A C10x30 channel is used for a beam scenario. It is simply supported and has a point load of 22 kips at midspan. The beam length (span) is 12 feet and the specification for max deflection is 1/360 of the beam span. The material is steel, and DO NOT take into account the beam weight in this particular example.
Determine the maximum deflection to the nearest hundredth inch.
Determine the allowable deflection to two decimal places.
does the beam pass or fail?
A C10x30 channel is used for a beam scenario. It is simply supported and has a...
Please refer AISC 15th edition 3. A simply supported beam (W18x97) is 50-ft long and is restrained at the supports and at midspan. It carries a uniform dead load of 0.4 kips/ft plus beam weight, and a live load of 1.0 kips/ft. The steel is A992 and the method of analysis is LRFD. Determine if this shape and length is adequate to support this load. Also determine which controls: flexural strength or deflection. The limiting maximum live load deflection is...
A steel beam is simply supported over a span of 20 feet and carries a total design point load of 6 kips at the center of the span. The moment of inertia (1) for the beam is 245 in4. Neglecting the beam weight, the maximum load deflection of the beam is with a point load in.(Fill in the blank and show calculation below) Show equation(s) used and calculation(s): A steel beam is simply supported over a span of 20 feet...
Problem# 1: Determine the location of the centroid. Determine the moment of inertia about horizontal and vertical cen 2" 2 6 Problem#1 : Select a solid, rectangular, Eastern hemlock beam for a 20 ft simple span carrying a superimposed uniform load of 325 lb/ft (15 points) Problem#2: Select the wide flange steel girder for a simple span of 36 ft subjected to a concentrated load of 215 kips at the midspan. Use A36 steel and assume that beam is supported...
Q3) A simply supported beam is subjected to a uniform service dead load of 2.3 kips/ft (excluding the weight of the beam), a uniform service live load of 3.0 kips/ft. The beam is 30 feet long, and deflection not to exceed L/360. The beam has continuous lateral support, and A992 steel is used. Is a W27 x 84 adequate?
Problem 7.5 of your textbook (Haldar & Mahadevan): A simply supported beam of span L 360 inches is loaded by a uniformly distributed load w kip/in. and a concentrated kip applied at the midspan. The maximum deflection of the beam at the midspan can be calculated as: mar- 384 EI 48 E A beam with El 63.51 x 106 kip-in.2 Is selected to carry the load. Both w and P are statistically independent RVs with mean values estimated to be...
14.54 A simply supported rectangular beam with a span of 6 ft has a concentrated load of 4.1 kip at midspan. Se- lect the lightest rectangular wood beam that can safely support the loads (neglect the weight of the beam). The allowable stress in bending is 1200 psi and in shear parallel to the grain 100 psi 14.54 A simply supported rectangular beam with a span of 6 ft has a concentrated load of 4.1 kip at midspan. Se- lect...
16.6a) A simply supported beam is to span 15 ft. It will support a uniformly distributed load of 2 kips/ft over the full span and a concentrated load of 60 kips at mid-span. What is the required plastic section modulus Zx? (Include self-weight) 16.6b) A simply supported beam is to span 15 ft. It will support a uniformly distributed load of 2 kips/ft over the full span and a concentrated load of 60 kips at mid-span. Deflection is not to...
Please refer AISC 15th edition 1. You are given a simply supported, uniformly loaded beam (W14x26), 20-ft long which is laterally supported and which carries a dead load of 0.5kips/ft and a live load of 1.5 kips/ft. You are to compute the maximum live load deflection and compare it with the maximum allowable live load deflection of L/360. If your live load deflection is larger than the allowable live load deflection, determine the magnitude of the moment of inertia needed...
A simply supported pretensioned beam has a span of 60 ft. Compute the initial deflection at midspan due to prestress and the beam's own weight. – cgc F ee = 12.62" e = 22.02% I---------- = 12.62" cgs (with two points depressed) 20'-0" - 20'-0" – 20'-0" Given: A = 978 in. f'= 3,750 psi I = 86,075 in. P = 462,672 lb Beam weight = 0.15 kips/ft?
a simply supported beam shown has a span length of 16 ft. the beam is laoded with to concentrated service live loads of 40 kips and 80 kips as shown. if lateral support is provided only at both ends, select the lightest w section of A992 steel that can carry these applied loads. neglect the weight of the beam. ***Need this answered ASAP please*** ***Please show ALL steps*** steel design - please show what tables the values come from. thank...