Introduction To Finite Element Analysis And Design
2nd Edition
ISBN: 9781119078722
Author: Kim, Nam H., Sankar, Bhavani V., KUMAR, Ashok V., Author.
Publisher: John Wiley & Sons,
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Textbook Question
Chapter 1, Problem 42E
Repeat problem 41 for the new configuration with element 5 added, as shown in figure (b)
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Q/1-B: For the solid geometry shown in figure below, construct the required CSG
Solve only Problem 4-53
Draw using tip to tail method please show steps
4-3. Draw a free-body diagram of member BD in Figure P4-3.
10
40 mm
60 mm
mm
В
50 N
15 mm
15 mm
Chapter 1 Solutions
Introduction To Finite Element Analysis And Design
Ch. 1 - Answer the following descriptive questions a....Ch. 1 - Calculate the displacement at node 2 and reaction...Ch. 1 - Repeat problem 2 by changing node numbers; that...Ch. 1 - Three rigid bodies, 2,3, and 4, are connected by...Ch. 1 - Three rigid bodies, 2,3, and 4, are connected by...Ch. 1 - Consider the spring-rigid body system described in...Ch. 1 - Four rigid bodies, 1, 2, 3, and 4, are connected...Ch. 1 - Determine the nodal displacements, element forces,...Ch. 1 - In the structure shown, rigid blocks are connected...Ch. 1 - The spring-mass system shown in the figure is in...
Ch. 1 - A structure is composed of two one-dimensional bar...Ch. 1 - Two rigid masses, 1 and 2, are connected by three...Ch. 1 - Use the finite element method to determine the...Ch. 1 - Consider a tapered bar of circular cross section....Ch. 1 - The stepped bar shown in the figure is subjected...Ch. 1 - Using the direct stiffness matrix method, find the...Ch. 1 - A stepped bar is clamped at one end and subjected...Ch. 1 - A stepped bar is clamped at both ends. A force of ...Ch. 1 - Repeat problem 18 for the stepped bar shown in the...Ch. 1 - The finite element equation for the uniaxial bar...Ch. 1 - The truss structure shown in the figure supports a...Ch. 1 - The properties of the two elements of a plane...Ch. 1 - For a two-dimensional truss structure as shown in...Ch. 1 - The 2D truss shown in the figure is assembled to...Ch. 1 - For a two-dimensional truss structure as shown in...Ch. 1 - The truss shown in the figure supports force Fat...Ch. 1 - Prob. 27ECh. 1 - In the finite element model of a plane truss in...Ch. 1 - Use the finite element method to solve the plane...Ch. 1 - The plane truss shown in the figure has two...Ch. 1 - Two bars are connected as shown in the figure....Ch. 1 - The truss structure shown in the figure supports...Ch. 1 - It is desired to use the finite element method to...Ch. 1 - Determine the member force and axial stress in...Ch. 1 - Determine the normal stress in each member of the...Ch. 1 - The space truss shown has four members. Determine...Ch. 1 - The uniaxial bar shown below can be modeled as a...Ch. 1 - In the structure shown below, the temperature of...Ch. 1 - Prob. 39ECh. 1 - The three-bar truss problem in figure 1.23 is...Ch. 1 - Use the finite element method to determine the...Ch. 1 - Repeat problem 41 for the new configuration with...Ch. 1 - Repeat problem 42 with an external force added to...Ch. 1 - The properties of the members of the truss in the...Ch. 1 - Repeat problem 44 for the truss on the right side...Ch. 1 - The truss shown in the figure supports the force ....Ch. 1 - The finite element method as used to solve the...Ch. 1 - Prob. 48E
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- please answer problem 5-6arrow_forwardPlease show tip to tale method steps 4-4. Draw a free-body diagram of member AC in Figure P4-4. to -2 m 3 m A T B C 1 12 50 kN FIGURE P4-4 LOarrow_forwardIf T3 was removed in the figure in problem 1, what should be the angle from y-axis of the T4 so that tensions in T1 and T4 are equal?arrow_forward
- Problem 5 For the following figure, ● Find the reactions expressed as x and y force components Find the reactions expressed as a vector with magnitude and direction ● F = 650 N 100 45° F₂ = 750 N F = 900 Narrow_forwardIn a swiveling joint mechanism, as shown in figure below, the driving crank OA is rotating clockwise at 200 r.p.m. The lengths of various links are: OA - 50mm; AB = 350 mm; AD = DB; DE = EF = 250 mm and CB - 125 mm. The horizontal distance between the fixed points and C is 300 mm and the vertical distance between F and C is 250 mm. For the given configuration, determine: 1- Velocity of the slider block F 2. Angular velocity of the link DE. And 3. Velocity of sliding of the link DE in the swivel blockarrow_forward- For the spring system given in Figure 1, Create the element matrices as well as the global stiffness and force matrix, note that k=1. Figure 1arrow_forward
- Only problem 2.3-3arrow_forwardFor the loaded beam shown in Figure below : 2.1.Determine the reaction forces at the points of support of the beam in Figure Q2 above by applying the principle of equilibrium of moments and start your solution by drawing free body diagram of the beam. 2.2. Develop the equations for shear force and bending moment for the spans AB, BC and CD of the loaded beam shown above and for each equation developed, determine the values of shear forces and bending moment at the points A, B, C and D 2.3. Draw the shear force and bending moment diagrams for the loaded beam shown above.arrow_forwardObtain the number of degrees of freedom of the mechanism shown in Figure toarrow_forward
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