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A valve connecting the two compartments is opened, and the water is allowed to come to equilibrium adiabatically. Calculate the entropy change for this isolated system.
The resistance wire is placed horizontally in water at 20 degree celsius. Determine the outer surface temperature of the resistance wire in steady operation. For water take beta = 0.000365.
At the entrance of the air conditioning system, determine the mass flow rate of the atmospheric air in kg/s, the mass flow rate of the water vapor in kgv/s, and the rate of enthalpy transport into s
Determine mole fraction of dichloromethane in the gas product stream. Determine the flow rate of the product gas and liquid stream from the condenser.
How much error would result(in the shaft work out put of the turbine) if kinetic and potential energy changes were neglected?
Compute the shaft work output of the turbine, assuming adiabatic operation, but including kinetic and potential energy changes.
To what elevation, in m, would a 1000-kg mass have to be raised from zero elevation relative to the reference environment for its exergy to equal the exergy increase of the slab?
For a turbine efficiency of 86%, determine (a) the fraction of the turbine work output used to drive the compressor and (b) the thermal efficiency.
Determine the required mass flow rate of air for a net power output of 90 MW, assuming both the compressor and the turbine have an isentropic efficiency of (a) 100% and (b) 80%.
An aircraft engine is fitted with a single-sided centrifugal compressor. Estimate the stagnation pressure at the compressor outlet when the massflow is 3.60 kg/s.
Aerodynamic drag exerts a resisting force (in newtons) of magnitude 0.8v^2 where v is the magnitude of the velocity. How long does it take for the rocket's velocity to increase to 200m/s?
Determine (a) the air exit velocity to produce 5 lbf (b) the volumetric flow rate needed and (c) the minimum mechanical power that must be supplied to the airstream. Take the air density to be .081
After the 300' pipe run, this 6" pipe has a sudden enlargement to an 8" (nominal pipe size) schedule 40 steel pipe and continue for another 200 ft with a submerged discharge. If the fluid is water a
The maximum steam temperature is 550 degrees C and the max pressure will be 10Kpa. What will be the temperature rise of the river downstream?
You goal is to design the plant to have the highest thermal efficiency. You must also calculate an annual profit for the plant based on the average going rate of electricity.
Determine graphically by the inverse proportion method, the magnitude of the resultant force R and the horizontal distance from the 4Kn force to its line of action.
The pressures at the flanges are measured as 165 kPa and 135 kPa when the weight flow rate is 230 N/s. Neglecting the pipe weight, what is the total force that the changes must withstand for this flow
Determine the net power output developed by the turbine in MW, if the enthalpy of the remaining steam is 2084 kJ/kg.
The rest exits at another location with a pressure of 0.06 bar, a quality of 80%, and a velocity of 50 m/s. Determine the diameter of the duct where the rest of the steam exits, in meters.
Calculate the ratio of the exit flow area to the inlet flow area, then determine the mass flow rates at the inlet and the exit if the diffuser inlet area is 4.89 x10-4 m2.
Compute the maximum contact pressure and the width of contact. How deep below the surface is the maximum shear stress and what is the value.
Reduce the generalized expressions of the mass rate and energy rate balances to forms that apply for this problem, and then calculate the inlet velocity.
A volume 10 in. long, 5in, wide and 0.5 in. thick is to be removed by face milling cutter that is 3in. diameter and has 6 teeth. The maximum depth of cut is 0.3 in.
Explain what would happen to the ball just after it has been released. The astronaut is held at speed for 2 mins then brought to rest over 3 mins. How many total revolutions will he complete?
Explain the difference between the terms centripetal acceleration and centrifugal acceleration. How does our perception of events "change" what is happening with these two accelerations?