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Part (a) The fluid has a density of 920 kg/m, and the tube has a cross-sectional...

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Part (a)

The fluid has a density of 920 kg/m^3, and the tube has a cross-sectional area that is much smaller than the cross-sectional area of the higher container.
Calculate the speed at which the fluid flows out of the tube at point Z.
_______ m/s

The fluid has a density of 920 kg/m^3, and the tube has a cross-sectional area that is much smaller than the cross-sectional area of the higher container.
Calculate the speed at which the fluid is flowing through the tube at point Y.
_______ m/s

The fluid has a density of 920 kg/m^3, and the tube has a cross-sectional area that is much smaller than the cross-sectional area of the higher container.
Calculate the absolute pressure inside the tube at point Y.
_______ kPa

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Answer #1

Applying Bernaullis eah b/w Pix & Z 20cm Py + vh the P + vh the 3 24 25 cm Note: Px = P2 = Patmospren. x = 0, hzzo Now Now V

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