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A rectangular steel block is 4inches long in the x direction, 2inches long in the y direction, and 3inches long in the z direction. The block is subjected to triaxial loading of three uniformly distributed forces as follows: 50kips tension in the x direction, 65kips compression in the y direction, and 55kips tension in the z direction. If v=0.30 and E=29x10^6 psi. a. What is the total elongation in the x-direction? b. What is the total elongation in the y-direction? c. What is the total elongation in the z-direction?

Elements Of Electromagnetics

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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A rectangular steel block is 4inches long in the x direction, 2inches long in the y direction, and 3inches long in the z direction. The block is subjected to triaxial loading of three uniformly distributed forces as follows: 50kips tension in the x direction, 65kips compression in the y direction, and 55kips tension in the z direction. If v=0.30 and E=29x10^6 psi.

a. What is the total elongation in the x-direction?

b. What is the total elongation in the y-direction?

c. What is the total elongation in the z-direction?

d. Single Uniformly Distributed Load in the x-direction that would produce the same deformation in the z-direction as the original loading

-Draw and label the diagram correctly, No diagram in the solution will be marked wrong.
-Shortcut solution will be marked wrong.
- Direction of the assumption of the equilibrium equation must be shown, no direction will be marked wrong.

A rectangular steel block is 4 inches long in the x direction, 2 inches long in the y direction, and 3 inches long in the
z direction. The block is subjected to a triaxial loading of three uniformly distributed forces as follows: 50 kips tension
in the x direction, 65 kips compression in the y direction, and 55 kips tension in the z direction. If v = 0.30 and
E = 29 x 10° psi.

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3. The bar shown below is composed of two pieces, AC and CD. The bar is attached to the wall at point A. The length L = 10 in. The cross sectional areas are: AAC = 4 in? and AcD = 2 in?. The Young's Moduli are: EAC =20 Msi and Ecd= 15 Msi Two forces are applied at points B and D: PB = 50 kips and PD = 20 kips. Determine: (a) the reaction force at A (specify –→ or +) and (b) the deflection of point D (specify → or +). (Hint for (b): Think about how many pieces you must subdivide the rod into.) Ans: RA = 30 kips (+), dp = 7.9167×10-3 in (E) A В C D Pp L 2L L
Please show the formula used and free body diagram A rectangular steel block is 4 inches long in the x direction, 3 inches long in the y direction, and 4 inches long in the z direction. The block is subjected to a triaxial loading of three uniformly distributed forces as follows: 48 kips tension in the x direction, 60 kips compression in the y direction, and 54 kips tension in the z direction. If ν = 0.30 and E = 29 × 106 psi, determine the single uniformly distributed load in the x direction that would produce the same deformation in the y direction as the original loading.

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