Find Resoance Frequency for Electric Motor Mass of 100 kg

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The discussion centers on calculating the resonance frequency of a 100 kg electric motor supported by springs that compress by 1 mm. The correct formula for resonance is derived from the relationship between spring constant and mass, leading to the equation ω = √(g/x). Initial calculations mistakenly used 1 mm as 1 m, resulting in incorrect frequency values. After correcting the units, the accurate resonance frequency is determined to be approximately 945 rpm. The conversation highlights the importance of unit conversion in resonance frequency calculations.
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"An electric motor of mass 100 kg is supported by vertical springs which compress by 1 mm when the motor is installed. If the motor's armature is not properly balanced, for what revolutions/minute would a resonance occur?"

I set my frame of reference at the end of the spring. Therefore, F = kx - mg = 0. To get resonance ω must equal ω0 which is √(k/m) or √(g/x). I know g to be 9.82 m/s² and x to be 1 mm. Therefore, √(g/x) = 31.3 rps or 1878 rpm. The book lists 955 rpm, so where did I go wrong?
 
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you used x = 1 mm as if it was x = 1 m.
 
suffian said:
you used x = 1 mm as if it was x = 1 m.

I see that I made the mistake of dividing g by .01m and not .001m, but that only makes the answer worse at 5950 rpm. My mistake is definitely more fundamental, but I can't see it.
 
sqrt(g/x) = sqrt( [ 9.80 m/s² ]/[ .001 m ] ) = 98.99 rad/s = [ 98.99 rad/s ][ 1/2pi rev/rad ][ 60 s/min ] = 945 rpm.
 
Thanks a lot.
 
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