(d) Using the singularity function method, express the deflection y for the entire beam ABC as the equation for x (including E, I, P, a, L). (e) And use the following values to represent the deflection value yC at the right end part C as mm. (I=300x106 mm4, E=200 GPa, P=200 kN, L=4.5 m, a=1.2 m)
The beam ABC made of steel is receiving a point load P at the right end C.
Please solve two problems from d to e.
(a) Find the reaction from the supports A and B.
(b) Use the double integration method to express the deflection y for the beam AB part as an equation for x (including E, I, P, a, L).
(c) And use the following values to express the maximum value ymax of the deflection at the beam AB as mm. (Figure: I=300x106 mm4, E=200 GPa, P=200 kN, L=4.5 m, a=1.2 m)
(d) Using the singularity function method, express the deflection y for the entire beam ABC as the equation for x (including E, I, P, a, L).
(e) And use the following values to represent the deflection value yC at the right end part C as mm. (I=300x106 mm4, E=200 GPa, P=200 kN, L=4.5 m, a=1.2 m)
Step by step
Solved in 4 steps with 4 images