med tve.(b)cast iron pipe when water at 15°C flows at 1.5 m/s. Assume that the pipe has a roughness of0.244 mm. Viscosity and density of water are 1 x 10 Pa s and 1000 kg/m' respectively.Determine the energy loss in 300 m of new, uncoated 30.5 cm inside diameterfe) What are the conditions that transform the mechanical energy equation into theBernoulli equation? State the energy balance cquation as the Bernoulli equation.(d) The tank below is cylindrical with a diameter of 10 m. The outlet is a cylindricalfrictionless nozzle, with a diameter 1 m. The top of the tank is open to the atmosphere. Whenthe level in the tank is 10 m above the centerline of the outlet, how fast is the level in the tankfalling?M= VAm x M xVn = 2nm = VAfPcu/coe/158-11 Friction factor, fCriticalZoneTOTransitionGO'O60'0əuoz yanos Ajjni80'0Mol0.030.0290'00.015100800'0GO'O0.0060.040.0310000.00060.0250.02Smooth pipes2000 0Rep.500000Drawn tuinngCommercial steet10 00000.01H Cast iron0.009H Concrete2.90le 95 t二mLIII100000%3D3 456 8104Reynolds number, Re,Friction factor for fully developed flow, Moody diagram.

b) Pipe length, L=300 m Inside pipe diameter, d=30.5 cm = 0.305 m Water temperature, T = 15oC Water…

Determine the energy loss in 300 m of new, uncoated 30.5 cm inside diameter cast iron pipe when water at 15°C flows at 1.5 m/s. Assume that the pipe has a roughness of 0.244 mm. Viscosity and density of water arelx 10 Pas and 1000 kg/m' respectively.

Determine the energy loss in 300 m of new, uncoated 30.5 cm inside diameter cast iron pipe when water at 15°C flows at 1.5 m/s. Assume that the pipe has a roughness of 0.244 mm. Viscosity and density of water arelx 10 Pas and 1000 kg/m' respectively.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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