Problem 3. (3 points). Determine the nodal displacements and reaction forces using the finite element direct...
Determine the nodal displacements and reaction forces using the finite element direct method for the 1-D bar elements connected as shown below. Do not rename the nodes or elements when solving. Assume that the bars can only undergo translation in x (1 DOF at each node). Nodes 1 and 3 are fixed Element 1 has Young's Modulus of 300 Pa, length of 1 m and cross-sectional area of 1 m2. Element 2 has Young's Modulus of 200 Pa, length of 2...
Problem 4. (3 points). Determine the nodal displacements and reaction forces using the finite element direct method for the 1-D bar elements connected as shown below. Do not rename the nodes or elements when solving. Assume that bars can only undergo translation in x (1 DOF at each node). Nodes 1 and 4 are fixed Elements 1, 2 and 3 have Young's Modulus of Ei-300 Pa, E2-200 Pa, Es-200 Pa. All elements have o ae of 20 N 20 N...
Problem 2 (3 points) 1m 1m For the planar truss below, determine the nodal oay displacements in the Global Coordinate system using the finite element direct method Global y Node 2 Node 1 Global x Element 1Element 2 2m Assume all the truss members are of the same Young's modulus E-65x 109 Nm. Element 1 and element 2 have the same cross-sectional area of 0.01 m and the cross-sectional area of element 3 is 0.02 m2. Do not rename the...
Determine the nodal displacements and find the reaction forces
using the finite element method.
Correct Answer:
1 m 1000 kN - Determine displacements and reactions E = 210 GPa 1 for 1 and 2 A=6x10-4 m| E = 210 GPa 1 m →X A=672x10-4 m2 for 3 d2x = 11.91x10-m; dăx = 5.613x10-'m . Fix =-500kN; F1, =-500kN; F2y = 0; F;, = 707 kN
Solve all problems using the finite element stiffness method. For the rigid frame shown in Figure P5-4, determine (1) the nodal displacements and rotation at node 4, (2) the reactions, and (3) the forces in each element. Then check equilibrium at node 4 Finally, draw the shear force and bending moment diagrams for each element. Let E 30x 103 ksi, A 8 in2, and I 800 in.4 for all elements. 20 kip 25 ft 25 ft 40 ft Figure P5-4...
finite element methods question. I need the answer immediately pls
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Question 2) 50 Points: Consider a truss structure that is built 300 N from two identical truss elements. For the truss elements, the modulus of elasticity is E = 69 GPa, and the cross-section area is A = 968 mm². Assume that the origin (0,0) is at Node 1 and C (2000) elements 1 and 2 are connected as 1-3 and 3-2, respectively. 500N Considering the forces 300 N...
A plane structure consists of three truss elements connected to four nodes, as shown below. All trusses have cross sectional area A -7.104 m2 and elastic modulus E = 210 GPa. The length of each truss element is L = 1 m. A point force, P -5 kN, is acting on node 4 L/2 3.1 Calculate the displacements at the nodes 3.2 Calculate the reaction forces 3.3 Calculate the stress in each bar
A plane structure consists of three truss...
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Q3. A rod is under distributed and concentrated forces as shown in Figure 2. The overall length is Im, the cross-section area is 0.01m²: 40 = 1000N Concentrated forces, F4 = 500N and F5 = 10000, are applied to nodes 4 and 5, respectively. Giving the Young's modules of 2 x 1011 Pa. Please calculate the displacement on node 2, node 3, node 4 and node 5 and stress on elements 1, 2, 3 and 4...
For the rigid frame shown in figures, determine (1) the nodal displacements and rotations of the nodes, (2) the reactions, and (3) the forces in each element. 20 ft 5000 30x 10p A-10 in 200 in (for elements 1 2 and 3) 20 ft 0 1 in 4-2 in
The Finite Element question below need to be solved using
ANSYS Workbench. Kindly solve and provide the steps:
An axial load P = 100 x 103 N is applied as shown in Figure 1. Element Area (mm) Young's Modulus (Nmm2) 2 450 200x10 1600 30x103 300mm 200mm Fig.1 Using ANSYS workbench to determine the i. a) Nodal displacements b) Stress in each material c) Reaction forces i. P all the results and present in notepad and save