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

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

3. A cantilever beam of span 5m is subjected to a uniformly distributed load of 30 kN/m over the whole span. If the beam is made of Iron with E = 104 N/mm2 and moment of inertia I = 108 mm4. Apply the theroems of moment area method and find out the slope at the free end and deflection at the center of the beam?

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 cantilever bean is 12 feet long and has a uniformly distributed dead load of 600...

A cantilever bean is 12 feet long and has a uniformly distributed dead load of 600 lbs/ft and a uniformly distributed live load of 1000 lbs/ft. Design the beam for flexure assuming it is continuously braces by a floor/deck system. Use 36 ksi steel.

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.

A propped beam of 2m span carries a uniformly distributed load of 100kN/m spread over its...

A propped beam of 2m span carries a uniformly distributed load of 100kN/m spread over its entire length. Calculate the maximum deflection in mm. EI is constant. Use the area moment method.

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.

design for flexure a beam 12 ft in length,ot a992 steel, with a uniformly distributed live...

design for flexure a beam 12 ft in length,ot a992 steel, with a uniformly distributed live load of 1 kip/ft, and a concentrated dead load of 8.4 kips a distance of 5 ft from one end

Problem 3 A reinforced concrete beam is cantilevered over a span of 10 ft. The beam...

Problem 3 A reinforced concrete beam is cantilevered over a span of 10 ft. The beam width is 14”. The beam is supposed to carry a uniformly distributed service dead load of 1.2 k/ft and a uniformly distributed service live load of 0.5 k/ft over its entire span. The dead load includes an allowance for the beam weight. Assume 60- ksi steel and 4,000-psi concrete. 1.Use the design equations to determine the minimum required effective depth (d). 2.Select the tensile...

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 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...