Question 1) F=16 kN single load, M=22 kN.m moment and w=11 kN/m distributed load are acting on the beam whose loading condition is given in the figure. The length L is also given as L=4 m. The cross-sectional properties of the beam are; body height yg=207 mm, body thickness xg=18 mm, flange width xf=182 mm, flange height yf=16 mm. Point E on the section is located just below the flange-body junction. It is desired to determine the stress state in the section taken from the C level of the beam. According to this; Question1-A) Find the normal force (NC) at point C. (Write your result in kN.) Question1-B) Find the shear force (VC) at point C. (Write your result in kN.) Question1-C) Find the bending moment (MC) at point C. (Write your result in kN.m.)
Question 1) F=16 kN single load, M=22 kN.m moment and w=11 kN/m distributed load are acting on the beam whose loading condition is given in the figure. The length L is also given as L=4 m. The cross-sectional properties of the beam are; body height yg=207 mm, body thickness xg=18 mm, flange width xf=182 mm, flange height yf=16 mm. Point E on the section is located just below the flange-body junction. It is desired to determine the stress state in the section taken from the C level of the beam. According to this;
Question1-A) Find the normal force (NC) at point C. (Write your result in kN.)
Question1-B) Find the shear force (VC) at point C. (Write your result in kN.)
Question1-C) Find the bending moment (MC) at point C. (Write your result in kN.m.)
Question 1-D) Find the moment of inertia of the beam section. (Do your operations by converting the lengths to meters. Take at least 4 digits for the decimal part of your result and use the expression E for the decimal part. Write it as 5E-3 instead of 0.005.)
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