gii It.Question 4: Answer the Following Multiple Choice Questions:Grade81) If the velocity in a rectangular channel (V) is 1.35 m/s and the water depth (d) is 0.3m, (g-9.81m/s) then:A. Froude number 0.787 and the flow is subcriticalB. Froude number = 2 and the flow is super criticalC. Froude number = 1.7 and the flow is super criticalD. Froude number can't be calculated because channel width is unknown.E. None of the choices.2) The following data was recorded from viscosity experiment: The recorded distance of fallingball = 100 cm and time = 1.08 s. The density of oil (pL) = 826 kg/m' and the density of steel (ps)= 7810 kg/m', kinematic viscosity (v) = 0.000124 m/s, g-9.81 m/s. The dynamic viscosity forthe oil:A. 0.175 kPa.sB. 0.175 Pa.sC. 0.102 kPa.sD. 0.102 Pa.sE. None of the choices3) A pipe of 5 cm diameter conveys water flow of 0.2 m/s velocity, what is the mass flow rate (m")in (kg/s). The density of water pw 1000 kg/m.А. 3.9В. 0.98С. 0.39D. 14.1E. 9.8F. None of the choices4) Weirs can be:A. Broad-crested.ype here to search

Since the question number to be solved is not specified, the solution for Question No.01 is as…

1) If the velocity in a rectangular channel (V) is 1.35 m/s and the water depth (d) is 0.3m, (g-9.81 m/s) then: A. Froude number = 0.787 and the flow is subcritical B. Froude number 2 and the flow is critical C. Froude number = 1.7 and the flow is super critical super D. Froude number can't be calculated because channel width is unknown. E. None of the choices.

1) If the velocity in a rectangular channel (V) is 1.35 m/s and the water depth (d) is 0.3m, (g-9.81 m/s) then: A. Froude number = 0.787 and the flow is subcritical B. Froude number 2 and the flow is critical C. Froude number = 1.7 and the flow is super critical super D. Froude number can't be calculated because channel width is unknown. E. None of the choices.

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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