SITUATION 11 The system below is consisting of two solid circular cross-section bars AB and BC, joined as shown, and attached to a rigid vertical wall at the left. The system is subject to a...


SITUATION 11 The system below is consisting of two solid circular cross-section bars AB and<br>BC, joined as shown, and attached to a rigid vertical wall at the left. The system is subject to a<br>concentric axial tensile force of 250 kN at C, together with an axisymmetric ring-type load<br>applied at B having a horizontal resultant of 900 kN. For AB, E=110 GPa, and for BC, E-200 GPa.<br>500<br>1200<br>900<br>250<br>1. Determine the maximum stress on member AB.<br>2. Determine the deformation of member AB.<br>3. Determine the overall deformation of the system.<br>

Extracted text: SITUATION 11 The system below is consisting of two solid circular cross-section bars AB and BC, joined as shown, and attached to a rigid vertical wall at the left. The system is subject to a concentric axial tensile force of 250 kN at C, together with an axisymmetric ring-type load applied at B having a horizontal resultant of 900 kN. For AB, E=110 GPa, and for BC, E-200 GPa. 500 1200 900 250 1. Determine the maximum stress on member AB. 2. Determine the deformation of member AB. 3. Determine the overall deformation of the system.

Jun 11, 2022
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