An air compressor with mass 500 kg has an eccentricity m-e = 50 kg-cm and operates at a speed of 300 rpm. To achieve 90%

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An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 1 (19.63 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 2 (6.31 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 3 (4.46 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 4 (5.67 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 5 (4.64 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 6 (4.64 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 7 (6.69 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 8 (5.22 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 9 (4.17 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 10 (5.82 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 11 (4.59 KiB) Viewed 33 times

An Air Compressor With Mass 500 Kg Has An Eccentricity M E 50 Kg Cm And Operates At A Speed Of 300 Rpm To Achieve 90 12 (4.71 KiB) Viewed 33 times

An air compressor with mass 500 kg has an eccentricity m-e = 50 kg-cm and operates at a speed of 300 rpm. To achieve 90% vibration isolation, the compressor is to be mounted on either an isolator consisting of a spring with negligible damping, or a shock absorber having a damping ratio of 0.2 and a spring. Please keep two decimal points for your calculation.
What is the frequency ratio, when vibration isolator k (no damping term) is added to achieve 90% isolation?
Calculate the nature frequency (rad/s) for the system after adding vibration isolator.
Determine the spring constant k (N/m) of vibration isolator so that it can achieve 90% isolation.
Calculate the static deflection (mm) of spring after adding vibration isolator.
Determine the amplitude (mm) of compressor after adding vibration isolator.
Determine the frequency ratio when shock absorber with = 0.2 is added to the system to achieve 90% isolation?
Calculate the nature frequency (rad/s) for the system after adding shock absorber.
Determine spring constant k (N/m) of shock absorber so that it can achieve 90% isolation.
Determine damping constant c (N-s/m) of shock absorber so that it can achieve 90% isolation.
Calculate the static deflection (mm) of spring after adding shock absorber.
Determine the amplitude (mm) of compressor after adding shock absorber.