3 kN/m A B -4m- 1) Identify the reaction at A and B. 2) Identify the Maximum and Minimum Shear for the entire beam
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- Solve for the maximum shear at A, 7 meters from point C due to a dead load of 5 kn/m a moving live load of 20 kn/m and two movable concentrated loads 50kn and 75kn 2 meters apart.Determine the maximum positive shear created at point B in the beam shown due to the wheel loads of the moving truck.a) Compute the reaction R1 in KN. b) Compute the reaction R2 in KN. c) Compute the distance from R2 where the shear is zero in mm. d) Indicate the opening of the shear diagram cuve between R1 and R2. e) Compute the maximum positive moment in the beam in KN.m.
- Determine the following: 1. Maximum positive (upward) reaction at B2. Maximum positive moment at C3.Maximum negative shear at Ca. What is the absolute maximum shear in the beam? (in kN) b. What is the location of the absolute maximum shear from the left end of the beam? (in m) c. What is the absolute maximum moment in the beam? (in kNm)A uniform live load of 3 kN/m and a single live concentrated force of 45 kN can be placed on the haunched girder. Illustrate the Influence Line and determine the maximum live positive shear at B.
- Beam ABC supports the roof over the entrance way of a ware house.The beam is simply supported on column BD and on the wall at C. Total roofload, ω = 8 kN/m. Compute for the vertical reaction at C, vertical reaction at the column support, and maximum negative moment inthe beam.Given : M1 = 400 kN-m M2 = 500 kN-m M3 = 600 kN-m P = 150 kN w1= 60 kN-m w2 = 120 kN/m a = b = d = 6 m c = 4 m Determine the following: a. The maximum positive shear (in kN). b. The maximum negative shear (in kN). c. The maximum positive moment (in kN-m). d. The maximum negative moment (in kN-m). e. The location of maximum shear from the left end of the beam (in m). f. The location of the maximum moment from the left end of the beam (in m). Kindly Draw the Shear and Moment Diagram. Compute for all of the necessary elements, Include the proper units, use the proper formula and round-off all the answers and final answers to 2 decimal places.1) Identify the vertical reaction at A. 2) Identify the shear at point C.
- Determine the maximum live shear at C caused by the moving loads.d.)What is the location of the absolute maximum shear from the left end of the beam? (in m) e).What is the absolute maximum moment in the beam? (in kNm) f).What is the location of the absolute maximum moment from the left end of the beam? (in m)d. What is the location of the absolute maximum shear from the left end of the beam? (in m) e. What is the absolute maximum moment in the beam? (in kNm) f. What is the location of the absolute maximum moment from the left end of the beam? (in m)