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03:44
4.20 Figure P4.20 provides steady-state data for water vapor flowing through a piping configuration.
06:32
4.4 Air modeled as an ideal gas enters a combustion chamber at 20 lbf/in^2 (psi) and 708°F
02:39
4.3 Steam enters a 1.6 cm-diameter pipe at 80 bar and 600°C with a velocity of 150 m/s.
05:38
4.2 Refrigerant 134a exits a heat exchanger through 0.75-in diameter tubing with a mass flow rate
03:38
4.1 A laser Doppler velocimeter measures a velocity of 8 m/s as water flows in an open channel.
06:22
6.79 Air enters a turbine operating at steady state at 8 bar, 1400 K and expands to 0.8 bar.
06:36
4.16 Air enters a one-inlet, one-exit control volume at 6 bar, 500 K, and 30 m/s
05:05
4.55 Refrigerant 134a enters a compressor operating at steady state as saturated vapor.
08:47
4.19 As shown in Fig. P4.19, steam at 80 bar, 4408°C, enters a turbine operating at steady state.
05:28
4.5 Air exits a turbine at 200 kPa and 1508°C with a volumetric flow rate of 7000 liters/s.
04:45
4.8 Figure P4.8 shows a mixing tank initially containing 2000 lb of liquid water.
07:37
4.48 Steam enters a turbine operating at steady state at 2 MPa, 360C with a velocity of 100 m/s.
08:30
4.80 Steam enters a counterflow heat exchanger operating at steady state at 0.07 MPa.
09:01
Air is compressed at a steady state from 1 bar, 300 K, to 6 bar with a mass flow rate of 4kg/s.
24:58
Water is in an expandable container that maintains mechanical equilibrium with the atmosphere.
14:46
Three steam lines enter a collection tank operating at steady state.
07:09
Carbon dioxide is sealed in a piston-cylinder system. The initial volume of CO2 is 0.1 m^3.
05:06
The specific volume of water contained in a tank at 200 psi is 1.5 ft3/lbm.
18:28
A gas inside a piston-cylinder assembly undergoes the following sequence of processes:
04:45
A piston-cylinder assembly contains 1.5 lbm of gas undergoing a thermodynamic process 1 to 2.
03:13
Using the method of joints, determine the type of force in member ‘AD’ of the below shown truss.
06:51
If θ (theta) = 60° (degrees), and F = 450 N, determine the magnitude of the resultant force