In the shown Figure, fluidA is water and fluid B is mercury. Assume that the specific gravity of water is 1.0 and the specific gravity of mercury is 13.6, the right side vertical tube is open to atmosphere (0 psig), and the local acceleration of gravity is 33.2 ft/sec^2, determine the pressure P1 of the water. Give your answers in a) PSIG, b) PSIV, and c) PSIA. Sg =1.0 10 Place your work with this Cover Sheet and your answers in the spaces provided. Kagsd, do not send individual photo files of the oations No credit for an answer without the proper calculations. Answers: a) P1 Pressure PSIG b) P1 Pressure PSIV c) P1 Pressure PSIA

My teacher wants me to use the imperial system which is confusing for me since I’ve always used metric. I’ve attached the question and my work so far really not confident in my answer

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In the shown Figure, fluid A is water and fluid B is mercury. Assume that the specific gravity of water is 1.0 and the specific gravity of mercury is 13.6, the right side vertical tube is open to atmosphere (0 psig), and the local acceleration of gravity is 33.2 ft/sec^2, determine the pressure P1 of the water. Give your answers in a) PSIG, b) PSIV, and c) PSIA. Sg =1,0 10 Place your work with this Cover Sheet and your answers in the spaces provided. Kipo, do not send individual photo files of the louatioas No credit for an answer without the proper calculations. Answers: a) P1 Pressure PSIG b) P1 Pressure PSIV c) P1 Pressure PSIA

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1bfsec Ibm 32.17ft 15in P-P, = 13.6( 62.41bm )/3.2 Sec2 12in 144in? re, fli ravit ne rig al acc the lo25 P= 7.6025 Pe = Pp 0.416 (1) (Ga.4), 312 vith t 32.17 144 P- PJ= not s %3D er w 7,6025 -0.1748= P SIG= 7.4277