a simply supported beam having a span length equivalent to 2008(mm). the beam is carrying uniform...

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 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...

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...

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 composite beam (L = 4.5 m) is subjected to a positive bending moment...

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment (680 N- m) at both ends. The beam is made of two materials in a square cross-section. Material 1 is 50x50 mm and is surrounded by a 25 mm shell of material 2. Solve for the maximum stress in each material. E1 = 100 GPa, E2 = 200 GPa.

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment...

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment (680 N-m) at both ends. The beam is made of two materials in a square cross-section. Material 1 is 50x50 mm and is surrounded by a 25 mm shell of material 2. Solve for the maximum stress in each material. E1 = 100 GPa, E2 = 200 GPa.

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment...

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment (680 N- m) at both ends. The beam is made of two materials in a square cross-section. Material 1 is 50x50 mm and is surrounded by a 25 mm shell of material 2. Solve for the maximum stress in each material. E1 = 100 GPa, E2 = 200 GPa.

A Douglas fir 4x8 beam (select structural) is simply-supported (unbraced) and has a span of 10...

A Douglas fir 4x8 beam (select structural) is simply-supported (unbraced) and has a span of 10 FT. it is subject to a dead load of 200 PLF and a live load of 100 PLF. The beam is in an outdoor environment which is not expected to be extremely hot for sustained periods. (a)Determine which timber design parameters/factors (Fb, Fv, Fc, Cm, Ct, etc.) are relevant to bending and explain in words (or show calculations for) your choice of value for...

A horizontal beam is of uniform material throughout but has a second moment of area of...

A horizontal beam is of uniform material throughout but has a second moment of area of I for the central half of the span L and I/2 for each section in both outer quarters of the span. The beam carries a single central concentrated load P. (a) Derive a formula for the central deflection of the beam, due to P, when simply supported at each end of the span. (b) If both ends of the span are encastr´e (i.e. beam...

A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective...

A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective depth (d) of 24 inches. It is reinforced with 3 # 8 bars. Assume 60-ksi steel and 3000-psi concrete. Determine the resisting moment (Mr) in ft-k that this beam can safely sustain. Problem 2 The beam given in Problem 1 has a span of 21 ft. It is supposed to carry a uniformly distributed service dead load of 3.7 k/ft, in addition to its...