As shown in the figure, water flows in the horizontal pipe. The pipe consists of two different sections, 60 mm and 30 mm in diameter, connected by a smooth reduction. The pressure difference between the two sections is measured with a mercury manometer. Friction effects are neglected. The height between the mercury levels in the two sections of the pipe was determined as 1.4m. Find the velocity and mass flow at points 1 and 2. (Density of mercury: 13.6 grams / cm3, Density of water: 1gr / cm3)
As shown in the figure, water flows in the horizontal pipe. The pipe consists of two different sections, 60 mm and 30 mm in diameter, connected by a smooth reduction. The pressure difference between the two sections is measured with a mercury manometer. Friction effects are neglected. The height between the mercury levels in the two sections of the pipe was determined as 1.4m. Find the velocity and mass flow at points 1 and 2. (Density of mercury: 13.6 grams / cm3, Density of water: 1gr / cm3)
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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As shown in the figure, water flows in the horizontal pipe. The pipe consists of two different sections, 60 mm and 30 mm in diameter, connected by a smooth reduction. The pressure difference between the two sections is measured with a mercury manometer. Friction effects are neglected. The height between the mercury levels in the two sections of the pipe was determined as 1.4m. Find the velocity and mass flow at points 1 and 2. (Density of mercury: 13.6 grams / cm3, Density of water: 1gr / cm3)
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