Figure Q1(b) shows an unbalance stainless steel rotating disc with be B installed of mass of 0.2 kg individually. Balancing can be done subtracting or removing the mass from its rotating parts. Given t density is 7500 kg/m³. Examine the drill bit size (diameter) to drill th thick disc at 1000 mm radius from centerline as to remove the exc statically balance the systems. igure Q1(b) shows an unbalance stainless steel rotating disc with beacon light installed of mass of 0.2 kg individually. Balancing can be done alternativ abtracting or removing the mass from its rotating parts. Given the stainles nsity is 7500 kg/m³. Examine the drill bit size (diameter) to drill through the ick disc at 1000 mm radius from centerline as to remove the excessive mas tically balance the systems.

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Figure Q1(b) shows an unbalance stainless steel rotating disc with be B installed of mass of 0.2 kg individually. Balancing can be done subtracting or removing the mass from its rotating parts. Given t density is 7500 kg/m³. Examine the drill bit size (diameter) to drill th thick disc at 1000 mm radius from centerline as to remove the exc statically balance the systems. igure Q1(b) shows an unbalance stainless steel rotating disc with beacon light installed of mass of 0.2 kg individually. Balancing can be done alternative abtracting or removing the mass from its rotating parts. Given the stainles ensity is 7500 kg/m³. Examine the drill bit size (diameter) to drill through the ick disc at 1000 mm radius from centerline as to remove the excessive mas tically balance the systems.

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B 2 G