Initial data: Rigid body (a x b) is connected with
immovable base by plane bar system
(plane truss) and loaded by plane forces. The sizes and load
components are given below
(table 1 and schemes).
Define: Internal force of bars and reaction of supports.
Initial data: Rigid body (a x b) is connected with immovable base by plane bar system (plane truss) and loaded by plane forces. The sizes and load components are given below (table 1 and schemes)....
Technical MechanicsCourse work: Problem 1.Input data: Rigid body (a x b) is connected with immovable base by plane bar system (plane truss) and loaded by plane forces. The sizes and load components are given below (table 1 and schemes).Define: Internal force of bars and reaction of supportsVar.Nr13.a, m2.2b, m1.7M1, kNm3.5F1, kNF2, kNq, kN/m2.44.51.5
Technical Mechanics Course work: Problem 1. Input data: Rigid body (a x b) is connected with immovable base by plane bar system (plane truss) and loaded by plane forces. The sizes and load components are given below (table 1 and schemes). Define: Internal force of bars and reaction of supports. Var. Nr a, m 14. 3.0 b, m 2.5 Mi, kNm 3.0 Fı, kN 2.5 14 F2 Мі b F a a 9 b
i
need like a course work and iam also attaching a model of course
work in down please do like that. First page is the question rest
pages which i written as model is the model of the questionTechnical Mechanics Course work: Problem 1. Input data: Rigid body (a x b) is connected with immovable base by plane bar system (plane truss) and loaded by plane forces. The sizes and load components are given below (table 1 and schemes). Define:...
Problem 1.
Strength analysis of the statically undetermined bar system at
tension (compression) Design the plane bar system for supporting of
a rigid beam.
Accept that the all bars have the same cross-sectional area and
made of the same material:
1) Calculate the axial forces in the cross-section of bars
2) Define the cross-section area of bars due the strength
condition
3) Calculate the extension of bars Scheme of system and input
data are given below
Scneme of system and...
Problem 1) A load, P, is supported by a structure consisting of rigid bar BDF and three identical rods (cross-sectional area, A length, L; and elastic modulus, E), as shown. Load P is offset from the left bar by distance, c. Bars 1 and 2 are separated by distance, a; bars 2 and 3 are separated by distance, b. Symbolically (using the necessary variables) derive the three equations necessary to solve for the forces (Fi, F2, and F3) in the...
A 3 m rigid bar AB is supported with a vertical translational spring at A and a pin at B The bar is subjected to a linearly varying distributed load with maximum intensity g Calculate the vertical deformation of the spring if the spring constant is 700 kN/m. (ans: 21.43 mm) 2. A steel cable with a nominal diameter of 25 mm is used in a construction yard to lift a bridge section weighing 38 kN. The cable has an...