8. (10 points extra credit) Consider the figure shown below. It shows a U-shaped mercury manometer...
Question 3: A simple U-tube manometer is shown in Figure 2. One end of the U-tube is connected to the pipe A so that the pressure at A (PA) is to be measured. The other end is left to be open to the atmosphere. The U-tube contains a liquid (mercury with specific gravity slig-13.54) called the gage fluid, which does not mix with the fluid (water). If the reading of inside pipe A
Water flows in the horizontal pipe shown in the figure. At point A the area is 26.0 cm2 and the speed of the water is 2.20 m/s. At B the area is 15.0 cm2. The fluid in the manometer is mercury, which has a density of 13,600 kg/m3. We can treat water as an ideal fluid having a density of 1000 kg/m3. What is the manometer reading h? Question 10 (1 point) Water flows in the horizontal pipe shown in...
Please show work and explain. Patm 11. The manometer shown in the picture contains an ideal gas at pressure Pgas = 76.0 kPa and the U-shaped tube is filled with mercury, whose density is Pug = 13600 kg/m3. The atmospheric pressure measured outside the manometer is Patm = 88.9 kPa. What is the height of the mercury column? Pgas a) h = 19 cm b) h = 93 cm c) h = 9.7 cm d) h = 6.3 cm
Observations Process Fluid Manometric Fluid Flowrate (Liter Per Minute) h1 (om of Manometric Fluid) h2 (cm of Manometric Fluid) Water Mercury 5.00 35.3 34.7 Water Mercury 10.00 38.1 33.9 Water Mercury 15.00 37.5 32.5 Water Mercury 20.00 30.5 30.5 Water Mercury 25.00 41.0 28.1 Water Mercury 30.00 25.1 Water Mercury 35.00 48.4 21.0 Water Mercury 40.00 52.4 17.6 Experimental Data Venturi Diameter: 0.006 meter(s) Type of Venturi tube : Welded Tube Nominal Pipe Diameter: 0.25 inch Actual Pipe Diameter: 0.92...
fluid mechanics please fast 1. (15 points) Water (p-1g/cm) is flowing in pipes shown in Figure below. Use Bernoull's equation to calculate velocity of water at point B. - Fluid velocity in the large diameter pipe is 1m/s. - Pressure at point 2 is measured with U-tube mercury manometer (Pmercury-13,600kg/m) - h1-0.3m, h2-6cm - assume that the acceleration gravity g-10m/s 2 Manometer shows 0.7kPa pressure Ji h1
Figure (a) below shows a U-shaped tube containing an amount of mercury. The left arm of the tube has cross-sectional area A, of 10.8 cm, and the right arm has a cross-sectional area A, of 4.00 cm. In both arms, the mercury is at the same level, as shown. In figure (b) below. 100 g of water is poured into the right arm of the tube and sits atop the mercury, all of it within the right arm. The mercury...
8. (i0 points) A manometer tube which contains mercury (Figure on the right) is used to measure the pressure PA in the air pipe. Determine the gage pressure PA is the specific gravity of mercury SGug 13.6. The right side if the barometer is open to ambient air. Air pipe 3 m Hg 9. (10 points) When a body is accelerated under water, some of the water is also accelerated. This makes the body appear to have a larger mass...
Y = 3 m (pa-pb) = 46 KN/m^2 Q.2. Figure:2 shows a U tube differential manometer connecting two pressure pipes at A and B. The pipe A and B contains water and manometer fluid is mercury. If the pressure difference between two pipe (p.-p.) is (X) kN/m’. Calculate the difference in level (h). (3 Marks) Water water 0.3 m у h Mercury Sp. gravity 13.6
1.11 (Tutorial). Determine the gage pressure at A as read by the U-tube manometer. Density of water is p 1000 kg/m3 and the specific gravity of mercury is SGmercury 13.6. 3.7 m 3.5 m Water Figure 1.11
I need a complete step by step solution please Exercise 3 Water flows through a pipe with a diameter d. In Venturi tube the diameter is reduced to d2 and a U- tube manometer filled with mercury is used to measure the pressure difference. What is the mass flux m for the following quantities: d1 20 cm, d2 10 cm, pwater 1000 kg/m3, pHg- 13600 kg/m3 and ућ-5 mn. d1 12 AJ