2. Calculate the axial force on members a and d for the truss system shown in Figure 1. Indicate whether the member is in tension or compression. Show your complete solution. a. Axial force on member "a" in kN. Indicate negative if in compression. b. Axial force on member "d" in kN. Indicate negative if in compression. 20 kN 30 kN 1.5m 15 kN 1.5m 12 kN 1.5m 1.0m -2.0m

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2. Calculate the axial force on members a and d for the truss system shown in Figure 1. Indicate whether the member is in tension or compression. Show your complete solution. a. Axial force on member "a" in kN. Indicate negative if in compression. b. Axial force on member "d" in kN. Indicate negative if in compression. 20 kN 30 kN 1.5m 15 kN 1.5m d 1.5m 12 KN C E1.0m -2.0m | |

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1. A 14 m long beam is supported by hinge at the left end and roller placed 2 m from the other end. It is loaded with 10 kN concentrated load at midspan (in between 2 supports), a 5 m uniformly distributed load of 15 kN/m starting 2 m from the left support and a uniformly varying load that varies from 0 kN/m at 7m from the left support to 14 kN/m at the right end of the beam. For the beam described, calculate the reactions of the hinge and roller support. (20 pts) Reaction at the hinge support in kN. b. Reaction at the roller support in kN а.