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A fluid exits the control volume of the Figure at a mass flow rate of 1.71...
A fluid enters the control volume of the Figure at a mass flow rate of 2.50...
A fluid enters the control volume of the Figure at a mass flow rate of 2.50 slugs/s with a speed of 6.6 ft/s at an angle of 45 degrees. Calculate, in lb, the y-axis contribution of the term I vp (v.ü)da at the plane where the velocity is. w 4 90° Control Volume H X L
The dimensions of the control volume of the figure are L = 24 in, H =...
The dimensions of the control volume of the figure are L = 24 in, H = 9.7 in, W = 9.1 in and the angle is 34 degrees. A fluid with specific gravity SG = 1.08 moves through the control volume. The given velocity is V = 11.2 ft/s. Calculate, in lb, the x-axis contribution of the term So vplvri)dA at the plane where the velocity is. w L V Control Volume y H 20 Your Answer: Answer
The dimensions of the control volume of the figure are L = 110 cm, H =...
The dimensions of the control volume of the figure are L = 110 cm, H = 46.4 cm, W = 25.0 cm. A fluid with specific gravity SG = 0.98 moves through the control volume. The given velocity is V = 1.9 m/s. Calculate, in Newton, the y-axis contribution of the term Sos. VP (v-ü)dA at the plane where the velocity is. L 7W < H y Control volume X V Your Answer: -972.9
The dimensions of the control volume of the figure are L = 811 mm, H =...
The dimensions of the control volume of the figure are L = 811 mm, H = 441 mm, W = 300 mm and the angle is 46 degrees. A fluid with specific gravity SG = 0.831 occupies the control volume. The absolute pressure P1 on the top plane is 106.5 kPa. Calculate, in Newton, the contribution of this pressure to the x-component of the linear momentum balance: Ses Volv-ñ)da - ΣF The atmospheric pressure today is 99.6 kPa P1 H...
Figure P4.64 shows a fixed control volume. It has a volume VO = 1.0 ft3, a...
Figure P4.64 shows a fixed control volume. It has a volume VO = 1.0 ft3, a flow area A = 1.0 ft2, and a length 40 = 1.0 ft. Position x represents the center of the control volume where the fluid velocity VO = 1.0 ft/s and the density po = 1.800 slug/ft3. Also, at position x the fluid density does not change locally with time but decreases in the axial direction at the linear rate of 0.25 slug/ft4. Use...
The diagram on the next slide shows a fluid power system for a hydraulic press The following is known: The volume flow rate is 35 gpm. The hydraulic fluid has a specific gravity of 0.87 and v-4....
The diagram on the next slide shows a fluid power system for a hydraulic press The following is known: The volume flow rate is 35 gpm. The hydraulic fluid has a specific gravity of 0.87 and v-4.30x104 ft/s. The power input to the pump is 20 hp. The pump efficiency is 80 percent. The filter has a resistance coefficient K-1.85 based on the velocity head in the suction line. All piping is 2-in schedule 40 steel. The total length of...
HELPPPP 5 Hydraulic Press ●4 11.0 ft Flow 10.0 ft 2.0 ft 1 6 3.0 ft Filter Pump Flow The diagram on the next slide shows a fluid power system for a hydraulic press. The following is known: The volume...
HELPPPP
5 Hydraulic Press ●4 11.0 ft Flow 10.0 ft 2.0 ft 1 6 3.0 ft Filter Pump Flow The diagram on the next slide shows a fluid power system for a hydraulic press. The following is known: The volume flow rate is 35 gpm. The hydraulic fluid has a specific gravity of 0.87 and v-4.30X10+ ft'/s. The power input to the pump is 20 hp. . The pump efficiency is 80 percent. The filter has a resistance coefficient K-1.85...
Hydraulic Press 11.0ft Flow 10.0 ft 2.0ft 6 3.0 ft Filter Pump Flow The diagram on the next slide shows a fluid power system for a hydraulic press The following is known: The volume flow rate is...
Hydraulic Press 11.0ft Flow 10.0 ft 2.0ft 6 3.0 ft Filter Pump Flow The diagram on the next slide shows a fluid power system for a hydraulic press The following is known: The volume flow rate is 35 gpm. The hydraulic fluid has a specific gravity of 0.87 The power input to the pump is 20 hp. The pump efficiency is 80 percent. The filter has a resistance coefficient K-1.85 based on the velocity head in the suction line All...
Please provide step by step solution and i will give a positive rating. Many thanks 1)Suppose we have a steady fluid flow through a section of a cylindrical pipe with varying area, with control volume...
Please provide step by step solution and i will give a positive rating. Many thanks 1)Suppose we have a steady fluid flow through a section of a cylindrical pipe with varying area, with control volume. At the entrance the radius of the pipe r1 = 4m, the flow velocity is U1 = 5 i m/s and at the exit the radius of the pipe is r2 = 2.5 m and the velocity of the flow is U2 = 5 i...
FLUID FLOW OPERATIONS QUESTION Air is pumped at a rate of 10L/min from one pressurized tank to an...
FLUID FLOW OPERATIONS QUESTION
Air is pumped at a rate of 10L/min from one pressurized tank to
another through a reducing bend as shown in the figure below. The
bend has an area of 5 cm on the side of Tank 1 and 1 cm on the side
of Tank 2. If the angle of the bend, θ, is (a) 30 degrees or (b) 0
degrees, what is the force exerted by the pipe walls on the fluid?
If the...
A fluid enters the control volume of the Figure at a mass flow rate of 2.50 slugs/s with a speed of 6.6 ft/s at an angle of 45 degrees. Calculate, in lb, the y-axis contribution of the term I vp (v.ü)da at the plane where the velocity is. w 4 90° Control Volume H X L
The dimensions of the control volume of the figure are L = 24 in, H = 9.7 in, W = 9.1 in and the angle is 34 degrees. A fluid with specific gravity SG = 1.08 moves through the control volume. The given velocity is V = 11.2 ft/s. Calculate, in lb, the x-axis contribution of the term So vplvri)dA at the plane where the velocity is. w L V Control Volume y H 20 Your Answer: Answer
The dimensions of the control volume of the figure are L = 110 cm, H = 46.4 cm, W = 25.0 cm. A fluid with specific gravity SG = 0.98 moves through the control volume. The given velocity is V = 1.9 m/s. Calculate, in Newton, the y-axis contribution of the term Sos. VP (v-ü)dA at the plane where the velocity is. L 7W < H y Control volume X V Your Answer: -972.9
The dimensions of the control volume of the figure are L = 811 mm, H = 441 mm, W = 300 mm and the angle is 46 degrees. A fluid with specific gravity SG = 0.831 occupies the control volume. The absolute pressure P1 on the top plane is 106.5 kPa. Calculate, in Newton, the contribution of this pressure to the x-component of the linear momentum balance: Ses Volv-ñ)da - ΣF The atmospheric pressure today is 99.6 kPa P1 H...
Figure P4.64 shows a fixed control volume. It has a volume VO = 1.0 ft3, a flow area A = 1.0 ft2, and a length 40 = 1.0 ft. Position x represents the center of the control volume where the fluid velocity VO = 1.0 ft/s and the density po = 1.800 slug/ft3. Also, at position x the fluid density does not change locally with time but decreases in the axial direction at the linear rate of 0.25 slug/ft4. Use...
The diagram on the next slide shows a fluid power system for a hydraulic press The following is known: The volume flow rate is 35 gpm. The hydraulic fluid has a specific gravity of 0.87 and v-4.30x104 ft/s. The power input to the pump is 20 hp. The pump efficiency is 80 percent. The filter has a resistance coefficient K-1.85 based on the velocity head in the suction line. All piping is 2-in schedule 40 steel. The total length of...
HELPPPP
5 Hydraulic Press ●4 11.0 ft Flow 10.0 ft 2.0 ft 1 6 3.0 ft Filter Pump Flow The diagram on the next slide shows a fluid power system for a hydraulic press. The following is known: The volume flow rate is 35 gpm. The hydraulic fluid has a specific gravity of 0.87 and v-4.30X10+ ft'/s. The power input to the pump is 20 hp. . The pump efficiency is 80 percent. The filter has a resistance coefficient K-1.85...
Hydraulic Press 11.0ft Flow 10.0 ft 2.0ft 6 3.0 ft Filter Pump Flow The diagram on the next slide shows a fluid power system for a hydraulic press The following is known: The volume flow rate is 35 gpm. The hydraulic fluid has a specific gravity of 0.87 The power input to the pump is 20 hp. The pump efficiency is 80 percent. The filter has a resistance coefficient K-1.85 based on the velocity head in the suction line All...
FLUID FLOW OPERATIONS QUESTION
Air is pumped at a rate of 10L/min from one pressurized tank to
another through a reducing bend as shown in the figure below. The
bend has an area of 5 cm on the side of Tank 1 and 1 cm on the side
of Tank 2. If the angle of the bend, θ, is (a) 30 degrees or (b) 0
degrees, what is the force exerted by the pipe walls on the fluid?
If the...
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