A uniform distributed load of 15KN/m covering a length of 3m crosses a girder of span10m....

overhanging beam is simply supported at san of 13m and carries of point load of 4000N...

overhanging beam is simply supported at san of 13m and carries of point load of 4000N 3m from right support the left overhangs is 3 m away from left support and has a point load of 5000N. the right overhang is of 4m carrying UDL of 200N per meter for entire rightover . draw shear force and bending moment diagram . calculate the maximum bending moment.

WITH COMPLETE SOLUTION A welded steel girder having the cross section of two fabricated 280 mm...

WITH COMPLETE SOLUTION A welded steel girder having the cross section of two fabricated 280 mm x 25 mm flange and a 600 mm x 15 mm web plate. The plates are joined by four fillet welds that run continuously for the length of the 6 m span girder. Each weld has an allowable load of 330 kN/m. 1.Determine the maximum allowable shear force V for the girder in kN. 2. Calculate the maximum bending stress of the girder if...

An 83.4 kg fisherman sits at the center of the boat, which has a uniform width...

An 83.4 kg fisherman sits at the center of the boat, which has a uniform width and a weight per linear foot of 5.4 lb/ft. The boat is 19.7 m long. Assume that the water exerts a uniform distributed load upward on the bottom of the boat. a. What is the applied load (lb) applied to the boat due to the weight of the fisherman? Round up to the next whole value. b. Using the applied load at Item 9.a,...

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...

A three hinged semi-circular arch of radius 15 m carries a uniformly distributed load of 10...

A three hinged semi-circular arch of radius 15 m carries a uniformly distributed load of 10 kN/m run of horizontal span. Find horizontal thrust and location and magnitude of maximum bending moment in the arch.

26.51 The bending moment in an arch is proportional to: Vertical ordinate of the arch Intercept...

26.51 The bending moment in an arch is proportional to: Vertical ordinate of the arch Intercept between the arch axis and the funicular polygon Vertical ordinate of the funicular polygon None of the above 26.52 A cable can resist: Axial thrust Shear force Torsion Tension 26.53 A suspended cable hinged at two ends is a: Statically unstable structure Statically indeterminate structure Geometrically unstable structure 26.54 A suspended cable stiffened by a three hinged truss is: Statically indeterminate Geometrically indeterminate Geometrically...

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.

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....

A uniform 33.0-kg beam of length ℓ = 5.70 m is supported by a vertical rope...

A uniform 33.0-kg beam of length ℓ = 5.70 m is supported by a vertical rope located d = 1.20 m from its left end as in the figure below. The right end of the beam is supported by a vertical column. a) Find the tension in the rope. (b) Find the force that the column exerts on the right end of the beam. (Enter the magnitude.

A uniform rod AB of length 7.2 m and mass M = 3.8 kg is hinged...

A uniform rod AB of length 7.2 m and mass M = 3.8 kg is hinged at A and held in equilibrium by a light cord. A load W = 22 N hangs from the rod at a distance d so that the tension in the cord is 80 N . Part A) Determine the vertical force on the rod exerted by the hinge. Part B)Determine the horizontal force on the rod exerted by the hinge. Part C) Determine d...