find equivalent stiffness. To be solved using EI. Dimension as given
find equivalent stiffness. To be solved using EI. Dimension as given for AB COFA All beams...
Solve all problems using the finite element stiffness method. For the beams shown in Figure P4- 21 determine the nodal displacements and slopes, the forces in each element, and the reactions. 2000 lb/ft E = 29 x 106 psi I = 200 in. - 15 ft 15 ft — Figure P4-21
Solve all problems using the finite element stiffness method.For the beams shown in Figure P4- 22 determine the nodal displacements and slopes, the forces in each element, and the reactions. 4000 lb/ft E=29 × 106 psi 1 = 1 50 in.4 10 ft Figure P4-22
Given: 1. Beam stiffness equation:- M 12 6L -12 6L1 (dly 4L2 -6L 2L? | 12 -61 day SYMM. 422] 2) fay 2. Truss stiffness equation:- 1 A 1. AE1 -11&x) Il-1 illal r-CS007 10 OCS.C = cose, S = sine ฉบับส่งห้องสมุด 3. Fixed end moment:- wa? (612 - Sal. +3a?) (2b-a) Mb (b-2a) ** The 2441 * * Problem 5 (10 Points): By using any analysis method, find all the reactions of the beam as shown. Given constant EI....
1. For the given framing plan, first identify all unique beams and columns. After that, find out the final load transferred on each beam and girder. Finally draw load diagrams for all beams and girders, and determine the support reactions. 50 ft 50 ft 50 ft 25 ft I(2 B1 25 ft 3 1 25 ft 4 25 ft A B D Use: Live load 110 PSF ead load excluding weight of the slab Thickness of concrete slab = 5...
Given: About a regular singular point x = 0, I have solved for and , I have also solved for Therefore a.) I need to find the first three non-zero terms of the two linearly independent solutions using the GENERAL RECURRENCE FORMULA: Where NOT BY PLUGGING THE SERIES SOLUTION INTO THE DIFFERENTIAL EQUATION. Please show ALL your steps when using the formula, every value you plug in and how to do it for the first 3 terms ()
2. (15) Given the circuit, find the Thevenin's equivalent circuit without R Using the equivalent to determine the resistance R so that it can achieve the maximum power a. b. e caleulate the maximum power receved byR 24 V
Given the regular expression: ^[ABC][^AB]$ find all the matching patterns (could be more than one): a) A b) AB c) ADBC d) D e) None
Given W = 100T/m, L=24m, EI = constant Using the slope deflection method: 1. Find the Fixed End Moments 2. Write the Slope Deflection and equilibrium Equations 3. Solve for Joint Rotations/Deflections 4. Find Moments at A, left of B, right of B 5. Draw Qualitatively the Deflected Shape 24 (m) 12 (m) 24 (m) 12 (m)
GIven W = 100T/m, L=24m, EI = constant Using the slope deflection method: 1. Find the Fixed End Moments 2. Write the Slope Deflection and equilibrium Equations 3. Solve for Joint Rotations/Deflections 4. Find Moments at A, left of B, right of B 5. Draw Qualitatively the Deflected Shape q,= 980 24 (m) 12 (m) q,= 980 24 (m) 12 (m)
Important: Show all procedure. 1. a. Using Thevenin's theorem, find the equivalent circult to the left of the terminals a and b in the circult shown below. Hence find I. 622 6 Ω a 48 V 8 A {40 122 b. Find the Norton equivalent circuit to the left of the terminals a and b in the circuit shown above. Either you can use Nortoo's theorem or use source transformation from Thevenin's circuit of part a.