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Q3) An inclined manometer tube is connected to two closed tanks as shown in the figure...
fluid mechanics 3. Static Pressure Two water tanks are connected to one another through a mercury...
fluid mechanics
3. Static Pressure Two water tanks are connected to one another through a mercury (SG 13.6) manometer with inclined tubes as shown. If the pressure difference between the two tanks is 20kPa, calculate the values of a in centimeters (cm) and ? in degrees Note: ?Water 9.81 kN/m3. Water CI 26.8 cm 2a Water Mercury SG 13.6
Determine the new differential reading along the inclined leg of the mercury manometer of the figure...
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...
the answer should be Pb=18.41 KPa For the inclined-leg of the mercury manometer of Fig. 1-2,...
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
(Manometer) Determine the angle of the inclined tube shown in figure below if the pressure at...
(Manometer) Determine the angle of the inclined tube shown in figure below if the pressure at A is 1 psi greater than that at B. SG=0.77 SG = 1.0 10.0 ft 24.2854 deg
Fluid Statics --- The reading L= 5 0mm of an inclined 13. (12%) mercury manometer shown...
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
1. An open tube manometer is connected to a gas tank (see Fig. (1). The mercury...
1. An open tube manometer is connected to a gas tank (see Fig. (1). The mercury is 39 cm higher on the right side than on the left when a barometer nearby reads 75 cm Hg. What is the absolute pressure of the gas? Express the answer in cm Hg, atm., Pa and lb/in?. PP 1-y- D-P To Tank Fig.ci)
Q3: A manometer connected to a tank which is filled with air, and partially with oil...
Q3: A manometer connected to a tank which is filled with air, and partially with oil having specific gravity of (0.8), as shown in figure (3). Calculate: a) The pressure at the gauge (level 5) in m.oil. b) The absolute pressure at pressure gauge in (m.oil) if the atmospheric pressure is 75cm.Hg. Air 0.8m 3 Pressure gauge 3m Oil S=0.8 Mercury (S=13.6) 15 Figure 1).
The two tanks A and B are connected using a manometer. If the waste oil is...
The two tanks A and B are connected using a manometer. If the
waste oil is poured into tank A to a depth of h=1.25 m, determine
the pressure of the trapped air in tank B. Air is also trapped in
line CD as shown. Take this fact into account by using the Ideal
Gas Law and room temperature to account for the effect of the
trapped air. Take p_o= 900 (kg/m^3) and p_w= 1000 (kg/m^3).
manometer. If waste oil...
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
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 mechanics
3. Static Pressure Two water tanks are connected to one another through a mercury (SG 13.6) manometer with inclined tubes as shown. If the pressure difference between the two tanks is 20kPa, calculate the values of a in centimeters (cm) and ? in degrees Note: ?Water 9.81 kN/m3. Water CI 26.8 cm 2a Water Mercury SG 13.6
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...
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
(Manometer) Determine the angle of the inclined tube shown in figure below if the pressure at A is 1 psi greater than that at B. SG=0.77 SG = 1.0 10.0 ft 24.2854 deg
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
1. An open tube manometer is connected to a gas tank (see Fig. (1). The mercury is 39 cm higher on the right side than on the left when a barometer nearby reads 75 cm Hg. What is the absolute pressure of the gas? Express the answer in cm Hg, atm., Pa and lb/in?. PP 1-y- D-P To Tank Fig.ci)
Q3: A manometer connected to a tank which is filled with air, and partially with oil having specific gravity of (0.8), as shown in figure (3). Calculate: a) The pressure at the gauge (level 5) in m.oil. b) The absolute pressure at pressure gauge in (m.oil) if the atmospheric pressure is 75cm.Hg. Air 0.8m 3 Pressure gauge 3m Oil S=0.8 Mercury (S=13.6) 15 Figure 1).
The two tanks A and B are connected using a manometer. If the
waste oil is poured into tank A to a depth of h=1.25 m, determine
the pressure of the trapped air in tank B. Air is also trapped in
line CD as shown. Take this fact into account by using the Ideal
Gas Law and room temperature to account for the effect of the
trapped air. Take p_o= 900 (kg/m^3) and p_w= 1000 (kg/m^3).
manometer. If waste oil...
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