in reducing the transmission of vibrations from the source to the system. These isolators are designed to absorb and dissipate the vibrational energy, preventing it from reaching the system and potentially causing resonance.
Overall, the goal of a vibration isolation system is to minimize the effect of external vibrations on the system and maintain its stability and performance.
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In vibration isolation system, if ω/ωn, then the phase difference between the transmitted force and the disturbing force isa)0°b)90°c)180°d)270°Correct answer is option 'C'. Can you explain this answer?
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