17-42. The ideal column is subjected to the force F at itsmidpoint and the axial load P. Determine the maximummoment in the column at midspan. El is constant. Hint:Establish the differential equation for deflection, Eq. 17-1.The general solution is v = C1 sin kx + C2 cos kx – cx/k?,where c² = F/2EI, k² = P/EI.

Answered: Image /qna-images/answer/5f681e4e-cc3b-469b-b434-3c843a919e95.jpg

Answered: 17-42. The ideal column is subjected to…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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The two A-36 steel bars have a thickness of 1 in. and a width of 4 in. They are designed to act as a spring for the machine which exerts a force of 4 kip on them at A and B. If the supports exert only vertical forces on the bars, determine the maximum deflection of the bottom bar.
Determine the vertical deflection at joint C. (E=73GPa) using any method
F17-2. A 3.6-m wooden rectangular column has the dimensions shown. Determine the critical load if the ends are assumed to be pin-connected. E = 12 GPa. Yielding does not occur. 100 mm 3.6 m 50 mm
*17-48. The aluminum column is fixed at the bottom and free at the top. Determine the maximum force P that can be applied at A without causing it to buckle or yield. Use a factor of safety of 3 with respect to buckling and yielding. E = 70 GPa, oy = 95 MPa. %3D -5 mm 150 mm 10 mm-- 80 mm =10 mm 80 mm 5 m
17-15. Determine the maximum load P the frame can support without buckling member AB. Assume that AB is made of steel and is pinned at its ends for y-y axis buckling and fixed at its ends for x-x axis buckling. Est = 200 GPa, oy = 360 MPa. -3 m- HA 50 mm х 4 m 50 mm - 50 mm
Determine the load P if the end C is displaced 0.075 in. downward.

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