Question 2: Balansing A rotating shaft carries four masses A, B, C and D which are radially attached to it. The mass centres are 30 mm, 38 mm, 40 mm and 35 mm respectively from the axis of rotation....


Question 2: Balansing<br>A rotating shaft carries four masses A, B, C and D which are radially attached<br>to it. The mass centres are 30 mm, 38 mm, 40 mm and 35 mm respectively<br>from the axis of rotation. The masses A, C and D are 8 kg, 6 kg and 5 kg<br>respectively. The axial distances between the planes of rotation of A and B is<br>400 mm and between B and C is 500 mm. The masses A and C are at right<br>angles to each other and mass A is positioned at 0°.<br>Show the position of the masses in shaft.<br>2.1.<br>2.2.<br>Determane the angles between the masses B and D from mass A for a<br>complete balance.<br>2.3.<br>If the mass are balance calculate the axial distance between the planes of<br>rotation of C and D.<br>2.3.<br>Calculate the magnitude of mass B.<br>

Extracted text: Question 2: Balansing A rotating shaft carries four masses A, B, C and D which are radially attached to it. The mass centres are 30 mm, 38 mm, 40 mm and 35 mm respectively from the axis of rotation. The masses A, C and D are 8 kg, 6 kg and 5 kg respectively. The axial distances between the planes of rotation of A and B is 400 mm and between B and C is 500 mm. The masses A and C are at right angles to each other and mass A is positioned at 0°. Show the position of the masses in shaft. 2.1. 2.2. Determane the angles between the masses B and D from mass A for a complete balance. 2.3. If the mass are balance calculate the axial distance between the planes of rotation of C and D. 2.3. Calculate the magnitude of mass B.

Jun 11, 2022
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