A load of 3 kN is applied to a cantilever beam as shown below. The force can be resolved into a horizontal and vertical force component acting on the top of the beam, which results in combined loading conditions. The side view (elevation) and cross section of the beam are shown below. Determine the normal stress and shear stress at the mid-height of the vertical components of the beam cross section at section a-a. Note that the neutral axis location does not need to be calculated as it is provided for you in the cross section. As your answer to this quiz question on Canvas, enter the normal stress rounded to the nearest kPa, In your written work, also include the shear stress value rounded to the nearest kPa. 13 12 a 2 m 1 m a 250 mm 20 mm y = 59.09 mm %3D 200 mm 15 mm- -15mm

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A load of 3 kN is applied to a cantilever beam as shown below. The force can be resolved into a horizontal and vertical force component acting on the top of the beam, which results in combined loading conditions. The side view (elevation) and cross section of the beam are shown below. Determine the normal stress and shear stress at the mid-height of the vertical components of the beam cross section at section a-a. Note that the neutral axis location does not need to be calculated as it is provided for you in the cross section. As your answer to this quiz question on Canvas, enter the normal stress rounded to the nearest kPa. In your written work, also include the shear stress value rounded to the nearest kPa. 13 12 5. a -2 m 1 m- 250 mm 20 mm y = 59.09 mm N- 200 mm 15 mm 15 mm