As shown in Figure Q3(a), a uniform distributed load of 20 kN/m is applied to the centre of the beam. The cross section

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answerhappygod
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As shown in Figure Q3(a), a uniform distributed load of 20 kN/m is applied to the centre of the beam. The cross section

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As Shown In Figure Q3 A A Uniform Distributed Load Of 20 Kn M Is Applied To The Centre Of The Beam The Cross Section 1
As Shown In Figure Q3 A A Uniform Distributed Load Of 20 Kn M Is Applied To The Centre Of The Beam The Cross Section 1 (18.28 KiB) Viewed 50 times
As Shown In Figure Q3 A A Uniform Distributed Load Of 20 Kn M Is Applied To The Centre Of The Beam The Cross Section 2
As Shown In Figure Q3 A A Uniform Distributed Load Of 20 Kn M Is Applied To The Centre Of The Beam The Cross Section 2 (16.63 KiB) Viewed 50 times
As shown in Figure Q3(a), a uniform distributed load of 20 kN/m is applied to the centre of the beam. The cross section of the beam is shown in Figure Q3(b). The beam has the modulus of elasticity of E= 200 GPa. By using the Macaulay's method, (i) Determine the equations of slope and deflection. (10 marks)
2 m C 20 kN/m 4m FIGURE Q3(a) D 2 m B τιιτπ 00€ 100 mm Cross section FIGURE Q3(b)
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