The beam shown below has a Young’s modulus of 50 GPa and has a square cross-section of side 1 cm. Determine the following using the second-order integration method: (a) Bending moment M(x) along the length of the beam. (b) The slope of the beam θ(x). (c) The deflection of the beam v(x).
3. The beam shown below has a Young’s modulus of 50 GPa and has a square cross-section of side
1 cm. Determine the following using the second-order integration method:
(a) Bending moment M(x) along the length of the beam.
(b) The slope of the beam θ(x).
(c) The deflection of the beam v(x).
(d) Slope of the beam at support θB
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Considering the solution above, can you help with part (d)
3. The beam shown below has a Young’s modulus of 50 GPa and has a square cross-section of side
1 cm. Determine the following using the second-order integration method:
(a) Bending moment M(x) along the length of the beam.
(b) The slope of the beam θ(x).
(c) The deflection of the beam v(x).
(d) Slope of the beam at support θB
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