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Determine the work and heat transfer per unit of mass passing through the device in kJ/kg, if the air undergoes a polytropic process with n=1.3.
The temperature of the steam entering the turbine is 700 F. Calculate the thermal efficiency of the cycle assuming isentropic expansion in the turbine.
Provide an example for how microstructure influences properties for metals, ceramics and glass, and polymers. What is a phase diagram and why is it important?
What are the sound pressure levels at a distance of 300, 500, and 1000 m for 2, 5, and 10 of these turbines located close together? Assume an absorption coefficient of 0.005.
What is the pressure that the pump can deliver? The viscosity of the oil is v = 0.00001 m2/s. Is the flow in the pipe laminar or turbulent?
A torque T is applied to a thin-walled tube of a cross section in the form of a regular hexagon of a constant wall thickness t and the mean side length a.
A square box section with 50-mm sides and 2.5-mm wall thickness. Compare the torsional rigidities and the maximum shearing stresses for the same applied torque.
Heat input of 6.63 kJ occurs in every cycle. Consider variable specific heats for air. Calculate the maximum pressure (kP) and maximum temperature in the cycle.
Plot thrust vs. time. What is the velocity of the rocket at 15, 20 and 30 seconds? Find the maximum altitude attained by the rocket. Ignore air friction.
Determine the rate of entropy production (kW/K) within the compressor if the air is modeled as an ideal gas with variable specific heats.
The gear is to transmit 90 HP at 300 RPM. What does the inside diameter of the gear need to be if the entire torque is to be carried by the press fit?
Find power required by the compressor, isothermal efficency, heat removed from the refigerated space, and the coefficient of performance.
Describe the relationship between microstructure, scale and material properties. Provide an example for how microstructure influences properties for metals, ceramics and glass, and polymers.
Calculate the change in entropy per kilogram as air is heated from 300 to 600K while pressure drops from 400 to 300kPa assume: a) constant specific heat; b) variable specific heat.
Two failures were recorded at the end of the 200 operating hours. Determine a 90 percent, two-sided confidence interval for R(200). Determine a 90 percent lower-bound confidence interval for R(200).
At the entrance to the adiabatic compressor, the r-134a is at 160 kPa and -10oC and it exists at 700 kPa and 50oC. The system releases heat to the environment at a rate of 12.5 kW. Find the power requ
Determine the total hemispherical emmisivity of a surface that has a spherical hemispherical emmisivity of 0.3 at wavelengths less than 1.5 um.
Determine the maximum allowable steam pressure at the turbine inlet and calculate the rankine cycle efficiency for these steam conditions. estimate also the mean temperature of heat addition.
During the compression process the relation between pressure and volume is PV1.3=constant. Calculate the work and heat transfer per kilogram, and show this on P-V and T-S diagrams.
A spring is initially compressed from a free length of 8in to a length of 6in, making a net initial compression of 2in. What additional work is done in comressing it 3in more (5 inches total) to a 3
Find the heat transfer and work per unit mass of air in KJ/kg for each process of the two cycles, and compare the thermal efficiency of each. Assume constant specific heats at room temperature, and
Design the heat pump system including the number and depth of wells and layout of the piping system. Compare the cost of the proposed geothermal system.