Please dont use Ai to answer the quastion. Its not a graded assignment. Your colleague asks you to help them withthe design of the beam shown on the right.Specifically, you are asked to perform thefollowing so that the moment connection atA can be designed:A12 ftB5 ft(a) Use the Müller-Breslau principle todevelop qualitative influence lines (IL) to determine the live load patterns that will producemaximum (positive and negative) shear forces and bending moments at A. The live loadconsists of a distributed load, w₁ = 1.0 kip/ft and one concentrated load, P₁ = 7.5 kip.(b) Determine the maximum (positive and negative) factored shear forces, V₁ at A and theirassociated bending moments.(c) Determine the maximum (positive and negative) factored bending moments, M, at A and theirassociated shear forces.For (b) and (c): Use the three-moment equation for your calculations using the moment at A asthe redundant. Assume a dead load, Wp = 125 lb/ft. Use standard ASCE 7-22 load factors andcombinations.

Please refer below pages.If you have any doubts please feel free to ask.Explanation:Step 1:Step…

Answered: Your colleague asks you to help them…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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A composite beam system is composed of steel sections on which a reinforced concrete slab system has been attached. The 150 mm thick slab is concrete span lengths of 13 m and spacing of 3.5 m. The exterior beam has an edge with fc' = 28 MPa. The two-span beams with fixed exterior supports have distance of 0.85 m. The 20mm Grade 40 rebars in the negative moment regions are spaced center-to-center at 140 mm. The steel beams are A-50 W27x102. Full composite action is assumed.
1. When analyzing influence lines of trusses, the bar forces are assumed as? Group of answer choices Compression Neither Compression nor Tension Either Tension or Compression Tension2. In drawing influence line for moment of beam using Muller Breslau’s principle, the point to be determined is replace by a ________________. Group of answer choices slider roller internal hinge hinge
When plotting an influence line for moment, what should be the ordinate? Group of answer choices Shear Values x distance values from origin Moment Values Reaction Values This is a type of load varies in length when getting the maximum internal forces of a structure. Group of answer choices Dead Load Live Load Moving load Axle Loads In drawing influence line for shear of beam using Muller Breslau's principle, the point to be determined is replace by a Group of answer choices roller slider internal hinge pin The following statements are true except: Group of answer choices The ordinate for influence line for reaction of a continuous beam will exceed one The ordinate for influence line for shear of simply supported beam will not exceed 1 The ordinate for influence line for moment can be greater than 1 The ordinate for influence line for moment of a simply supported beam will not exceed
A two-dimensional beam structure or frame (ABCD, shown below) has a concentrated load, P, acting on Point D. You can assume that the connections at B and C have sufficient strength to react the applied load and that loads and moments are transferred between the beams. You can assume that the members have a constant cross-section and that El-constant. B A 2m y L. C P-3kN D 2m In order to evaluate the design you must: (a) Sketch the deformed shape of the frame, solve the reaction forces and construct the bending moment diagram for the frame. (b) Use any method to determine the vertical deflection at Point D. Ensure that you clearly explain your approach and show your final answer. Clearly state any assumptions made. (c) If the bending rigidity, El, of the frame between Point B and Point C was doubled. What effect would this have on the resulting horizontal deflection at point D. Ensure that your answer is supported by suitable reasoning, calculations and/or sketches.
Consider a 4m long statically indeterminate propped cantilever under the loadingconditions shown in Figure for Question. The beam has an I-shapedcross-section. The beam’s E value of 10 GPa and an I value of 218.3×106 mm4 I)Calculate the reaction at B and the equation of the deflected shape. ii)Plot the shear stress distribution across the beam's cross-section at asection immediately right of the prop support at point B. Label keystress values .
Plz solve within 30min I vill give definitely upvote and vill give positive feedback
Refer to the beam loaded as shown. (a)What is the Value of horizontal reaction at the fixed support?(b)What is the value of resulting couple at A?
Your colleague asks you to help them with the design of the beam shown on the right. Specifically, you are asked to perform the following so that the moment connection at A can be designed: A 12 ft = B 5 ft (a) Use the Müller-Breslau principle to develop qualitative influence lines (IL) to determine the live load patterns that will produce maximum (positive and negative) shear forces and bending moments at A. The live load consists of a distributed load, w₁ = 1.0 kip/ft and one concentrated load, PL = 7.5 kip. (b) Determine the maximum (positive and negative) factored shear forces, V₁ at A and their associated bending moments. (c) Determine the maximum (positive and negative) factored bending moments, M, at A and their associated shear forces. For (b) and (c): Use the three-moment equation for your calculations using the moment at A as the redundant. Assume a dead load, WD 125 lb/ft. Use standard ASCE 7-22 load factors and combinations.
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2. Design steel (S355) wide flange beams under bending for case (a), (b) and (c). The moment diagram (unfactored) is shown in Fig. 2. SOead 200 Ku.m M=l live 150 km la) 10m M Dead 280 kum live 140 krim M/2 8 m (C) bead 180 ku.m M= Live 140 kvm M 9 m Fig.2. Σ

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