Clear handwriting please g. Compute the resisting moment of the beam shown belowiff, 24,000 psi and f, - 1,350 psi....
PLEASE USE Imperial units Compute the design strength of the beam shown if fy 60,000 psi and f 5,000 psi 12 in 2#9 3 in 21 in 5#9 6 in 3 in 36 in Compute the design strength of the beam shown if fy 60,000 psi and f 5,000 psi 12 in 2#9 3 in 21 in 5#9 6 in 3 in 36 in
Please read the question very carefully and send me all steps clear handwriting 3. Determine the area of reinforcing steel required for the T-beam shown below in Figure 1, iff 3000 psi, f 60,000 psi, M- 300 ft-k, and the span, L 30 ft. The distance from center to center of any two consecutive stems of the T-beam is given as 6 ft. (25 pts.) 48" TI Figure
Compute the design strength(positive moment), фМ., for the beam shown below. note that the beam shown is an independent beam, which does not bend in conjunction with any adjacent beam(s). The material strengths are as follows: Please l. f, - 60,000 psi 3,000 psi (30 pts.) Check the development length for the bar size shown (No. 8 bars). The bars are not epoxy coated and the concrete is normalweight concrete. Assume the simplified equation can be used. The bars are...
Clear handwriting is needed 10. Select the reinforcing steel for the rectangular cross-section shown. Mu- 160 k-ft. Use a concrete strength of 3,000 psi and grade 60 reinforcement. Note beam dimensions are given. Only A, need be determined. (10 pts) 24 in 21 in As 3i 3 in 10 in 3 in 16 in
For the beam shown use f-3000 psi and fy 60000 psi. 1- Compute the effective flange width 2- Compute фМ, for the positive and negative moment regions and check ACI requirements for both sections. At the support, the bottom bars are in one layer and at mid-span, the # 8 bars are in the bottom layer and the # 7 bars are in a second layer. Assume 2.5 in concrete cover (from outside face of concrete to the center of...
Example SW-11 Determine the design moment capacity for the T-beam floor system shown The beam has four #9 tension bars. Assume a clear span of 21 ft-3 in. fe 4000 psi, and fy 60 ksi be d-13%" 64%"
Please do it step by step Mn for 3-8. The T-beam shown is on a simple span of 30 ft. Use wn. The 3000 psi and f-60,000 psi. No dead load eists other than the weight of the floor system. Assume that the slab design is adequate. a. Find the practical moment strength фМп. b. Compute the permissible service live load psi and that can be placed on the floor (psf). #3 stirrup 27 23,5 7-6" (typ.) PROBLEM 3-8
Determine the design moment strength φMn of the T-beam in the slab shown. The span length of the beam is 30 ft. Use fc-4000 psi and fy 60,000 psi. Assume there is one inch clear distance between layers 5 in 32 in 36 in 8#9 15 in 8 ft
TOIMII. (10 points) Compute V. for the sections shown. Use fc' = 4,000 psi and fy= 50,000 psi. 5 in #3 stirrups 8 in. 27 in. 30 in. #4 stirrups @ 6 in 22 in. 32 in. 3 in 16 in Problem 2. (10 points) For the given beam and load, select stirrup spacings. Assume #4 U-stirrups (fyt = 60,000 psi) and normalweight concrete with fe' = 4,000 psi. Show your shear diagram and the important values. Also, show the...
4. For the beam shown below,fe' = 4000 psi and fy = 60,000 psi. (20 points) (a) Compute the effective flange width at midspan. 911-6 in (a) Beam section and distance to adjacent beams Support (negative bending) Midspan positive bending) 7 No. 7 bars IIT 3 No. 8 plus 2 No. 7 bars at midspan 22 2 No. 8 bars at ends (b) Beam span supported by 18-in. wide columns (b) Compute Mn for the positive and negative-moment regions and...