A bar is supported with a pin support as shown. Determine the maximum force, F, that could be applied tothe bar when considering each type of stress listed below. The dimensions of the bar are shown in theparameters table below. Assume that the pin passing through the support has the same diameter as thehole, D.aSection a-a→T↑WparametersvalueunitsW1inT0.1875inD0.375inS0.5inFailure Stress (ksi) tensile stresscomponentbarpinbSection b-b→T←BY NO SA2023 Joe Grabershear stressσεTbearing stressты362560403065What is the maximum force allowed considering the failure of the bar in tension?F =kipWhat is the maximum force allowed considering the failure of the bar by bearing stress?F=kipWhat is the maximum force allowed considering the failure of the bar by shear stress?F =kipWhat is the maximum force allowed considering the failure of the pin by shear stress?F=kipF

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Answered: A bar is supported with a pin support…

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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A steel cable having a diameter of 0.4 in. wraps over a drum and is used to lower an elevator having a weight of 80 lb. The elevator is 150 ft below the drum and is descending at the constant rate of 2 ft>s when the drum suddenly stops. Determine the maximum stress developed in the cable when this occurs. Est = 29(103) ksi, sY = 50 ksi.
P12.69 At a point in a stressed body, the known stresses areσ x = 9 ksi (C), σ y = 13 ksi (T), σ z = 22 ksi (T), τ xy = 4 ksi, τ xz = −19 ksi,and τ yz = 8 ksi. Determine(a) the stress invariants.(b) the principal stresses and the absolute maximum shear stressat the point.
Indicate the points on the stress-strain diagram which represent the proportional limit and the ultimate stress.
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1) A cylindrical pressure vessel is fabricated from steel plating that has a thickness of 20 mm. The diameter of the pressure vessel is 450 mm, and it's length is 2.0 m. Determine the maximum internal pressure that can be applied if the longitudinal stress is limited to 140 MPa and the circumferential stress is limited to 60 MPa 2) A compound thin cylinder has a common diameter of 100 mm, and the inner cylinder has a thickness of 2,5 mm. The radial pressure between the two cylinders is 200 KPa and the difference between the two common diameters before shrinkage was 0,004305 mm. E=200 GPa Determine : A) Thickness of the outer cylinder B) Resultant hoop stresses in both cylinders if the compound cylinder is subjected to an internal pressure of 180 KPa
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