mercury manometer is connected to a large reservoir of water as shown. Determine the (5 marks)...
Question 3: For the manometer-inverted manometer shown below, if all fluids are at 20°C and Ps - PA= 140 kPa, determine the height H in centimeters. Given the SG of mercury is 13.6. ogh Meriam red oil, SG=0.827 18 cm Water Mercury 35 cm 140 gg hw + 89 hm + gg hme leonia.) (rw) + egli sw)( (2 ) 9.9.1 .18)
The mercury manometer shown in the figure (Figure 1) is attached to a gas cell. The mercury height h is 120 mm when the cell is placed in an ice-water mixture. The mercury height drops to 30 mm when the device is carried into an industrial freezer. What is the freezer temperature? The mercury manometer shown in the figure (Figure 1) is attached to a gas cell. The mercury height h is 120 mm when the cell is placed in...
Refer to Figure below. Two vessels are connected to a
differential manometer using mercury (SG = 13.56), the connecting
tubing is filled with water. Pressure vessel B is 5 feet above
pressure vessel A. Room temperature prevails. If the mercury
reading, Rm, is 8.0 inches, what is the difference in pressure
(∆p), in psi, from point A to B? (numeric value only - NO
units)
Fu du
5) J 2.32] Determine the gage pressure of the water at the point where the manometer attaches. All dimensions are in centimeters (Figure. P2.32) Oil (sp gr 0.85) Air 10 10 7 Water Mercury FIGURE P2.32
Water flows steadily from the large open tank shown in the
figure below. If viscous effects are negligible, determine (a) the
flowrate, Q, (b) the mercury manometer reading, h.
4. 1m 1.9m 0.07m Mercury 0.09m
Consider a pipe system as shown in Figure 1. The pipe is connected to a mercury manometer at point 1 and point 2. Prove that the pipe wall between these points is exerting less than 600 N of fluid force. The frictional losses along the pipe is not negligible. Water 1.5 m 1 0.15 m 2 30° 0.15 m Mercury,SG 13.5
A vertical venturi-meter is connected to a vertical pipe which carries water as shown in the figure. the diameters at the entrance and throat are 150 mm and 75 mm, respectively. The the mercury (specific gravity +13.6). U-tube mercury manometer connected to the entrance and throat of the meter . the height difference between the throat and entrance is 150mm.If the actual rate is 40 liters/s and the coefficient of discharge is 0.96, calculate (a) the pressure difference between entrance and...
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...
3. The system below is a pumping glycerol and is connected to a mercury manometer (assume 20 C). The inlet diameter is 3 in and the outlet diameter is 6 in. If the pump is moving 1.5 ftVs glycerol while supplying 3 HP (horsepower) into the system, calculate the height h (in inches) in the manometer. Hint: An energy balance will allow you to determine the pressure difference, which is related to h. But also consider that the manometer is...
Question Al A pipeline carrying heavy oil with a specific gravity of SGo-0.8 and a tank containing slightly compressed air are connected through a manometer filled with mercury, SGM 13.6 and a reservoir as shown in Fig. 1. The ratio of reservoir diameter D to pipe diameter d is D/d-2 Air ho Dill Mercury Figure 1: Manometer connecting pipeline and air tank. Drawing not to scale. The oil-mercury interface is at height ho-50cm below the centre of the pipeline, the...