) Explain Curbon”s theory of determining load carried by longitudinal Girder
) Explain Curbon”s theory of determining load carried by longitudinal Girder
Draw relevant structural drawings to illustrate the following: i. Longitudinal Sectional Elevation and cross section of Plate Girder ii. Cross Section of Intermediate Stiffener and Load carrying stiffener ii. Cross section of plate girder with end posts Draw relevant structural drawings to illustrate the following: i. Longitudinal Sectional Elevation and cross section of Plate Girder ii. Cross Section of Intermediate Stiffener and Load carrying stiffener ii. Cross section of plate girder with end posts
Problem 5.14 The girder is subjected to the uniform load 35k/ft and is in connected at B. The cable has a parabolic shape Part A Determine the minimum tension in the cable. Express your answer using three significant figures. 0 AED 1 vec O ? Submit Request Answer Part B Determine the maximum tension in the cable. Express your answer using three significant figures. 50 A4 vec * 0? Submit Request Answer
Arrive the cross-section of a plate girder for railway bridge (single lane) with effective span of 30 m and dead load on the open floor 7.5 kN/m. Equivalent total load for BM calculation per track is 2727 kN and for shear is 2927 kN.
A load of 1863 kN is carried on a 1.5 by 2 m rectangular foundation at a shallow depth in a soil mass. Determine the vertical stress at the centre of the footing 4 m below the footing underside assuming: (a) the load is uniformly distributed over the pad and, (b) the load acts as a point load at the centre of the foundation.
Beam B-1 = 15#/ft Girder G-1 = 50 #/ft Draw FBD's and show load conditions for B-1, G-1 Snow Load = 25 psf Roofing and Joists (deck) = 10 psf Insulation, mechanical and electrical = 5 psf 2x FRAMING TOLSTS 16 de W/PLY WOOD SHEATHING GLVOLAM COLUMNS TRVSLUDISTS 194" + 24 24 24 301 ROOF FRAMING PLAN -ROOFING PLYWOOD SHEATHING , 2x Joists 16"o... I GLV-LAM Bk BEAMS o biec GLU-LAM GARDER GAAT ROOF FRAMING- TYPICAL SECTION
Explain deontology and the role of the categorical imperative in determining one's ethical duty. Illustrate your understanding of this ethical theory with a concrete example of an ethical dilemma.
You send a longitudinal pulse along a Slinky, from left to right. Which direction(s) do the individual pieces of the Slinky move? (Answer: Left and right) Please explain WHY in details.
S=0.5845 Please include all steps. Q2. A solid wooden beam (pine, with a maximum longitudinal stress 30 MPa, maximum shear stress 3 MPa and E = 9 GPa) spans a length 3L = 4.5 m (L = 1.5 m), and is supported as shown in Figure Q2. The beam is b = 10 cm wide and h = 50(1+S) cm high. The distributed force load q = 200 kN/m is applied on either side, as shown below. 21 Figure Q2...
Determine the critical load according Euler's theory and slenderness ratio?
Problem 17. A cantilever member is connected to a column with two longitudinal and transverse welds with lengths as Liong-14 inch, Ltrans-14 inch. The factored load Pa = 150 kips acts to the weld group with eccentricity ex 20 inch. Find the minimum required weld size to carry the load using ultimate strength method and E70 electrode Ltrans long Problem 17. A cantilever member is connected to a column with two longitudinal and transverse welds with lengths as Liong-14 inch,...