For the beam shown below, Young's modulus ( mathrm{E}=200 mathrm{GPa} ) and moment of inertia I ( =50 times 10^{-6} mathrm{~m}^{4} ) about its bending axis. Where ( mathrm{P}=12 mathrm{kN} ) is applied to ( mathrm{x} / mathrm{L} ), and ( mathrm{L}=6 mathrm{~m} ) Determine: a. The reaction(s) at the roller support. b. The defle solutionspile.com

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For the beam shown below, Young's modulus  (  mathrm{E}=200  mathrm{GPa}  ) and moment of inertia I  ( =50  times 10^{-6}  mathrm{~m}^{4}  ) about its bending axis. Where  (  mathrm{P}=12  mathrm{kN}  ) is applied to  (  mathrm{x} /  mathrm{L}  ), and  (  mathrm{L}=6  mathrm{~m}  ) Determine: a. The reaction(s) at the roller support. b. The deflection at point  ( x / L=0.6  ). Figure 3: Beam with fixed end and roller support experiencing load P. solutionspile.com

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(Solved): For the beam shown below, Young's modulus \( \mathrm{E}=200 \mathrm{GPa} \) and moment of inertia ...

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