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Express the force shown in the figure as a Cartesian vector and determine its direction cosines.
Consider a conventional surface water treatment facility with a maximum day design capacity of 35 million gallons per day (mgd)Determine the configuration and dimensions for a 3-stage flocculaton system which uses horizontal paddle wheels. Determine the number of flocculations basins required. Determines the dimensions of each flocculation basin (width, length of each stage, total length, water depth, and freeboard), the detention time in each stage, the velocity gradient G in each stage, the blade configuration for the horizontal paddle wheel...
Civil Engineering- sustainability questions
Bachelor of Engineering Technology (Civil) Program School of Engineering, Design and Construction ENGINEERING MATHEMATICS 2 (BET 203) Assignment-: Differential equations Answer all questions showing your work very clearly Attach completed Assignment cover sheot Please note that class participation is compulsory for this Assessment Duc date: 2A 2019 (6.00 pm) late submissions will incur 10% of penalty each day it is late. All work produced must be neat and clear. Word processed is preferred. 1. The cantilever beam AB of length...
This is a civil engineering question. Explain the disturbance theory.
this is only possible solving by mechanical engineering none of this civil Engineering guys was solved this question properly. it is my 5th time uploading same question civil guys pretty much copied and pasted from the already uploaded solution which are quite wrong . please do it in your own instead of copying Analyse the frame in Figure 1 uning the Stape-Deflection Method. Draw the shear force, axial force and bending moment diagrams. Assume that the flexural rigidity is a...
Formula Sheet for Civil Engineering Information Systems Course
College of Engineering and Computing Department of Civil and Environmental Engineering CWR3201 -Fluid Mechanics Problem 1: Water at 20°C flows at a velocity of 2.4 m/s in a 250-mm diameter horizontal cast iron pipe (e 0.25 mm). Use kinematic viscosity for water 1.004 10 m'/s and estimate a. The change in pressure over 100 m of pipeline b. The change in pressure over 100 m of pipeline if the pipeline were not horizontal but 1-m lower at the downstream section...
detail explanation with diagram of HRSD used in civil engineering department