be form into another. This is called conservation of energy. This law is also applied within moving fluid through pipes or tubes. Describe and explain the energies contained in moving fluid. b) The method of calculating the velocity of fluid flow in a closed pipe system depends on the principle of continuity. Explain the concept of the continuity equation and write the equation to support your explanation. :) A pipe reducer reduces a 75 mm diameter pipe to a 25 mm diameter pipe as shown in Figure 1. The pressure at point A is 350 kPa and the pressure at point B is 250 kPa. Calculate the velocity of flow of water at point B. Flow to A 25 mm diameter 75 mm diameter Tiauno

be form into another. This is called conservation of energy. This law is also applied within moving fluid through pipes or tubes. Describe and explain the energies contained in moving fluid. b) The method of calculating the velocity of fluid flow in a closed pipe system depends on the principle of continuity. Explain the concept of the continuity equation and write the equation to support your explanation. :) A pipe reducer reduces a 75 mm diameter pipe to a 25 mm diameter pipe as shown in Figure 1. The pressure at point A is 350 kPa and the pressure at point B is 250 kPa. Calculate the velocity of flow of water at point B. Flow to A 25 mm diameter 75 mm diameter Tiauno

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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