(Bernoulli/continuity) Water flows steadily through a diverging tube as shown in the figure below. Determine the velocity, V, at the exit of the tube if frictional effects are negligible. (Bernoulli/continuity) Water flows steadily through a diverging tube as shown in the figure below. Determine the velocity, V, at theexit of the tube if frictional effects are negligible.iVWater0.95 ft 0.72 ft0.52 ft0.21 ftSG=2.0! ft/s

Step 1: Recall Bernoulli's equation and continuity equation,…

Answered: (Bernoulli/continuity) Water flows…

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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Please give correct answer Subject is fluid mechanics
An incompressible fluid is flowing at a steady rate in a horizontal pipe. From a section, the pipe divides into two horizontal parallel pipes of diameters di and d2 (where d₁ = 4d₂) that run for a distance of L each and then again join back to a pipe of the original size. For both the parallel pipes, assume the head loss due to friction only and the Darcy-Weisbach friction factor to be the same. The velocity ratio between the bigger and the smaller branched pipes is
If you decide to help, please help with all the parts of the question, I'm not sure I understand any of it... :/ The tank shown in the following figure is being filled by Pipes 1 and 2. The water level is to remain constant. A tank of water is open at the top. The tank is filled from above by pipe 1 and pipe 2. Pipe 1 has diameter d1 = 1 in., and fills the tank with water at a velocity of V1 = 2 ft/s. Pipe 2 has diameter d2 = 1.25 in., and fills the tank with water at a velocity of V2 = 1.4 ft/s. Water empties from the bottom of the tank through pipe 3. Pipe 3 has diameter d3 = 1.5 in., and empties water from the tank at an unknown velocity V3. (a) What is the volume flow rate (in ft3/s) of Pipe 1? (b) What is the volume flow rate (in ft3/s) of Pipe 2? (c) What is the volume flow rate (in ft3/s) of water leaving the tank at 3? (d) What is the cross-sectional area (in ft2) of flow for Pipe 3? (e) What is the average velocity (in ft/s) of the water leaving the tank?
Note:hand written solution should be avoided.
An incompressible fluid is flowing at steady rate in horizontal pipe. From a section, the pipe divides into two horizontal parallel pipes of diameter (d, and d₂) (where d₁ = 4d₂) that run, for a distance of L each and then again join back to a pipe of the original size. For both the parallel pipes, assume the head loss due to friction only and the Darcy-weisbach friction factor to be same. The velocity ratio between bigger and smaller branched pipe is.
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(Bernoulli/continuity) Water flows steadily through a diverging tube as shown in the figure below. Determine the velocity, V, at the exit of the tube if frictional effects are negligible. i V Water 0.95 ft 0.72 ft 0.52 ft 0.21 ft SG=2.0 ! ft/s