A shaft 1.4 m long carries four eccentric loads A, B, C, and D. spaced at 0; 0.45; 0.75, and 1.4 m from one end. The loads are 7.5; 11; 15 and 6 kg respectively, and the eccentricities are 36; 48; 54, and 96 mm. The directions of the eccentricities of B, C, and D relative to A are 60°, 200°, and 270°. The shaft is carried in bearings E and F, which are 0,175 m and 1 m from A. respectively. Bearing E is located between load A and B. Whereas, bearing F is between load C and D. Apply the vector diagram to calculated dynamic reaction at bearing F.
A shaft 1.4 m long carries four eccentric loads A, B, C, and D. spaced at 0; 0.45; 0.75, and 1.4 m from one end. The loads are 7.5; 11; 15 and 6 kg respectively, and the eccentricities are 36; 48; 54, and 96 mm. The directions of the eccentricities of B, C, and D relative to A are 60°, 200°, and 270°. The shaft is carried in bearings E and F, which are 0,175 m and 1 m from A. respectively. Bearing E is located between load A and B. Whereas, bearing F is between load C and D. Apply the vector diagram to calculated dynamic reaction at bearing F.
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Transcribed Image Text:A shaft 1.4 m long carries four eccentric loads A, B, C, and D. spaced at 0;
0.45; 0.75, and 1.4 m from one end. The loads are 7.5; 11; 15 and 6 kg
respectively, and the eccentricities are 36; 48; 54, and 96 mm. The directions
of the eccentricities of B, C, and D relative to A are 60°, 200°, and 270º. The
shaft is carried in bearings E and F, which are 0,175 m and 1 m from A.
respectively. Bearing E is located between load A and B. Whereas, bearing F
is between load C and D. Apply the vector diagram to calculated dynamic
reaction at bearing F.
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