For atmospheric pressure above the sliding block of 10 kg mass, find the gauge pressure in the pipe A for the configuration shown in the figure below. Diameter = 10 cm block Patm Block mass= 10 kg S oil = 0.85 Liquid, 3 cm S= 1.45 5 cm 4 cm 6 cm Water cm 3 cm Tube Diameter=2 cm O a. 13.15 kPa O b. 15.1 kPa O. 13.81 kPa O d. 12.55 k Pa e. None of the mentioned

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**Problem Statement** For atmospheric pressure above the sliding block of 10 kg mass, find the gauge pressure in the pipe A for the configuration shown in the figure below. **Diagram and Configuration Explanation** The diagram presents a fluid system with the following key elements: - A container labeled "A" filled with water. - A tube system where water is shown entering from the left side of "A" and moving through the tube system. - The tube has various sections with specified lengths and heights: - Initially vertical from "A" with a height of 4 cm. - Then horizontal to the right for 3 cm. - Then vertically downward for 10 cm. - Finally, a vertical section of height 8 cm after the horizontal segment. - At the top of this configuration, a block of mass 10 kg is resting, exerting pressure through a diameter of 10 cm. - This system has: - A liquid with specific weight S = 1.45 underneath the block. - Oil with S_oil = 0.85 filling the upper part of the tube (above the block). - Tube diameter is given as 2 cm. **Quiz Options** What is the gauge pressure in the pipe A? a. 13.15 kPa b. 15.1 kPa c. 13.81 kPa d. 12.55 kPa e. None of the mentioned