please answer if sure it is correct.will thumbs up if correct. NameFormula for tRemarksNumber1. Kirpich10770.0078-(16.4)50.3850.467"L2. Kerby0.828Applicable to <1300 ft(16.5)505r=0.02 smooth pavement0.1 bare packed soil0.3 rough bare or poor grass0.4 average grass0.8 dense grass, timber3. Izzard41.025 (0.007i+K)L0.33$0.333; 0.667Applicable to iL < 500K = 0.007 smooth asphalt0.012 concrete pavement0.017 tar and gravel pavement0.046 closely clipped sod0.060 dense bluegrass turf(16.6)4. Bransby-Williams0.00765L50.240.15. Federal AviationAgency0.388 (1.1-C)L0.550.333C=Rational coefficient(16.7)0.941060.66. Kinematic Wave104503n-Manning's coefficient foroverland flow(16.8)7. NRCS (SCS)see eqs. (16.9) and (16.10) and open channel travel timewhere: i = rainfall intensity, in./hr; L = Length of flow path, ft; S = slope of flow path, ft/ft; A = drainage area,acres; and t;= overland flow time, min. A storm drain system is shown in FigureP16.11. For the flow conditions indicated,determine the time of concentration from PointA to Point C using the Kirpich, Kerby, ABransby-Williams, and Federal AviationAdministration Methods.Paved area, 0.7 km²C=0.9200S=3%Bare surface, 0.8 km²C=0.6S=Drain500 mV=1.2 mil

The time of concentration from point "a" to "c" 1) kirpich Method =8.606 min2) Kerby Method = 19.06…

Answered: Name Formula for t Remarks Number 1.…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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T t + 1. Flow 3LH 3/2 2. Length = 70 ft 3. Crest height = 60 ft Hydrology HW1// Route the flood hydrograph indicated below through a reservoir. The storage (elevation versus volume) data obtained from the reservoir survey are given. The spillway has the following characteristics: • Flood Routing • Reservoir Routing • HW1// (1 = புர் ||| Prepared by Dr Nabil Al Amery Inflow Time (hr) Flow (cfs) 0 0.4 0.8 1.2 1.6 2 2.4 2.8 3.2 3.6 0 600 2100 2500 1600 950 550 300 80 0 فلاتر O 4th year civil engineering class Storage Date Elevation Storage (ft) (acre ft) 60 61 62 63 64 65 300 330 360 395 430 470 × إضافة شرح... > mum
OTO 'T (1 • HW1// Route the flood hydrograph indicated below through a reservoir. The storage (elevation versus volume) data obtained from the reservoir survey are given. The spillway has the following characteristics: 1. Flow 3LH 3/2 2. Length = 70 ft 3. Crest height = 60 ft Hydrology • Flood Routing • Reservoir Routing • HW1// = t + ||| Prepared by Drab Al Amery Inflow Time (hr) Flow (cfs) 0 0.4 0.8 1.2 1.6 2 2.4 2.8 3.2 3.6 0 600 2100 2500 1600 950 550 300 80 0 فلاتر O 4th year civil engineering class. Storage Date Elevation Storage (ft) prope (acre ft) 60 61 62 63 65 300 330 360 395 430 470 إضافة شرح... × mum
%VY . Q1: A catchment area is 5 square miles and the total direct Runoff (E D. R = 11150 ft / sec). Estimate the base flow for the data shown in the table below? Time 2 3 4 5. 6. 500 500 1200 2250 2920 2670 2060 1430 Total Flow(ft/sec) 202.57 | 506.43 700.32 627.97 451.44 269.13 11 U.H 10 1100 910 Time 9 12 13 14 15 16 Total 780 650 530 510 510 500 Flow(ft'/sec) U.H 173.6 118.65 81.03 52.09 28.94 11.57 2.89 Q2: Develop a 3-hr synthetic unit hydrograph for the catchment are using Snyder's method only. If the catchment area is 400 kan?, L= 25 kam and La km, assuming C15 and C,-0.7 •,.0 |||||||||||||1||||||| إلغاء إعادة تعي ين
10. How would you determine the gap flow (i.e. major drainage system design flow) for an ARI = 100 years, taking into consideration that the minor drainage system which was designed for an ARI= 5 years is fully operational (i.e. unblocked-blockage is never an issue).
Discuss Unit Hydrograph method of estimating maximum Probable Discharge.
How would you go about deriving a UH from a catchment for which data (catchment area, rainfall and discharge values) are available? Derive a hyetograph from the incident rainfall (losses do not need to be considered to derive a UH); Determine the UH using the formula "Ui = Qi/P" (for a single interval hyetograph) or using "deconvolution" (for a multiple interval hyetograph). Estimate direct runoff hydrograph by subtracting baseflow from observed stream flow data; Estimate the total runoff volume and the direct runoff depth over the catchment; Determine the UH ordinates using the formula "Unit hydrograph = Direct runoff hydrograph x 1/Direct runoff depth"; Estimate catchment losses and subtract these from the incident precipitation to obtain excess rainfall; the duration of the excess rainfall is used as the duration of the UH. Determine the precipitation volume for each time interval; Use UH superposition and proportionality principles to derive a direct unit hydrograph; Estimate…
In a rectangular sprinklers distribution pattern, the displacement F is equal to O A. 0.25 O B. 0.0 O C. None of these options O D. 30°
Determine the discharge thru a storm sewer shown if slope is 0.0009 and roughness coefficient of 0.035. A Q = 8.832 m3/s B No answer among the choices Q = 7.853 m3/s D Q = 8.380 m3/s E) Q = 7.006 m3/s F Q = 6.434 m3/s
Consider a watershed with a drainage area of 10 square miles and a mainstream length of 7.5 miles. The main channel extends from the watershed outlet to the point opposite the centre of gravity of the watershed over a distance of 3.5 miles. Given a time of concentration (Ct) of 1.5 hours and a dimensionless slope of the watershed (Cp) of 0.5, determine the standard synthetic unit hydrograph for this basin. What is the duration? Using Snyder’s method, calculate the 45-minute unit hydrograph parameter
Determine the following:What is Rainfall-Run off Relation?Definition of HydrographWhat is a Hydrograph Separation?What is a Unit Hydrograph?Estimation of Discharge using HydrographWhat is Rational Formula and SCS Curve?Please type it in here instead of writing it on a piece of paper
5. A storm drainage channel has the shape shown in Figure 5. It is made of unfinished concrete and has a slope of 0.5 percent. During normal times, water remains only in the small rectangular section. When there is a big rainfall, the upper section allows large volumes to be carried by the channel. a. Compute the hydraulic radius and normal discharge when the water depth is 0.50 m. b. Compute the hydraulic radius and normal discharge when the water depth is 2.50 m. 2.5 m 0.5 m 0.6 m 1.0 m Figure 5.
Q2/A storm is proposed to drain a 16 hectares drainage area shown in the figure (2)below with given data in the table below determine the design discharge needed to convey 5-year 2500 peak discharge when i= t+20 Site Area Inlet t B A 6 10 A(residential) B(roofs) 30 11 =15min 10

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