4-11 Determine the moment of each of the three forces about point A F-250N -151 If...
4. The soil below creates a trapezoidal distributed loading in response to the three point loads. Ignore the weight of the concrete slab in this problem. What do the intensities w, and w2 need to be in order to support the three column loadings? In other words, find w, and w2 so that the sum of the forces on the concrete slab equals zero and the sum of all the moments equals zero. (20 pts.) 80 KN 60 KN 1...
4. The soil below creates a trapezoidal distributed loading in response to the three point loads. Ignore the weight of the concrete slab in this problem. What do the intensities wi and wy need to be in order to support the three column loadings? In other words, find wi and w2 so that the sum of the forces on the concrete slab equals zero and the sum of all the moments equals zero. (20 pts.) 80 KN 60 KN 50...
4. The soil below creates a trapezoidal distributed loading in response to the three point loads. Ignore the weight of the concrete slab in this problem. What do the intensities wi and w2 need to be in order to support the three column loadings? In other words, find wı and w2 so that the sum of the forces on the concrete slab equals zero and the sum of all the moments equals zero. (20 pts.) 80 KN 60 KN 50...
Determine the moment of each of the three forces about point B, if F1=250N, F2=300N, F3=500N 2m3 m 14 m (MF1)B, (MF2), (MF3)B = [Select] [Select] [ Select] Nm
F-375lb 1. Determine the moment about point A of each of the three forces acting on the beam. Then determine the resultant moment. (5 points) FBD --tort 160
Determine the moment of each of the three forces about point A. Fi 250 N 30 2 300 N 60° 4 m F 500 N
(5 pt.) Determine the moment about point A caused by the forces at B and C. Be sure to indicate the direction of the rotation as clockwise or counterclockwise. (Hint: Break the 2.5kN force into its x & y components first. Which component creates a moment about point A? Which component does not?). 10,kN 2.5 kN +A C45 7.5 m7.5 m 2. (5 pt.) Determine the magnitude and location of the resultant of the parallel force system. Locate the resultant...
4-47. Determine the magnitude of the moment of each of the three forces about the axis AB. Solve the problem (a) using a Cartesian vector approach and (b) using a scalar approach. IF 0N 25 N F -45 N SOLUTION a) Vector Analysis Position Vector and Force Vector: 1- {-1.5j} m - - 0 F:- {-60k}N F. - {8Si) N Unir Vector Along AB Aris: (2-0)i + (0 - 1.5) * V(2 - 0) + (0 - 15) F -...
21.5 KN Determine the total moment about point of the forces The and TCH - 13.0 kN acting on structure shown in Fig. I. (BK = 1.5 m; CL = 1.0 m: OG 2.5 in: GF 0.5 m. FE = 0 5 m, GH - 2.0 m). 21.5 KN 1.0 in DI THE 6.0 m Fig. 1 8.0 m Teu 25 m E JE 0.5 m 0.5 m 2.0 m em No.2 (25%):
Determine the resultant moment produced by the forces about point O. Assume F1=530N, F2= 660N Fi 0.125 m0.3 m 60° 0.25 m