The beam shown will be constructed from a standard steel W-shape using an allowable bending stress...
Knowing that the allowable normal stress for the steel used is 162 MPa, determine the section modulus and select the most economical wide-flange beam to support the loading shown using the table given. 90 kN 90 kN 90 kN B C A 1.8 m 0.6 m 0.6 m 0.6 m Shape S(103 mm3) 1460 1060 1030 1050 W460 74 W410x 60 W360 x 64 W310 74 X X 103 mm3 The section modulus is The most economical wide-flange beam is...
A beam is to be made of steel that has an allowable bending stress of 165 MPa and an aliowable shear stress of 100 MPa. Select an appropriate W shape that will carry the loading shown in Figure. 20 kN 20 kN/m 4m2 m
STANDARD VIEW PRINTER VERSION BACK P8.037 GO Multipart The beam shown in Figure P8.37 will be constructed from a standard steel w shape using an allowable bending stress of 22 ksi. Assume Po=8.0 kips, Pc-13.5 kips, Po 4.0 kips and a-5 ft (a) Develop a list of five acceptable shapes that could be used for this beam. On this list, include the most economical W10, w12, w14, W16, and W18 shapes (b) Select the most economical W shape for this...
1. Calculate Ay and Ey, the vertical reaction forces at supports A and E, respectively. 2. Determine the maximum bending moment magnitude for the beam. One method to obtain this value is to construct shear-force and bending-moment diagrams on a piece of paper. Determine the maximum bending moment magnitude from your bending-moment diagram. 3. Calculate the minimum required section modulus if the allowable bending stress is 24 ksi 4. Below, fill in the missing portions of the beam shape designations...
QUESTION 4. For the beam shown in the figure, the maximum allowable bending stress is 180 MPa and the maximum allowable shear stress is 120 MPa. Choose an appropriate Wide Flange Section (W) that can carry the distributed force and the point force safely. 10 kN 8 kN/m C B 4 m 2 m
Fig. P5. metric rolled-steel channels are to be welded back to back and 5,40 the loading shown. Knowing that the allowable normal stress o support d is 200 MPa, determine the most economical channels that Two metri MPa, r the steel used can be used. 80 kN 30 kN/m 1.8 m 0.9 m 3.6 m Fig. P5.40 5.38 and 5.39 Knowing that the allowable stress for the steel used is 165 MPa, select the most economical S-shape beam to support...
The beam has the triangular cross section shown. The allowable stress in bending is 150 MPa. Determine the largest allowed uniform distributed load w. 6 m 300 mm 150 mm
2. For the beam and loading shown, design the cross section of the beam, knowing that the grade of timber used has an allowable normal stress of 12 MPa 2.5 KN 2.5 KN 100 mm 6 kN/m 0.6 m 0.6 m 3. Knowing that the allowable normal stress for the steel used is 160 MPa, select the most economical S shape beam to support the loading shown. SO KN 100 kN/m B 0.8m- 1.6 m
Question2 A steel beam is designed to carry 2 umiform distributed loads which is shown in Figure e. Apply singularity function method and refer to the properties of the rolled-steed -W shape provided in the formula sheet, choose the most economical Wshape for the beam if the maximum allowable deflection at E is 5mm. Use E 200GPa. 119 marks! 115 kN/m 75 kN/m W - Shape Figure 02 Question2 A steel beam is designed to carry 2 umiform distributed loads...
1. Knowing that the allowable bending stress for the steel used is 24 ksi, select the most economical wide-flange beam to supoort the loading shown. (Hint: start by drawing the shear and moment diagrams). 2 kips/ft 12.5 kips 3 ft 3 ft