3. A cantilever beam of span 5m is subjected to a uniformly distributed load of 30...

The beam is subjected to a uniformly distributed load w= 12 kN/m. The beam is a...

The beam is subjected to a uniformly distributed load w= 12 kN/m. The beam is a two-span continuous beam. The length of each span is L = 2 m. The beam is made of steel. Young's modulus (E) of steel is 200 GPa. The value of the moment of inertia is 21 * 106 mm4. Use the force method given in Week 6. Determine the reaction at the middle support B. Select one: a. 6.00 kN b. 18.00 kN c....

Q3: Bending moment and shear force diagrams were plotted for a cantilever beam of span 10...

Q3: Bending moment and shear force diagrams were plotted for a cantilever beam of span 10 m when subjected to a uniformly distributed load of magnitude ‘w’ kN/m over the entire span, two concentrated loads ‘2w’ kN at a distance 3 m from the free end and ‘3.5w’ kN at a distance 4.5 m from the free end respectively. It was observed that the value for maximum bending moment acting on the beam is equal to (-175 kNm). Suggest a...

Using Castigliano’s theorem determine the slope of the free end of a cantilever beam carrying a...

Using Castigliano’s theorem determine the slope of the free end of a cantilever beam carrying a uniformly distributed load w = 20 kN/m. The beam is 2 m long, with a section moment of inertia I =1317 cm^4. The material is steel with an elastic modulus of 200 GPa

Compute the collapse load of a 8 ft propped cantilever beam with uniformly distributed load through...

Compute the collapse load of a 8 ft propped cantilever beam with uniformly distributed load through the length of the beam, if the plastic moment capacity is 60 k-ft. A) 45.25 kft B) 87.42 k/ft C) 10.92 k/ft D) 77.42 k/ft plzz give the detaild solution with detailed calculation

. A simply supported beam has a width of 200mm and depth of 400mm is 4m...

. A simply supported beam has a width of 200mm and depth of 400mm is 4m long. It carries a uniformly distributed load of 20 kN/m over the whole beam and a point load of 40 kN at the center of the beam. Compute the maximum deflection if the maximum slope produced in the beam is 2× ??-3 radian.

A simply supported beam is 3 m long. It carries a uniformly distributed load of 6...

A simply supported beam is 3 m long. It carries a uniformly distributed load of 6 kN/m throughout its span and a concentrated load of 15 kN at a point 2 m from the left support. Assuming that the beam has a rectangular shape whose width and depth are 150 mm and 250 mm, respectively. Determine the maximum flexural stress in MPa developed in the beam.

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m...

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m long. It carries a uniformly distributed load of 20 kN/m over the whole beam and a point load of 40 kN at the center of the beam. Compute the maximum deflection if the maximum slope produced in the beam is 2× ??-3 radian.

Analyze the continuous beam by moment distribution method. Solve for the moments and reactions. Beam ABC...

Analyze the continuous beam by moment distribution method. Solve for the moments and reactions. Beam ABC has a fixed support at the left side of the beam and have a hinge support at the middle and the right end, who carries a uniformly distributed load of 100kn/m at span BC with a total length of 6m and a concentrated load 150KN at the center of span AB with a total length of 5m. Span AB = 2l and Span BC...

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m...

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m long. It carries a uniformly distributed load of 20 kN/m over the whole beam and a point load of 40 kN at the center of the beam. Compute the maximum deflection if the maximum slope produced in the beam is 2× ??-3 radian. (6 M Blease i want prompt clear solution for this question in detail,.

A simply supported beam spans 30 ft. and carries a uniformly distributed dead load of 3.5...

A simply supported beam spans 30 ft. and carries a uniformly distributed dead load of 3.5 kip/ft,excluding the beam self-weight. Also, in addition, a concentrated dead load of 15 kips and a concentrated live load of 25kips, both act at the center of a 30 ft span.Select the lightest-weight W-Shape to carry the load(A992 steel). Use LRFD method.