Select a lightest W-Shape section with an unbraced length of 10 ft that can carry a...

select the lightest W shape to support a uniformly distributed load of 2.2 kips/ft. of a...

select the lightest W shape to support a uniformly distributed load of 2.2 kips/ft. of a simple span of 20 feet.

Select the lightest, rectangular Douglas fir section for the cantilever beam of 10- ft span that...

Select the lightest, rectangular Douglas fir section for the cantilever beam of 10- ft span that will carry a uniform load of 250 lb/ft

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 beam spans 20 ft and carries a uniformly distributed dead load of 0.8...

A simply supported beam spans 20 ft and carries a uniformly distributed dead load of 0.8 kips/ft including the beam self-weight and a live load of 2.3 kips/ft. Determine the required plastic section modulus and select the lightest weight Wshape to carry the moment. Consider only the limit state of yielding (Zone 1) and use A992 steel. Design by (a) LRFD and (b) ASD.

Select the lightest section to support a axial load (DL=500 kips y LL= 300 kips). The...

Select the lightest section to support a axial load (DL=500 kips y LL= 300 kips). The element is 30 ft length and braced in the y direction at 14 ft from the column base. The end support conditions are (fixed/pinned). Justify the material’s selection (Verify slenderness and local buckling)

Select the lightest available W12 shape (A992) to support a factored axial load of 650 kips...

Select the lightest available W12 shape (A992) to support a factored axial load of 650 kips and a factored uniform transverse load of 1.0 kip/ft. Bending takes place about the strong axis only. The member length is 20 ft. and K = 1.0 typically. Sidesway is prevented.

Select a light W shape for a column subjected to an axial compressive load of 1623kN....

Select a light W shape for a column subjected to an axial compressive load of 1623kN. The unbraced length of column is 5m and the ends are pinned. Use A36 grade steel.

Select the lighest W section to carry a uniformly distributed load of 0.2 kip/ft superimposed (i.e....

Select the lighest W section to carry a uniformly distributed load of 0.2 kip/ft superimposed (i.e. in addition to the beam weight) and 0.8 kip/ft live load. The simly supported span is 20' and the compression flange is fully supported against lateral movement. Use LRFD and select for the following steels: A36, A992, and A572 Gr. 65

W 18X60 steel beam has 10 ft simple span. The beam carries a uniform load of...

W 18X60 steel beam has 10 ft simple span. The beam carries a uniform load of 4 kips/ft including its weight. The allowable deflection is 1/360 of the span length. Determine whether the beam is satisfactory for deflection.

Truss Analysis 1.      Select a material and a cross section for the members. 2.      Choose four...

Truss Analysis 1.      Select a material and a cross section for the members. 2.      Choose four arbitrarily placed points. Connect them as two triangles. No members can be vertical or horizontal and none can be aligned. 3.      Draw the truss and label the measured lengths. 4.      Select two support points and two load points. 5.      Load the truss vertically with a load at each load point. 6.      Calculate the reactions and the forces within the members. 7.      Calculate the change...