71 LTE TL Deflection 1- The beam is subjected to the linearly varying distributed load. Determine the maximum slope and the maximum deflection of the beam. El is constant. M₂ 2- Determine the equation of the elastic curve, the slope at A, and the deflection at B of the simply supported beam. El is constant. M₂ کا с ۳:۰۷ م "2 0 الشيت.pdf 3-Determine the maximum deflection of the cantilevered beam. The beam is made of material having an E 200 GPa and I= 65 x 10 mm. = 30 kN/m 15KN 4- The beam is subjected to the load P as shown. Determine the magnitude of force F that must be applied at the end of the overhang C so that the deflection at C is zero. El is constant -13- 6- The wide-flange beam has a length of 21., a depth 2c, and a constant EL. Determine the maximum height h at which a weight W can be dropped on its end without exceeding a maximum elastic stress in the beam. 7- The rod has a circular cross section with a moment of inertia I. If a vertical force P is applied at A, determine the vertical displacement at this point. Only consider the strain energy due to bending. The modulus of elasticity is E 8- The rod has a circular cross section with a polar moment of inertia J and moment of inertia I. If a vertical force P is applied at A, determine the vertical displacement at this point. Consider the strain energy due to bending and torsion. The material constants are E and G. →

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: 71 4G .... Vo LTE TL Deflection 1- The beam is subjected to the linearly varying distributed load. Determine the maximum slope and the maximum deflection of the beam. El is constant. Me Ma ... 2- Determine the equation of the elastic curve, the slope at A, and the deflection at B of the simply supported beam. El is constant. 30 kN/m الشيت.pdf B 3:07 م "2 © D 3- Determine the maximum deflection of the cantilevered beam. The beam is made of material having an E 200 GPa and I = 65 x 10 mm. 15KN 4- The beam is subjected to the load P as shown. Determine the magnitude of force F that must be applied at the end of the overhang C so that the deflection at C is zero. El is constant C -13- 6- The wide-flange beam has a length of 2L, a depth 2c, and a constant EI. Determine the maximum height h at which a weight W can be dropped on its end without exceeding a maximum elastic stress in the beam. 7- The rod has a circular cross section with a moment of inertia I. If a vertical force P is applied at A, determine the vertical displacement at this point. Only consider the strain energy due to bending. The modulus of elasticity is E inertial 8- The rod has a circular cross section with a polar moment of inertia J and moment I. If a vertical force P is applied at A, determine the vertical displacement at this point. Consider the strain energy due to bending and torsion. The material constants are E and G.