In the multi-rotor system shown below, m1=2 kg, m2=5 kg, r1=36 mm, r2=65 mm, z1=119 mm, z2=414 mm, θ1=118o, θ2=252o. We have 2 kg masses to balance the multi-rotor shaft. Answer questions a, b, c, and d accordingly. 1/ Determine the radius at which the 2 kg mass will be placed on the R plane (mm). a.35,763 b.268,220 c.53,644 D.107,288 2/Determine the angle (degrees) at which the 2 kg mass will be placed on the R plane. a.69,256 b.83,107 c.90,033 D.55,405 3/ Determine the radius at which the 2 kg mass will be placed on the L plane (mm). a.105,006 b.12,251 c.36,752 D.18,376 4/Determine the angle (degrees) at which the 2 kg mass will be placed on the L plane. a.30,085 b.37,607 c.43,248 D.45,128 solve the question by using the rules of Machine Dynamics
In the multi-rotor system shown below, m1=2 kg, m2=5 kg, r1=36 mm, r2=65 mm, z1=119 mm, z2=414 mm, θ1=118o, θ2=252o. We have 2 kg masses to balance the multi-rotor shaft. Answer questions a, b, c, and d accordingly.
1/ Determine the radius at which the 2 kg mass will be placed on the R plane (mm).
a.35,763 b.268,220 c.53,644 D.107,288
2/Determine the angle (degrees) at which the 2 kg mass will be placed on the R plane.
a.69,256 b.83,107 c.90,033 D.55,405
3/ Determine the radius at which the 2 kg mass will be placed on the L plane (mm).
a.105,006 b.12,251 c.36,752 D.18,376
4/Determine the angle (degrees) at which the 2 kg mass will be placed on the L plane.
a.30,085 b.37,607 c.43,248 D.45,128
solve the question by using the rules of Machine Dynamics
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