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determine the pressure
For the sketch of Figure P2.39 (all dimensions in inches), determine the pressure...
Determine the pressure difference between point A and B. The dimensions in the figure denotes the...
Determine the pressure difference between point A and B. The dimensions in the figure denotes the vertical distance Table 1: Reference Liquid Property Liquid Type Density, kg/m Benzene Mercury Kerosene Water Air 881 13600 809 998 1.2 Kerosene Air 9cm 40cm 20cm 8em 14cm Benzene Mercury Water
5) J 2.32] Determine the gage pressure of the water at the point where the manometer...
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
The light beam shown in the figure below makes an angle of = 15.0° with the...
The light beam shown in the figure below makes an angle of = 15.0° with the normal line NN' in the linseed oil. Determine the angles 9 and '. (The refractive index for linseed oil is 1.48.) 8 - 24.07 X Apply Snell's law to find the angle of refraction in the water from the angle of incidence. gr - 30.6 Linseed oil Water Need Help? Menteri Additional Materials eBook
Problem 5: Figure below shows a multi-fluid manometer used to measure the absolute pressure of the...
Problem 5: Figure below 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. oil Air 32 cm 18 cm 35 15 cm Mercury Water
Q1. For the systems of manometers shown in Figures 1a and 1b below, determine the pressure...
Q1. For the systems of manometers shown in Figures 1a and 1b below, determine the pressure difference between pipes A and B. Note that for the case shown in Figure 1a two different manometry fluids are being used (mercury and oil). Assume: Amercury = 13600 kg/mº; poir = 780 kg/m and pw = 1000 kg/m3 Oil 0.33 m Water Water 0.45 m 1.89 m 0.99 m Pipe Pipe Mercury Water Pipe 1.3 m 0.5 m Mercury Figure 1
3. If the reading on the pressure gage is 370 kPa, (a) determine the gage pressure...
3. If the reading on the pressure gage is 370 kPa, (a) determine the gage pressure (in kPa) of the gasoline line, and (b) repeat your analysis for a pressure gage reading of 210 kPa Oil SG-0.79 Pgage 370 kFa Gasoline SG:0.70 45 cm 50cm22 cm Pipe Air 10 cm Water Mercury SG- 13.6 Figure 2
The figure belows shows a dosed tank holding air and oil to which is connected a...
The figure belows shows a dosed tank holding air and oil to which is connected a U-tube mercury manometer and a pressure gage, with 24-4ft, L2 - 0.5 ft, and L3 - 1.25 ft. The densities of the oil and mercury are 55 and 845, respectively, each in lb/rt. Let 9 -32.2 ft/s? Peware Air QI (55) Mercury (545) Determine the reading of the pressure gage, in Ibf/in? (gage). Page RESOURCES Problem 1.041 The figure belows shows a closed tank...
8. The figure shows a tank within a tank, each containing air. Pressure gage A, which...
8. The figure shows a tank within a tank, each containing air. Pressure gage A, which indicates pressure inside tank A, is located inside tank B and reads 5 psig (vacuum). The U-tube Pa 14.7 psia Tank B manometer connected to tank B contains water with a column length of 10 in. Using the data shown on the figure, determine the absolute pressure of the air inside tank B and inside tank A, both in psia. The atmospheric pressure surrounding...
A countershaft carrying two V-belt pulleys is shown in figure 1 (dimensions in inches). Pulley A...
A countershaft carrying two
V-belt pulleys is shown in figure 1 (dimensions in inches). Pulley
A receives power from a motor through a belt with the belt tensions
shown. The power is transmitted through the shaft and delivered to
the belt on pulley B. Assume the belt tension on the loose side at
B is
15 percent of the tension on the tight side.
a) At the point of maximum bending moment, determine the principal
stresses and the maximum shear...
Question 3 (40 marks) (a) Air enters a horizontal nozzle with a velocity of 1 m/s,...
Question 3 (40 marks) (a) Air enters a horizontal nozzle with a velocity of 1 m/s, a pressure of 2 bar and a temperature of 350 K. At exit from nozzle, the air temperature is 450 K. The combined rate of specific heat transfers, and specific work transfers, w to the air as it passes through the nozzle is 150 kJ/kg. Assume that the air flow is steady and air can be treated as perfect gas with = 1005 J/(kg.K)....
Determine the pressure difference between point A and B. The dimensions in the figure denotes the vertical distance Table 1: Reference Liquid Property Liquid Type Density, kg/m Benzene Mercury Kerosene Water Air 881 13600 809 998 1.2 Kerosene Air 9cm 40cm 20cm 8em 14cm Benzene Mercury Water
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
The light beam shown in the figure below makes an angle of = 15.0° with the normal line NN' in the linseed oil. Determine the angles 9 and '. (The refractive index for linseed oil is 1.48.) 8 - 24.07 X Apply Snell's law to find the angle of refraction in the water from the angle of incidence. gr - 30.6 Linseed oil Water Need Help? Menteri Additional Materials eBook
Problem 5: Figure below 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. oil Air 32 cm 18 cm 35 15 cm Mercury Water
Q1. For the systems of manometers shown in Figures 1a and 1b below, determine the pressure difference between pipes A and B. Note that for the case shown in Figure 1a two different manometry fluids are being used (mercury and oil). Assume: Amercury = 13600 kg/mº; poir = 780 kg/m and pw = 1000 kg/m3 Oil 0.33 m Water Water 0.45 m 1.89 m 0.99 m Pipe Pipe Mercury Water Pipe 1.3 m 0.5 m Mercury Figure 1
3. If the reading on the pressure gage is 370 kPa, (a) determine the gage pressure (in kPa) of the gasoline line, and (b) repeat your analysis for a pressure gage reading of 210 kPa Oil SG-0.79 Pgage 370 kFa Gasoline SG:0.70 45 cm 50cm22 cm Pipe Air 10 cm Water Mercury SG- 13.6 Figure 2
The figure belows shows a dosed tank holding air and oil to which is connected a U-tube mercury manometer and a pressure gage, with 24-4ft, L2 - 0.5 ft, and L3 - 1.25 ft. The densities of the oil and mercury are 55 and 845, respectively, each in lb/rt. Let 9 -32.2 ft/s? Peware Air QI (55) Mercury (545) Determine the reading of the pressure gage, in Ibf/in? (gage). Page RESOURCES Problem 1.041 The figure belows shows a closed tank...
8. The figure shows a tank within a tank, each containing air. Pressure gage A, which indicates pressure inside tank A, is located inside tank B and reads 5 psig (vacuum). The U-tube Pa 14.7 psia Tank B manometer connected to tank B contains water with a column length of 10 in. Using the data shown on the figure, determine the absolute pressure of the air inside tank B and inside tank A, both in psia. The atmospheric pressure surrounding...
A countershaft carrying two
V-belt pulleys is shown in figure 1 (dimensions in inches). Pulley
A receives power from a motor through a belt with the belt tensions
shown. The power is transmitted through the shaft and delivered to
the belt on pulley B. Assume the belt tension on the loose side at
B is
15 percent of the tension on the tight side.
a) At the point of maximum bending moment, determine the principal
stresses and the maximum shear...
Question 3 (40 marks) (a) Air enters a horizontal nozzle with a velocity of 1 m/s, a pressure of 2 bar and a temperature of 350 K. At exit from nozzle, the air temperature is 450 K. The combined rate of specific heat transfers, and specific work transfers, w to the air as it passes through the nozzle is 150 kJ/kg. Assume that the air flow is steady and air can be treated as perfect gas with = 1005 J/(kg.K)....
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