Pipe A contains gasoline(SG=0.70) , pipe B contains oil(SG=0.90), and the manometer fluid is mercury. Determine the new differential reading if the pressure in pipe A is decreased 25 kPa, and the pressure in pipe B remains constant. The initial differential reading is 0.30 m as shown. Use unit weight of water = 9810 N/m3
Pipe A contains gasoline(SG=0.70) , pipe B contains oil(SG=0.90), and the manometer fluid is mercury. Determine...
Determine the new differential reading along the inclined leg of the mercury manometer of the figure below, if the pressure in pipe A is decreased 25 kPa and the pressure in pipe B remains unchanged. The fluid in A has a specific gravity of 0.9 and the fluid in B is water. Assume h1 = 40 mm, h2 = 20 mm, h3 = 32 mm. Determine the new differential reading along the inclined leg of the mercury manometer of the...
Determine the new differential reading along the inclined leg of the mercury manometer as shown in the figure, if the pressure in pipe A is decreased 10 kPa and the pressure in pipe B remains unchanged. The fluid in A has a specific gravity of 0.9 and the fluid in B is water.
Fluid Statics --- The reading L= 5 0mm of an inclined 13. (12%) mercury manometer shown below is at equilibrium. If pressure at point B remains the same while pressure of point A is decreased by 15 kPa, what would be the new final reading of L? SG = 0.9 Water A 100 mm 30° 80 mm 50 mm Mercury
Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L when the absolute pressure at A is 125 kPa? Mercury SG- 13.56, Oil SG 0.86. 01 Air 32 cm 18 em 35 15 cm Fig. 2 Water Mercury Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L...
the answer should be Pb=18.41 KPa For the inclined-leg of the mercury manometer of Fig. 1-2, the pressure in pipe A is 15 kPa. The fluid in A has a specific gravity of 0.9 and the fluid in B is water. What is the pressure in pipe B corresponding to the differential reading shown? (25 points) SG = 0.9 Water 100 mm 80 mm 50 mm Mercury Fig. 1-2
4-For the manometer shown in the Fig. below contains oil and water.For the column heights indicated what is the pressur differential between pipes A and B. CDI water water 650) 20 10 Glycerin S.G-1.26 oil o-o.as S.G 0.85 Dimensions in cm S-The inverted U-tube manometer contains oil S.G.-0.9and water. The pressure differential between A and B, pA-PB is-5kPa Determine the differential reading,h Oil 0.2 m 0.3 m Water 9-Air flows through a pipe at a rate of 200L/s.The pipe consists...
The pressure in A is 20 KPa and the pressure in B is -10KPa ( a vacuum). Problem 1 A differential mercury manometer as shown is connected to pipe A containing an unknown fluid of unknown specific weight. If the differential height, h is 2.5 m, what is the specific weight of the unknown fluid? 0.2 m Unknown fluid Water 0.4 m Mercury
1.16 An inverted U-tube manometer containing oil (SG = 0.8) is connected to two vessels as shown in Fig. 1.16. The vessel on the left contains liquid carbon tetrachloride (density 1600 kg/m3), is closed and pressurised to 50 kPa (gauge). The vessel on the right contains water and is open to the atmosphere. Use the given data to determine the depth H of the liquid stored in the left vessel. Ans: 0.89 m Carbon tetrachloride 50 kPa 02 m Oil...
determine the differential height,&! the water manometer of the oil flow rate CHE 3315 FLUID MECHANICS PROBLEM SHEET 10: PIPE NETWORKS AND FLOW MEASUREMENT 1. Water flows into the 2-inch-diameter galvonized iron pipe shown below at 0.3 ft3/s. If the pipe branches into two 1-inch diameter pipes ABD and ACD, which are 4 ft and 6 ft long repectively. (a) determine the flow rate through each pipe in m3/s, neglecting minor losses, (b) determine the pressure drop across each branch....
4 A U-Tube manometer is connected to a closed tank, shown below, containing oil a density of 800 kg/m², the pressure of the air above the oil being 6000 Pa, if the pressure at point A is 20 kPa and the manometer fluid has a relative density of 5, Assume x=0.6m. determine the following i. The depth of oil, Z ii. The differential reading, Z2 on the manometer. (5marks) Z2 Z A OIL 5 Explain about the steady and unsteady...