![Problem 1 (a) A stationary fluid of density ρ is contained in the inclined pipe shown below. The angle of inclination of the pipe with the horizontal is . A U-tube manometer is used to measure the pressure difference between the points 1 and 2. The manometer contains a second liquid of density pm [shaded region] Also given are the heights s and h, and the horizontal length L, as shown in the figure below. Eind an expression for the pressure difference, p indicated above. [5 points p2, in terms of the system parameters](http://img.homeworklib.com/questions/65164240-ad36-11eb-ad22-df7d47977513.png?x-oss-process=image/resize,w_560)
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Fluid question ..... please be clear and specific. Be
clear with your handwriting and nice pic...
Water flows steadily downwards through a circular pipe of internal diameter 0.15 m inclined at 30°...
Water flows steadily downwards through a circular pipe of internal diameter 0.15 m inclined at 30° to the horizontal. A U-tube manometer is used to determine the pressure difference between two points displaced axially along the pipe by a distance 1.25 m. The reading on the manometer is 0.25 m of mercury. 1.25 m 0.15 m 30 0.25 m mercury Figure 2: Manometer and pipe Neglecting the thickness of the wall, determine between points 1 and 2: a. The difference...
Assignment Chapter X Chapter pdf + @ fit to page 1 Pageview | A Solve the...
Assignment Chapter X Chapter pdf + @ fit to page 1 Pageview | A Solve the follow the answer should be greater than one pere) Is a certain poce o fdebypfows through the incippe is the figure AU tube with the pressure defence betwee points 1 and 2 shows The L The flow is the faithe www Fidepressions of pares Discuss the code for there to be With the pipe 3 w w w .from 1 to 2? 4 With...
It's Mechanic Fluid subject! Please, solve them with clear handwriting and make sure it's 100 %correct!...
It's Mechanic Fluid subject!
Please, solve them with clear handwriting and make sure it's 100
%correct! Thanks!
8. Crude oil of specific gravity 0.82 and viscosity of 0.4 N-s/m2 is flowing at a rate of 8 ms through a pipe of diameter 0.9 m with a Darcy friction factor of 0.02. The head loss (m) due to viscous effects over 45 m of the pipe is most nearly: a. 2.0 m b. 4.0 m c. 6.0 m d. 8.0 m...
Fluid mechanics! Please answer and explain (w/ details). Will rate! 3) Consider flow through an industrial...
Fluid mechanics! Please answer
and explain (w/ details). Will rate!
3) Consider flow through an industrial water pipe. A technician needs to measure the pressure drop along the pipe from P2 to Pi (ie. find what P2- Pi is). Instead of using Castor Oil only, the technician accidently fills the manometer with Decane. Use the manometer shown below to calculate the pressure difference between the two locations along the pipe. Express your answer symbolically using the given parameters as well...
Question 2 (30 marks) (a) A fluid flowing into a nozzle with specific enthalpy of 2980...
Question 2 (30 marks) (a) A fluid flowing into a nozzle with specific enthalpy of 2980 kJ/kg and the velocity is 80 m/s. At the exit of the nozzle, the specific enthalpy of the fluid drops to 2670 kJ/kg. The nozzle orientation is horizontal and the heat loss is negligible. Given that the nozzle inlet area is 0.25 m2 and the specific volume of the fluid is 0.2 m2/kg, calculate the velocity of the fluid at exit, the mass flow...
8. (10 points extra credit) Consider the figure shown below. It shows a U-shaped mercury manometer...
8. (10 points extra credit) Consider the figure shown below. It shows a U-shaped mercury manometer (a device for detecting pressure differences) that is attached to a pipe along which water is flowing from left to right. The water pipe has a circular cross-section. At A the diameter of the water pipe is 5.6 cm and the speed of the water is 2.80 m/s. At B the diameter of the pipe is 3 cm. The fluid in the manometer is...
fluid mechanics please fast 1. (15 points) Water (p-1g/cm) is flowing in pipes shown in Figure...
fluid mechanics please fast
1. (15 points) Water (p-1g/cm) is flowing in pipes shown in Figure below. Use Bernoull's equation to calculate velocity of water at point B. - Fluid velocity in the large diameter pipe is 1m/s. - Pressure at point 2 is measured with U-tube mercury manometer (Pmercury-13,600kg/m) - h1-0.3m, h2-6cm - assume that the acceleration gravity g-10m/s 2 Manometer shows 0.7kPa pressure Ji h1
Be sure to use very clear hand writing Question 3: (10) Following figure shows freshwater and...
Be sure to use very clear hand writing
Question 3: (10) Following figure shows freshwater and seawater flowing in parallel horizontal pipelines are connected to each other by a double U-tube manometer. Determine the pressure difference between the two pipelines. Take the density of seawater at that location to be ρ = 1035 kg/m13. Can the air column be ignored in the analysis? Air 30 em water Sea- watet 70cm 50 em 10㎝ し ーMercury
thermaldynamics and fluid mechanics Question 4 An orifice plate flow meter, as shown in figure Q4,...
thermaldynamics and fluid mechanics
Question 4 An orifice plate flow meter, as shown in figure Q4, is situated in a horizontal pipe of 95 cm diameter (d) in which water flows. The pressure difference between the vena contracta and flow upstream at point 1 is measured using a differential manometer. The diameter of the sharp-edged orifice (d.) is 35 cm. The coefficient of discharge for the flow meter is 0.7, and the coefficient of contraction is 0.62. Assume the density...
Please solve this problem and show working. Thank you. 9. Bernoulli's equation With a manometer as...
Please solve this problem and show working. Thank
you.
9. Bernoulli's equation With a manometer as shown below, we can find an average velocity at a certain position by applying the Bernoulli equation. Suppose that the cross-section area (2) of pipe at point 2 is twice smaller than that (S) at point 1. The density of incompressible flowing fluid and manometer fluid are denoted as p and p', respectively. Neglecting a surface viscous friction between the two points (1 and...
Water flows steadily downwards through a circular pipe of internal diameter 0.15 m inclined at 30° to the horizontal. A U-tube manometer is used to determine the pressure difference between two points displaced axially along the pipe by a distance 1.25 m. The reading on the manometer is 0.25 m of mercury. 1.25 m 0.15 m 30 0.25 m mercury Figure 2: Manometer and pipe Neglecting the thickness of the wall, determine between points 1 and 2: a. The difference...
Assignment Chapter X Chapter pdf + @ fit to page 1 Pageview | A Solve the follow the answer should be greater than one pere) Is a certain poce o fdebypfows through the incippe is the figure AU tube with the pressure defence betwee points 1 and 2 shows The L The flow is the faithe www Fidepressions of pares Discuss the code for there to be With the pipe 3 w w w .from 1 to 2? 4 With...
It's Mechanic Fluid subject!
Please, solve them with clear handwriting and make sure it's 100
%correct! Thanks!
8. Crude oil of specific gravity 0.82 and viscosity of 0.4 N-s/m2 is flowing at a rate of 8 ms through a pipe of diameter 0.9 m with a Darcy friction factor of 0.02. The head loss (m) due to viscous effects over 45 m of the pipe is most nearly: a. 2.0 m b. 4.0 m c. 6.0 m d. 8.0 m...
Fluid mechanics! Please answer
and explain (w/ details). Will rate!
3) Consider flow through an industrial water pipe. A technician needs to measure the pressure drop along the pipe from P2 to Pi (ie. find what P2- Pi is). Instead of using Castor Oil only, the technician accidently fills the manometer with Decane. Use the manometer shown below to calculate the pressure difference between the two locations along the pipe. Express your answer symbolically using the given parameters as well...
Question 2 (30 marks) (a) A fluid flowing into a nozzle with specific enthalpy of 2980 kJ/kg and the velocity is 80 m/s. At the exit of the nozzle, the specific enthalpy of the fluid drops to 2670 kJ/kg. The nozzle orientation is horizontal and the heat loss is negligible. Given that the nozzle inlet area is 0.25 m2 and the specific volume of the fluid is 0.2 m2/kg, calculate the velocity of the fluid at exit, the mass flow...
8. (10 points extra credit) Consider the figure shown below. It shows a U-shaped mercury manometer (a device for detecting pressure differences) that is attached to a pipe along which water is flowing from left to right. The water pipe has a circular cross-section. At A the diameter of the water pipe is 5.6 cm and the speed of the water is 2.80 m/s. At B the diameter of the pipe is 3 cm. The fluid in the manometer is...
fluid mechanics please fast
1. (15 points) Water (p-1g/cm) is flowing in pipes shown in Figure below. Use Bernoull's equation to calculate velocity of water at point B. - Fluid velocity in the large diameter pipe is 1m/s. - Pressure at point 2 is measured with U-tube mercury manometer (Pmercury-13,600kg/m) - h1-0.3m, h2-6cm - assume that the acceleration gravity g-10m/s 2 Manometer shows 0.7kPa pressure Ji h1
Be sure to use very clear hand writing
Question 3: (10) Following figure shows freshwater and seawater flowing in parallel horizontal pipelines are connected to each other by a double U-tube manometer. Determine the pressure difference between the two pipelines. Take the density of seawater at that location to be ρ = 1035 kg/m13. Can the air column be ignored in the analysis? Air 30 em water Sea- watet 70cm 50 em 10㎝ し ーMercury
thermaldynamics and fluid mechanics
Question 4 An orifice plate flow meter, as shown in figure Q4, is situated in a horizontal pipe of 95 cm diameter (d) in which water flows. The pressure difference between the vena contracta and flow upstream at point 1 is measured using a differential manometer. The diameter of the sharp-edged orifice (d.) is 35 cm. The coefficient of discharge for the flow meter is 0.7, and the coefficient of contraction is 0.62. Assume the density...
Please solve this problem and show working. Thank
you.
9. Bernoulli's equation With a manometer as shown below, we can find an average velocity at a certain position by applying the Bernoulli equation. Suppose that the cross-section area (2) of pipe at point 2 is twice smaller than that (S) at point 1. The density of incompressible flowing fluid and manometer fluid are denoted as p and p', respectively. Neglecting a surface viscous friction between the two points (1 and...
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