Water is flowing through two horizontal pipes of different diameters which are connected together. The speed...
Water is flowing through two horizontal pipes of different diameters which are connected together. The speed of water in the first pipe is 4m/s, diameters of the pipe is 2cm, and the pressure is 2 ×104N/m2 . The density of water is 1000kg/m3 . The diameter of the second pipe is 4cm. Calculate the speed and pressure of water in the second pipe.
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Water is flowing through two horizontal pipes of different
diameters which are connected together. The speed...
04 Water is flowing through a Tee in a horizontal plane as shown in Figure 3....
04 Water is flowing through a Tee in a horizontal plane as shown in Figure 3. Neglecting losses, calculate: (i) the pressure in pipes 2 and 3; (ii) the resultant force needed to hold the Tee in place. 100 kPa 2 0.24 m/s 30% 150 mm diameter Water 450 mm. Dia 0.6 m3ls 300 mm diameter 45 0.36 m3/s Figure 3: Tee pipe
Water is slowly drained from a large reservoir using two horizontal plastic pipes connected in series....
Water is slowly drained from a large reservoir using two horizontal plastic pipes connected in series. The pipes are smooth and located at the bottom of the reservoir, as shown below. The first pipe has a diameter D1 = 10 cm and length L1 = 10 m, while the second pipe has a diameter D2 = 5 cm and a length L2 = 40 m (see schematic below). The water level in the reservoir is constant and equal to H...
How it's solved A viscous fluid is flowing through two different horizontal pipes. The pressure difference...
How
it's solved
A viscous fluid is flowing through two different horizontal pipes. The pressure difference Δp between the ends of each pipe is the same. The pipes have the same radius but different length as shown. The relation between the flow rate through the pipes is B) QA-QB 2L
The water is flowing through a pipe having diameter 22 Cm and 12Cm at sections (1)...
The water is flowing through a pipe having diameter 22 Cm and 12Cm at sections (1) and (2) respectively. The volumetric flow rate is 0.2m3/s. The section (1) is 8m above datum and section (2) is 5m above datum. If the pressure at section (1) is 40N/Cm2. Find the pressure at section (2). Density of water=1000kg/m3. Select one: O a. 296781.2 N/m2 O b. 286754.9 N/m2 O c. 267212.4 N/m2 O d. 276729.1 N/m2 e. 288667.4 N/m2
Water at 15 C is drained from a large reservoir using two horizontal plastic pipes connected...
Water at 15 C is drained from a large reservoir using two horizontal plastic pipes connected in series. The first pipe is 13 m long and has a 10-cm diameter, while the second pipe is 35 m long and has a 5-cm diameter. The water level in the reservoir is 18 m above the centerline of the pipe. The pipe entrance is sharp-edged, and the contraction between the two pipes is sudden. Neglecting the effect of the kinetic energy correction...
4. Figure 2 shows two reservoirs which are connected by three pipes of different diameters. The...
4. Figure 2 shows two reservoirs which are connected by three pipes of different diameters. The length and diameter of each pipe are given in Table 1. The flow rate in the pipeline is 55 Ls. The entrance and exit from the pipes are sharp and the change between the pipelines in the cross sections is sudden. Assume the friction factor, /for the pipes as 0.01. (a) Analyse all the head losses which occur, giving an expression for each. (7...
Two round pipes have water flowing through them. Pipe B is half of the diameter of...
Two round pipes have water flowing through them. Pipe B is half
of the diameter of pipe A. If the average velocity of the flow
through both pipes is the same, what is QA/QB?
7. Two round pipes have water flowing through them. Pipe B is half of the diameter of pipe A. If the average velocity of the flow through both pipes is the same, what is QA/QB? A Į B
A pipe caring water with volumetric flow rate 0.6 m3/s branches into five pipes. The first...
A pipe caring water with volumetric flow rate 0.6 m3/s branches into five pipes. The first pipe is (diameter=33Cm and velocity=1.3m/s), the second pipe is (diameter=32Cm), the third pipe is (diameter=26Cm and velocity=1.8m/s), the fourth pipe is (diameter=28Cm and velocity=2.2m/s), while the fifth pipe is (diameter=25Cm and velocity=2m/s). Find the velocity in the second pipe. Density of water=1000kg/m3. Select one: O a. 1.982 m/s Ob. 1.883 m/s O c. 2.014 m/s O d. 2.121 m/s O e. 2.231 m/s
A horizontal pipe contains water at a pressure of 120 kPa flowing with a speed of...
A horizontal pipe contains water at a pressure of 120 kPa flowing with a speed of 1.9 m/s. When the pipe narrows to one-half its original diameter, what are (a) the speed and (b) the pressure of the water?
A horizontal pipe contains water at a pressure of 150 kPa flowing with a speed of...
A horizontal pipe contains water at a pressure of 150 kPa flowing with a speed of 1.8 m/s. The pipe narrows to one-half its original diameter. What is the pressure of the water?
04 Water is flowing through a Tee in a horizontal plane as shown in Figure 3. Neglecting losses, calculate: (i) the pressure in pipes 2 and 3; (ii) the resultant force needed to hold the Tee in place. 100 kPa 2 0.24 m/s 30% 150 mm diameter Water 450 mm. Dia 0.6 m3ls 300 mm diameter 45 0.36 m3/s Figure 3: Tee pipe
Water is slowly drained from a large reservoir using two horizontal plastic pipes connected in series. The pipes are smooth and located at the bottom of the reservoir, as shown below. The first pipe has a diameter D1 = 10 cm and length L1 = 10 m, while the second pipe has a diameter D2 = 5 cm and a length L2 = 40 m (see schematic below). The water level in the reservoir is constant and equal to H...
How
it's solved
A viscous fluid is flowing through two different horizontal pipes. The pressure difference Δp between the ends of each pipe is the same. The pipes have the same radius but different length as shown. The relation between the flow rate through the pipes is B) QA-QB 2L
The water is flowing through a pipe having diameter 22 Cm and 12Cm at sections (1) and (2) respectively. The volumetric flow rate is 0.2m3/s. The section (1) is 8m above datum and section (2) is 5m above datum. If the pressure at section (1) is 40N/Cm2. Find the pressure at section (2). Density of water=1000kg/m3. Select one: O a. 296781.2 N/m2 O b. 286754.9 N/m2 O c. 267212.4 N/m2 O d. 276729.1 N/m2 e. 288667.4 N/m2
Water at 15 C is drained from a large reservoir using two horizontal plastic pipes connected in series. The first pipe is 13 m long and has a 10-cm diameter, while the second pipe is 35 m long and has a 5-cm diameter. The water level in the reservoir is 18 m above the centerline of the pipe. The pipe entrance is sharp-edged, and the contraction between the two pipes is sudden. Neglecting the effect of the kinetic energy correction...
4. Figure 2 shows two reservoirs which are connected by three pipes of different diameters. The length and diameter of each pipe are given in Table 1. The flow rate in the pipeline is 55 Ls. The entrance and exit from the pipes are sharp and the change between the pipelines in the cross sections is sudden. Assume the friction factor, /for the pipes as 0.01. (a) Analyse all the head losses which occur, giving an expression for each. (7...
Two round pipes have water flowing through them. Pipe B is half
of the diameter of pipe A. If the average velocity of the flow
through both pipes is the same, what is QA/QB?
7. Two round pipes have water flowing through them. Pipe B is half of the diameter of pipe A. If the average velocity of the flow through both pipes is the same, what is QA/QB? A Į B
A pipe caring water with volumetric flow rate 0.6 m3/s branches into five pipes. The first pipe is (diameter=33Cm and velocity=1.3m/s), the second pipe is (diameter=32Cm), the third pipe is (diameter=26Cm and velocity=1.8m/s), the fourth pipe is (diameter=28Cm and velocity=2.2m/s), while the fifth pipe is (diameter=25Cm and velocity=2m/s). Find the velocity in the second pipe. Density of water=1000kg/m3. Select one: O a. 1.982 m/s Ob. 1.883 m/s O c. 2.014 m/s O d. 2.121 m/s O e. 2.231 m/s
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