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Problem 1 Consider the beam-column shown. Determine whether the beam can support the loading show...
For the beam and loading shown, determine the vertical reaction at the support located at A. The distributed load w = 10kN/m, and the beam W 310 x 52 has a moment of inertia Ix = 119 x 106 mm4 and modulus of elasticity E = 200 GPa ЕВ с 2 m- 4 m
Question AT For the beam and loading shown in Figure Al: - a. Determine the support reactions b. Draw the shear and bending moment diagrams c. Determine the maximum absolute value of shear force and bending moment. 30 kN/m 60 kN C D K-2m-imta2m- Figure A1
For the beam and loading shown in Figure A2: - a. Determine the support reactions b. Draw the shear and bending moment diagrams c. Determine the maximum absolute value of shear force and bending moment P= 100 N P= 140 N w = 30 N/m A B 4 m 7 m 10 m 3 Figure A2.
1. (60 points) Draw axial, shear, and bending moment diagrams for the frame shown below. Draw one set of P, V, and M diagrams for Column AB, one set for Beam BE, and one set for Column DF. There is a fixed support at A and applied forces and moments as shown below. 500 lb 500 lb 5 k-ft 5 k-ft D 5 k-ft B 10 10' 10' E 500 lb/ft 10' 10' 5k s tiskt 5 k-ft 1k 2....
1) For the loading of the beam shown below, determine the maximum normal and shear stress at the wall if Kt for bending is 2.7 and K, for torsion is 2.3 If we use a steel with an Sy 600 MPa, what is the "safety factor" if we only consider the maximum normal stress? Notice the bending moment, start with a cross product to determine the moment at the wall. The vector R-[0.25,0,0.3] in meters 200 mm 25-mm-dia. round rod...
of column E-5 (do not consider modification factor, Th). Assume the beams framing in to the top of your first story column are W24x131 (bending about the strong axis) and the second story column E-5 is a W14x48. [5 points] b. Calculate the effective length factor, K, based on the end conditions in the elevation view From Table 1-1: W14x74: 1 795, ly 138 W14x48: 484, ly 51.4 W24x131: Ix 4020, ly 340 GA 10.0 3.0 500 10.0 18 788...
Consider the beam and loading shown where P= 30 kips. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. 3 kips/ft P A 6 ft -3 ft From the figures given below, identify the correct bending-moment diagram and determine the maximum absolute value of the bending moment.
structural calculations For the following loading diagram, determine the most economical size based upon the loading diagram. Apply the bending coerricitent and then determine the required sized based upon the effective moment. Loads are unfactored and the beam weight is included in the unit weights. LL = 50 K LL = 1 K/Ft 10'-0" 10-0" 15'-0 blem 3 Required Beam Size before applying bending coefficient: Mc MMAx Cb- Required Beam Size after applying bending coefficient 5. SIMPLE BEAM-UNIFORM LOAD PARTIALLY...
Problem l The beam shown below is laterally braced at D,F and F. The uniform load shown does not include the weight of the beam. Determine whether a W24x 104 ASTM A992 is adequate for bending and shear. P,-12k PL -36k 3k/ft 10 20 30 FIGURE P5.5-15 a) Determine the controlling load combination and calculate Pu (for the concentrated force) and wu (for wo plus beam's selfweight, which is a uniformly distributed load) b) Analyze the beam loaded with the...
Required information Consider the beam and loading shown. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Using singularity functions, identify the correct equations defining the shear and bending moment for the beam and loading shown. Check All That Apply O V = {P - P(x – ajo O v= {P+ P(x – al O v = {P+ P(x + a) M = {Px – P(x – a)! M...