In Fig. D, assuming standard atmoepheric pressure, compute the absolute pressure at m when: (a) Fluid A is water, fluid B is mereury, 2 = 15 in., y = 3.5 ft. (6) Fluid A is oil (sp gr 0.82), luid B is a salt solution (sp gr 1.10), :- 21.5 in., y - 7.5 in.

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(6) Fluid A is oil (sp gr 0.915), B is water, - 8.5 in., y 42 in. 8. In Fig. D, assuming standard atmospherie pressure, compute the absolute pressure at m when: (a) Fluid A is water, fluid B is mereury, 2 = 15 in., y = 3.5 ft. (8) Fluid A is oil (sp gr 0.82), fluid B is a salt solution (sp gr 1.10), : - 21.5 in., y - 7.5 in. 9. In Fig. D the distançe y +: 4.0 ft. When fluid A is water, fuid B is mereury, and the pressure st m is a vacuum of 5.4 Ib per sq in., compute z. 10. In Fig. E, find the pressure head and pressure at m when: (a) Fluid A is oil (sp gr 0.90), fluid B is carbon tetrachloride (sp gr 1.50), fluid C is air, a 24 in., y - 42 in. (6) Fluid A is water, fluid B is mereury, fluid C is air, : 13 in., y- 4.2 ft. 11. In Fig. F, fluids A and C are air, fuid B is water, - 14 in. Find gage pressure at m and absolute pressure assuming standard at- mospherie conditions. 12. In Fig. G, fluids A and C are air, fuid B is mereury, 1- 5 in. Compute gage and absolute pressures at m. Fruid C Fluid C Flaid A Maid B CS Scannee with emeenner haid B- Fluid A Fluit B Fe E Fiz F