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How would you know if the alloy heat treatment is successful? Consider the tensile or yield stress, the elongation, and the microstructure that might be developed.
How many phases can be in equilibrium for various degrees of freedom (temperature, pressure and/or phase composition)?
Sketch the TTT diagram for a typical high hardenability FeFe3C alloy with addition elements such as Ni, Mn, N, etc. in comparison to a binary FeFe3C alloy.
Give the state, temperature, pressure, quality (if applicable), enthalpy, and entropy for each of the four states. calculate the output power from the turbine, and overall thermal efficiancy.
Consider the posts in their initial unyielded state. If P = 50kN, for what temperature change T would the gap between the brass post and rigid beam equal 10mm?
If the loop is placed in an 0.27 T magnetic field that passes through it perpendicular to the area (that is, parallel to the "normal vector" of the surface), what amount of emf will be induced in th
The cable supporting the elevator has a design load of 2500 lb. Using the Impulse-Momentum Equation, determine the time it will take the elevator to stop.
The fuel capacity is 35 MJ/Liter and it costs 0.15 dollar per liter. The boiler efficiency is 95% and the generator efficiency is 99%. What is the mass flow rate in the turbine?
If the surface of the tower is normally kept at 23 Celcius at night and has a emissivity of 0.64, what is the amount of heat loss due to radiation?
What is the heat transfer rate through conduction in Watts. The walls are 9 ft hight and the room has the dimension of 16 ft by 19 feet and the walls and ceiling all have a thermal conductivity of k
Determine the required operating pressures of the boiler and condenser (in kPa). Determine the quality of the R-22 at the entrance and exit of the condenser.
After developing the velocity profile of this Poiseuille flow across the 2m long tube, what is the estimated velocity in m/s at a radius of 1.2 mm in the tube?
What is the appropriate model tow velocity in m/s? A boat of length 50 m is designed to cruise at 30 mph and is to be tested in a tow tank with a model of length 0.5 m.
Determine (i) the inlet air velocity in m/s and (ii) volumetric flow rate in L/min. Show correct units. State all assumptions. Use the problem solving methodology.
If the fluid is gasoline at 20 degrees Celsius and the flow enters the blades radially, estimate the theoretical (a) flow rate in gal/min, (b) horsepower, and (c) head in ft.
Knowing the mass center of the automobile and driver is 2 ft from the wall. Determine the minimum required value of the coefficient of static friction between the tires and the wall.
Draw a system diagram and label all the components. Number the flow, starting with a 1 at the pump inlet. The actual thermal efficiency of the cycle. Compare to the answer you got in problem I and II.
Calculate and discuss the blood and water outlet temperatures as a function of the water flow rate for the range 2 to 4 liter/min.
Calculate the overall heat transfer coefficient (U) for the assumed tube diameter, finshape and material. Use correlations to estimate hot-and cold-side convectioncoefficients.
A boat of length 50m is designed to cruise at 30 mph and is to be tested in a tow tank with a model of length 0.5 m. if the model wave drag is 1.2 N, what is the estimated full size boat wave drag
After developing the velocity profile of this Poiseuille flow across the 2m long tube, what is the estimated velocity in m/s at a radius of 1.2 mm the tube?
For liquid propane, hf=-118,900kj/kmol. Determine the temperature of the combustion products, in K, for complete combustion with the theoretical amount of air.
A solid 1.5-m-diameter sphere floats at the interface between water (SG = 1.0) and mercury (SG = 13.56) such that 30 percent is in the water. What is the specific gravity of the sphere?
Determine the pressure drop in kPa along a 2m length of the tube, which is far from the tube entrance so that the only component velocity is parallel to the tube axis.