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The initial pressures at A and B are the same at 109 kPa. If the pressure at the liquid at A (SG1 = 2.65) is increased to 134 kPa while keeping the pressure at B constant, determine the new position (Ah, in mm.) of the mercury meniscus inside the tube as shown. Assume no change in the liquid densities. The connecting tube is a 1-cm in diameter, Y1 = 0.69 cm., and the inclination of the tube is 16° with respect to the horizontal. Assume unit weight of air to be negligible. Round off to three decimal places.

The initial pressures at A and B are the same at 109 kPa. If the pressure at the liquid at A (SG1 = 2.65) is increased to 134 kPa while keeping the pressure at B constant, determine the new position (Ah, in mm.) of the mercury meniscus inside the tube as shown. Assume no change in the liquid densities. The connecting tube is a 1-cm in diameter, Y1 = 0.69 cm., and the inclination of the tube is 16° with respect to the horizontal. Assume unit weight of air to be negligible. Round off to three decimal places.

Structural Analysis
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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The initial pressures at A and B are the same at 109 kPa. If the pressure at the liquid at A (SG1 = 2.65) is increased to 134 kPa while keeping the pressure at B constant, determine the new position (Ah, in mm.) of the mercury meniscus inside the tube as shown. Assume no change in the liquid densities. The connecting tube is a 1-cm in diameter, Y1 = 0.69 cm., and the inclination of the tube is 16° with respect to the horizontal. Assume unit weight of air to be negligible. Round off to three decimal places. SG B Air Yı Δh Ah Mercury
Transcribed Image Text:The initial pressures at A and B are the same at 109 kPa. If the pressure at the liquid at A (SG1 = 2.65) is increased to 134 kPa while keeping the pressure at B constant, determine the new position (Ah, in mm.) of the mercury meniscus inside the tube as shown. Assume no change in the liquid densities. The connecting tube is a 1-cm in diameter, Y1 = 0.69 cm., and the inclination of the tube is 16° with respect to the horizontal. Assume unit weight of air to be negligible. Round off to three decimal places. SG B Air Yı Δh Ah Mercury
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