the free body diagram for member AB in the crane structure shown. Determine the the link BC TENSION LINK 10.5m TO K...
INCLUDE A FREE BODY DIAGRAM Determine the force in members BC, HC, and HG. State if the members are in tension or compression. 5 KN 4 KN 4 KN 2 KN G 5 m -5m -5m-e-5m--
1)Determine the force in member AB, and state if the member is in tension or compression. 2)Determine the force in member AF, and state if the member is in tension or compression. 3)Determine the force in member BC, and state if the member is in tension or compression. 4)Determine the force in member BE, and state if the member is in tension or compression. 5)Determine the force in member BF, and state if the member is in tension or compression....
Determine the member force for member ab , ac and bc the trusses shown in the figure below, determine the member forces for members ab, ac and bc 5. For 12 m C. 8@4 m 32 m Joint C
Reactions of all pins and members must be calculated. Draw the free-body diagram of each member (AB, BC, AD, EDC) and pin (A, B, C, D, E). Then, find all the forces previously reported. Force at C (5 kN) is applied on the pin C 5 kN/m 1 kN/m 1 kN/m 2 kN-m 2 m 1.5 m 1.5 m 5 kN
The forces acting on member 80 are shown in the free-body diagram. a = 2 m, b-2m, c-sm, d-2.5m, ITall-llTnell-liit, Foyl 20.6 kN, Foll -0.48 kN. Express each force acting on 8D in terms of rectangular component vectors. Exercise 2.5.65 BC TBA d-써 Weighs 5.0 kN TBC Fpy D TBA D: FE
2. (a) Draw a free body diagram for member ABC shown below. (b) Determine the reactions at the supports A and C. P = 10 kN and a = 1 m. Begin your solution on this page 30
1) Check stability and determinacy of the structure 2) draw free body diagram 3) determine reactions 4) draw shear diagram - correct values - correct shape - location of the maximum moment on member BC 5) draw moment diagram - correct values - correct shape - location of the maximum moment on member BC 6) draw deformation shape
Block B of the mechanism is pin connected to the link BC while free to move within the slot of member AD. If link BC is rotating at a constant rate of WBC = 4 rad/s, determine the angular velocity and the Coriolis acceleration of member AD at the instant shown. BC= 200 mm, and AB = 300 m. (30 point) D с ---600--0A
Using the method of joints, determine the force in each member of the truss shown. The load P = 3.6 kN. (Round the final answers to two decimal places.) 0.75 m. 0.4 m 1.4 m The force in member AC (FAc) is The force in member BC (Fc) is3.2 KN. (Compression) The force in member AB (FAB) is KN. (Tension) kN. (Tension)
Question 3: Determine the force in member AB for the linkage structure shown. 0.6 120 KN 120 KN