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2.3 a. For the spring assemblage shown in Figure P2-3, obtain the global stiffness matrix by direct superposition. 2000- b. If nodes 1 and 5 are fixed and a force P is applied at node 3, determine the nodal displacements. c. Determine the reactions at the fixed nodes and S. Fr Figure P2-3 k k

2.3 a. For the spring assemblage shown in Figure P2-3, obtain the global stiffness matrix by direct superposition. 2000- b. If nodes 1 and 5 are fixed and a force P is applied at node 3, determine the nodal displacements. c. Determine the reactions at the fixed nodes and S. Fr Figure P2-3 k k

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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problem 2.5

2.3 a. For the spring assemblage shown in Figure P2-3, obtain the global stiffness matrix by direct superposition. b. If nodes 1 and 5 are fixed and a force P is applied at node 3, determine the nodal displacements. c. Determine the reactions at the fixed nodes and S. prinários f Figure P2-3 Figure P 2-5 Figure P2-4 2.5 For the spring assemblage shown in Figure P2-5, obtain the global stiffness matrix by the direct stiffness method. Let k(¹) = 1 kip/in., k(²) = 2 kip/in., k(3) = 3 kip/in., k(4) = 4 kip/in., and k(s) = 5 kip/in. ffff 1 k 2 3 . 4 k -X unde ledol
Transcribed Image Text:2.3 a. For the spring assemblage shown in Figure P2-3, obtain the global stiffness matrix by direct superposition. b. If nodes 1 and 5 are fixed and a force P is applied at node 3, determine the nodal displacements. c. Determine the reactions at the fixed nodes and S. prinários f Figure P2-3 Figure P 2-5 Figure P2-4 2.5 For the spring assemblage shown in Figure P2-5, obtain the global stiffness matrix by the direct stiffness method. Let k(¹) = 1 kip/in., k(²) = 2 kip/in., k(3) = 3 kip/in., k(4) = 4 kip/in., and k(s) = 5 kip/in. ffff 1 k 2 3 . 4 k -X unde ledol
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