3) Determine the pressure difference of PA-Pe in the following manometer system (20 Points) Y1 10...
1. (20 points-Bernoulli equation) The mercury in the manometer has a difference in 726 kg/m3. Determine the elevation of h 0.27 m. pHg 13550 kg/m3 and pgas volumetric discharge of gasoline through the pipe. 150 mm 75 mm
Y = 3 m
(pa-pb) = 46 KN/m^2
Q.2. Figure:2 shows a U tube differential manometer connecting two pressure pipes at A and B. The pipe A and B contains water and manometer fluid is mercury. If the pressure difference between two pipe (p.-p.) is (X) kN/m’. Calculate the difference in level (h). (3 Marks) Water water 0.3 m у h Mercury Sp. gravity 13.6
4-For the manometer shown in the Fig. below contains oil and water.For the column heights indicated what is the pressur differential between pipes A and B. CDI water water 650) 20 10 Glycerin S.G-1.26 oil o-o.as S.G 0.85 Dimensions in cm S-The inverted U-tube manometer contains oil S.G.-0.9and water. The pressure differential between A and B, pA-PB is-5kPa Determine the differential reading,h Oil 0.2 m 0.3 m Water 9-Air flows through a pipe at a rate of 200L/s.The pipe consists...
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...
2. Determine the pressure difference between points A and B in Pa for h = 30 cm h = 4cm h3 = 7 cm Use water = 1000 kg/ml, Perone = 800 kg/m", and Puercury - 13600 kg/m Kerosene Water 800 30 BT Tem 1000 Mercury 15600
For the system shown below, the difference between PA and Pg is 1100 Pa. Determine the SG of the liquid in the tank for a = 4.3 cm, b = 10 cm, and c = 3 cm. The specific weight of water is 9790 N/m3 SG = 0.8 Liquid, SG = ? 2 cm 10 cm Jom
02. (25 POINTS) Kerosene (p- 800 kg/m3) flows through the system in the figure below. The outflow is to the atmosphere. The pipe is horizontal. The fluid in the manometer is mercury. Neglect friction, Calculate (i) discharge O,(ii) velocity Vs (iii) Zs and (iv) ha Ds D4 10 cm D2 7 cm 20.0 m 4 10 cm 5 cm 10 cm Horizontal Pipe 3 5 2 Atmos る- D. D-D. Datum
02. (25 POINTS) Kerosene (p- 800 kg/m3) flows through...
Fluid Mechanincs :
Oil with γ-8.53 KN/m 3 and a viscosity μ-0.191 N s/m2 flows through the vertical pipe shown in the diagram at a rate of Q 4 x 10-4 m3/s. Gage fluid has γ-12.74 kN/m 3 Determine the manometer reading, h. Is the flow laminar? Hints. Ap-pi-p2 + γ f and hi-h-h2 + f S: Governing Equation(s):
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...
lunzontal pipe and pump system in the following figure discharges 0.01583 m3/s. The gage pressure iust before the pressure is 400 The m/s2 losses between 20°C water at 57 m3/h 0 kPa and just after the pump the gage a. The pump inlet diameter is 9 cm and the outlet diameter is 3 em. Let g-9.81 pump is 12 o Pwater9 kg/m, Hwate0.001002 kgm-s) and Pat the two pressure points and the pump. But consider frictional losses at the 9-cm...