Problem 7 Water with density Pwater = 1000 kg/m³ flows through a pipe, composed of two reduced in size sections, as shown on the figure. The two sections are linked with a flange connection, and the...

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Problem 7<br>Water with density Pwater = 1000 kg/m³ flows through a<br>pipe, composed of two reduced in size sections, as shown on<br>the figure. The two sections are linked with a flange<br>connection, and the corresponding diameters are D,<br>and D, = 5 cm. If the velocity in cross-section 1 is v,<br>and the readings of the connected liquid manometer is h :<br>60 cm, determine the reaction force acting over the flange<br>connection. The manometric fluid is mercury, with density<br>1<br>Pa=101kPa<br>= 8 cm<br>5 m/s,<br>%3D<br>%3D<br>Mercury<br>Pmercury = 13600 kg/m³.<br>

Extracted text: Problem 7 Water with density Pwater = 1000 kg/m³ flows through a pipe, composed of two reduced in size sections, as shown on the figure. The two sections are linked with a flange connection, and the corresponding diameters are D, and D, = 5 cm. If the velocity in cross-section 1 is v, and the readings of the connected liquid manometer is h : 60 cm, determine the reaction force acting over the flange connection. The manometric fluid is mercury, with density 1 Pa=101kPa = 8 cm 5 m/s, %3D %3D Mercury Pmercury = 13600 kg/m³.

Jun 11, 2022

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Problem 7 Water with density Pwater = 1000 kg/m³ flows through a pipe, composed of two reduced in size sections, as shown on the figure. The two sections are linked with a flange connection, and the...

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