A simply supported beam of constant EI and length L is supporting a distributed load omega...

For a simply supported beam of length L and uniform cross-section (constant E and I with...

For a simply supported beam of length L and uniform cross-section (constant E and I with usual notation) with a concentrated load P perpendicular to the beam at mid span, use first principles and method of integration discussed to obtain an expression for the maximum deflection. If the concentrated load is still perpendicular to the beam but not at the mid span, very clearly and briefly explain how you would determine the maximum deflection of the beam.

A simply-supported beam of length 13.3 inches has a distributed load applied along its entire length....

A simply-supported beam of length 13.3 inches has a distributed load applied along its entire length. The function defining the load is w(x) = 4x^2 + 13x - 6lb/ft with x measured in feet. 1) Determine the total applied load, in lb. 2) Determine the reaction at the left end of the beam (x = 0) 3) Determine the reaction at the right end of the beam (x = 13.3) 4) Determine and enter below the internal beam shear at...

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.

A simply supported #1 DF-L (Douglas Fir-Larch) beam 10 foot in length has a uniform load...

A simply supported #1 DF-L (Douglas Fir-Larch) beam 10 foot in length has a uniform load of 100#/ft. The beam is 2 x 12 in the strong axis orientation, and is fully braced, the moisture content is less than 19% and the max deflection is L/360. (include the weight of the beam in your calculations) Find the Tabulated stresses. Find the Allowable stresses Find the actual stresses Is the member adequate.

A simply supported beam spans 20 ft. and carries a uniformly distributed load of 1 kip/ft,including...

A simply supported beam spans 20 ft. and carries a uniformly distributed load of 1 kip/ft,including the beam self-weight, and a live load of 2.5kip/ft. Determine the minimum required plastic section modulus and select the lightest-weight W-Shape to carry the moment (A992 Steel). Use LRFD method.

A simply supported basswood beam is designed to carry a concentrated load P of 1100 lbf...

A simply supported basswood beam is designed to carry a concentrated load P of 1100 lbf in the center. The distance L between supports is 70 inches. Basswood has the following properties: Modulus of Elasticity = 1.46 x 106 psi; Density = 28 lbm/ft3. Beam dimensions are: Web thickness tw = 1.5 in, flange thickness tf = 2 in., web width bw = 4 in., flange height h = 6.75 in, total beam length = 110 in. What is the...

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.

. 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 356 x 171 US45 steel beam is simply supported at the ends of a span...

A 356 x 171 US45 steel beam is simply supported at the ends of a span of 5.5 m. The beam carries a safe inclusive UDL of 12kN/m and a point load of 75 kN at mid-span. Calculate the maximum deflection due to this load. Let: E = 205 000 N/mm2 I = 12070 cm4 deflection δPL = PL/48EI deflection δudL = 5wL3/384EI

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.