2. Find the flow velocities v1, v2, v3 in the pipeline as shown in Figure 5.25....
2. Find the flow velocities v1, V2, v3 in the pipeline as shown in Figure 5.25. However, the flow rate is Q=800 l/min, and the pipe diameters d1, d2, and d3 in the cross sections 1, 2, and 3 are d1=50 mm, d265 mm, and d3=100 mm. 3. Water is flowing in the pipeline shown in Figure 5.25. When the pressure in section 1 is p1=24.5kPa (0.25kgf/cm2), what are the pressures p2 and p3 in sections 2 and 3? with...
As shown in the attached figure, a liquid is flows into a chamber via three pipes of diameters d1, d2, and d3 with velocities of v1, v2, and v3, respectively. The liquid leaves the chamber via two pipes of diameters d4 and d5 with velocities of v4 and v5. The velocity v5 can be calculated by: * (10/10 Points) v3 — d2 d3 v4 → 04 d1 v1 v5 d5 o
Use Nodal Analysis
Exercise 3.7 Find V1, V2, and V3 in the circuit shown in Figure 3.20. FIGURE 3.20 The circuit for EXERCISE 3.7. 3 k12 R2 3 k2 Is 4 mA R3 15k12 Z RA 9k12 3 R5 6 k12 Answer: Vi = 15 V, V2 = 9V, V3 = 12 V.
Obtain the voltages V1, V2 and v3 for the circuit shown in Figure 2 using nodal analysis.
"Forwards and Futures" Task1-D1 01December 2014;D2 15December 2015;V1 1655;V2 1855;Task2-P1 103.82;P2 1.3;P3 112.8;D3 3;Task3- Z1 2.39;Z2 0.42;Z3 1.3;Z4 3;Task4- C1 1.78;C2 1.04;C3 1.0296 1.1r=?answer 1.2 situation?answer 2.1 possibility of arbitrage?answer 3.1 stock futures price? answer 4.1 currency futures price? answer
For the circuit shown in the figure, If R1=512, R2=10N, R3=3N, V1= V1}V, V2=5V and V3=7V. What is the value of the current 11 (in A)? R1 -W R3 M + + V2 V. 3 R2 $ 12 13
3. (15 marks) As shown in the figure, a chamber has two pipe inlets (indicated using 1 and 2) and a nozzle outlet (indicated using 3). Helium gas flows through the system, and can be treated as an ideal gas with constant specific heats. The pressure of the helium at the two inlets and outlet is P, = 10 MPa, P2-15 MPa and P3-8 MPa, and the corresponding velocity of the helium gas is V - 10 m/s, V,- 15...
Water is flowing through a horizontal pipe with diameter, D1, at
a velocity, V1, and under a pressure, P1. It enters a 900 reducing
bend (Shown in grey in Fig 2) that connects to a vertical pipe of
diameter, D2. The inlet of the bend is 50 cm above the exit of the
bend (as shown in Fig 2). Axes for positive directions of x and z
coordinates are provided. Figure 2 Side view of reducing bend from
horizontal to...
A vertical Venturi meter equipped with a differential U-tube manometer as shown in Figure , is used to measure the flow rate of liquid propane at 10°C (p = 514.7 kg/m3) flowing through a 'd1' mm diameter vertical pipe. For a discharge coefficient of 'cd', determine the actual volume flow rate of propane through the pipe with the given data. Pipe dia., d1 = Throat dia., d2 = Vertical dist., Y1 = Vertical dist., Y2 = Disch. Coeff., Cd =...
Consider the circuit shown in (Figure 1). Suppose that
v1=240V, v2=115V, and v3=470V.
Part A. Use the mesh-current method to find the magnitude of
the total power developed in the circuit.
Part B. Find the magnitude of the total power dissipated in
the circuit.
6Ω ΙΩ 3Ω 2Ω 4Ω 5Ω