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Determine the rate of heat loss at the compressor, exit temperature of the refrigerant and the rate of entropy generation.
Find 1) the mass of the refrigerant and 2) the heat transfer to surroundings and the final temperature of the tank when the valve is closed.
What is the minimum diameter wire that can be produced from a 5 mm initial diameter, annealed copper wire? (K=315 MPa; n=0.54)
For the given chemical reaction, calculate the net effect due to changing from the standard state at 298 K to 2 bar and 400 K: delta Hrxn,298 =164.94 kJ/mo.
The lift coefficient at this speed is 0.45 and the drag coefficient is 0.065. The mass of the aircraft is 900 kg. Calculate the lift area for the craft, and the requried engine thrust and power.
What is the velocity in the boundary layer at a point 0.4 m down the plate (in the x direction) and 0.001 m above the surface (in the y direction)?
Bob is asked to design a system for heating process water in a chemical plant. What capacity of natural gas burners must Bob provide, measured in BTU/H?
Find the thermal efficiency of an ideal reheat Rankine cycle of a steam power plant. Find the pressure at which reheating takes place and the total rate of heat input to the boiler.
Determine the enthropy change of the system and the surrounding and show that the principle of increase of entropy is satisfied.
An ideal gas contained in a piston-cylinder assembly is compressed isothermally in an internally reversile process. Determine if the entropy change of the gas is greater than, equal to or less than ze
Air enters a converging-diverging nozzle at 700 kPA, 240 K, and Ma = 0.3. What back pressure will produce supersonic outflow?
If the coefficient of static friction between the beam and the block is u_s=0.4 , and between the rope and the peg is u_s= 0.5 s, determine: the maximum distance that the block can be placed from A
What flow rate of natural gas (in cubic feet per hour) would be required to serve a 150,000 btu/hr output capacity, conventional boiler at full capacity?
What cooling air flow rate would be required to maintain a space at 72 degrees F if it had a sensible cooling load of 25,000 BTU/HR and a latent cooling load of 8,000 BTU/hr?
Knowing that the coefficient of friction is uk=0.31, determine how far the package will travel down the ramp in 3 seconds. The ramp is angled at 30 degrees.
Refrigerator operates at steady a coefficient of performance of 5.0 within a kitchen at 238C. Determine the lowest theoretical temperature inside the refrigerator, in K.
Air enters an insulated turbine operating at steady state at 8 bar, 11278C and exits at 1.5 bar, 3478C. Determine whether the expansion is internally reversible, irreversible, or impossible.
These cutting parameters should result in a tool life of T = 15 min. For a machine and labor rate of $50/hr what is the tool life for miniumum cost?
Given a variable speed centrifugal pump initially pumping 32,000 pounds mass per hour (lbm/hr) at a discharge pressure of 35 pounds per square inch, gauge (psig).
Calculate the fluid velocities at the two ends and the pressure head at the larger end. Draw a picture of the problem and show your work.
How many feet of head must the pump add to achieve 10,000 lbm/hr flow through a 24 inch pipe with a friction head loss of 1.5 feet?
Determine for the modified cycle, (a) the coefficient of performance and (b) the irreversibility rates, per unit mass of air flow, in the compressor and turbine, each in kJ/kg, for T0 = 300 K.
Write the matlab solution for the ODE using the fourth order runge-kutta method and plot y and dy/dx as a function of t for the first 10 seconds.
Calculate the Joule-Thomson coefficient for R-134a at a state of 140 degree F and 30 Psia use this value of the J.T.C. to determine the temperature that would result by throttling R-134a from the a